Synthesis and Evidence Assessment: What We Know, What We Think We Know, and What We Don’t
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1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference The dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, extended across behavioral paradigms, confirmed with genetically encoded sensors 4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, and validated against computational...
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2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference The dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, extended across behavioral paradigms, confirmed with genetically encoded sensors 4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, and validated against computational...
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3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference The dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, extended across behavioral paradigms, confirmed with genetically encoded sensors 4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, and validated against computational...
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4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference The dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference0, extended across behavioral paradigms, confirmed with genetically encoded sensors 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference1, and validated against computational...
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1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference2 The dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference3, extended across behavioral paradigms, confirmed with genetically encoded sensors 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference4, and validated against computational...
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1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference5 The dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference6, extended across behavioral paradigms, confirmed with genetically encoded sensors 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference7, and validated against computational...
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1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference8 The dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference9, extended across behavioral paradigms, confirmed with genetically encoded sensors 4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference0, and validated against computational...
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4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference1 The dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations 4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference2, extended across behavioral paradigms, confirmed with genetically encoded sensors 4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference3, and validated against computational...
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4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference4 The dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations 4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference5, extended across behavioral paradigms, confirmed with genetically encoded sensors 4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference6, and validated against computational...
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4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference7 The dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations 4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference8, extended across behavioral paradigms, confirmed with genetically encoded sensors 4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference9, and validated against computational...
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2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference0 Cholinergic cortical desynchronization represents another Tier 1 finding. Optogenetic stimulation of basal forebrain cholinergic neurons reliably produces cortical desynchronization, confirmed across multiple preparations 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference1. However, the functional interpretation of this desynchronization remains debated: whether acetylcholine specifically enhances attention or acts as a more general...
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2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference2 Cholinergic cortical desynchronization represents another Tier 1 finding. Optogenetic stimulation of basal forebrain cholinergic neurons reliably produces cortical desynchronization, confirmed across multiple preparations 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference3. However, the functional interpretation of this desynchronization remains debated: whether acetylcholine specifically enhances attention or acts as a more general...
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2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference4 Cholinergic cortical desynchronization represents another Tier 1 finding. Optogenetic stimulation of basal forebrain cholinergic neurons reliably produces cortical desynchronization, confirmed across multiple preparations 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference5. However, the functional interpretation of this desynchronization remains debated: whether acetylcholine specifically enhances attention or acts as a more general...
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2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference6 Noradrenergic enhancement of emotional memory consolidation, mediated through beta-adrenergic receptors in the basolateral amygdala, has been replicated across species and paradigms 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference7. The locus coeruleus–amygdala pathway’s role in emotional memory has strong convergent support from pharmacological, lesion, and imaging studies. Cross-species validation extends from rodent fear...
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2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference8 Noradrenergic enhancement of emotional memory consolidation, mediated through beta-adrenergic receptors in the basolateral amygdala, has been replicated across species and paradigms 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference9. The locus coeruleus–amygdala pathway’s role in emotional memory has strong convergent support from pharmacological, lesion, and imaging studies. Cross-species validation extends from rodent fear...
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1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference0 Noradrenergic enhancement of emotional memory consolidation, mediated through beta-adrenergic receptors in the basolateral amygdala, has been replicated across species and paradigms 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference1. The locus coeruleus–amygdala pathway’s role in emotional memory has strong convergent support from pharmacological, lesion, and imaging studies. Cross-species validation extends from rodent fear...
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1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference2 Noradrenergic enhancement of emotional memory consolidation, mediated through beta-adrenergic receptors in the basolateral amygdala, has been replicated across species and paradigms 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference3. The locus coeruleus–amygdala pathway’s role in emotional memory has strong convergent support from pharmacological, lesion, and imaging studies. Cross-species validation extends from rodent fear...
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1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference4 Noradrenergic enhancement of emotional memory consolidation, mediated through beta-adrenergic receptors in the basolateral amygdala, has been replicated across species and paradigms 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference5. The locus coeruleus–amygdala pathway’s role in emotional memory has strong convergent support from pharmacological, lesion, and imaging studies. Cross-species validation extends from rodent fear...
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1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference6 The validation of genetically encoded neurotransmitter sensors deserves recognition as a methodological Tier 1 achievement. Sensors including dLight for dopamine 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference7, GRAB sensors for multiple neuromodulators 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference8, and NE sensors 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference9 have been independently validated across laboratories, providing the field with tools whose measurement properties are themselves well-characteri...
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4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference0 The validation of genetically encoded neurotransmitter sensors deserves recognition as a methodological Tier 1 achievement. Sensors including dLight for dopamine 4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference1, GRAB sensors for multiple neuromodulators 4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference2, and NE sensors 4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference3 have been independently validated across laboratories, providing the field with tools whose measurement properties are themselves well-characteri...
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4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference4 The validation of genetically encoded neurotransmitter sensors deserves recognition as a methodological Tier 1 achievement. Sensors including dLight for dopamine 4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference5, GRAB sensors for multiple neuromodulators 4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference6, and NE sensors 4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference7 have been independently validated across laboratories, providing the field with tools whose measurement properties are themselves well-characteri...
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4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference8 The validation of genetically encoded neurotransmitter sensors deserves recognition as a methodological Tier 1 achievement. Sensors including dLight for dopamine 4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference9, GRAB sensors for multiple neuromodulators 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference0, and NE sensors 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference1 have been independently validated across laboratories, providing the field with tools whose measurement properties are themselves well-characteri...
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3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference2 The validation of genetically encoded neurotransmitter sensors deserves recognition as a methodological Tier 1 achievement. Sensors including dLight for dopamine 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference3, GRAB sensors for multiple neuromodulators 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference4, and NE sensors 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference5 have been independently validated across laboratories, providing the field with tools whose measurement properties are themselves well-characteri...
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3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference6 The validation of genetically encoded neurotransmitter sensors deserves recognition as a methodological Tier 1 achievement. Sensors including dLight for dopamine 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference7, GRAB sensors for multiple neuromodulators 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference8, and NE sensors 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference9 have been independently validated across laboratories, providing the field with tools whose measurement properties are themselves well-characteri...
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1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference0 The methodological revolution in neurotransmitter sensing deserves particular emphasis as a Tier 1 achievement because it addresses a foundational measurement problem. Classical microdialysis provided neurochemical measurements with temporal resolution on the order of minutes — far too slow to capture the sub-second dynamics relevant to neural computation 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference1. Fast-scan cyclic voltammetry...
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1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference2 The methodological revolution in neurotransmitter sensing deserves particular emphasis as a Tier 1 achievement because it addresses a foundational measurement problem. Classical microdialysis provided neurochemical measurements with temporal resolution on the order of minutes — far too slow to capture the sub-second dynamics relevant to neural computation 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference3. Fast-scan cyclic voltammetry...
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1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference4 The methodological revolution in neurotransmitter sensing deserves particular emphasis as a Tier 1 achievement because it addresses a foundational measurement problem. Classical microdialysis provided neurochemical measurements with temporal resolution on the order of minutes — far too slow to capture the sub-second dynamics relevant to neural computation 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference5. Fast-scan cyclic voltammetry...
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1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference6 The methodological revolution in neurotransmitter sensing deserves particular emphasis as a Tier 1 achievement because it addresses a foundational measurement problem. Classical microdialysis provided neurochemical measurements with temporal resolution on the order of minutes — far too slow to capture the sub-second dynamics relevant to neural computation 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference7. Fast-scan cyclic voltammetry...
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1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference8 The methodological revolution in neurotransmitter sensing deserves particular emphasis as a Tier 1 achievement because it addresses a foundational measurement problem. Classical microdialysis provided neurochemical measurements with temporal resolution on the order of minutes — far too slow to capture the sub-second dynamics relevant to neural computation 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference9. Fast-scan cyclic voltammetry...
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4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference0 The methodological revolution in neurotransmitter sensing deserves particular emphasis as a Tier 1 achievement because it addresses a foundational measurement problem. Classical microdialysis provided neurochemical measurements with temporal resolution on the order of minutes — far too slow to capture the sub-second dynamics relevant to neural computation 4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference1. Fast-scan cyclic voltammetry...
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4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference2 The methodological revolution in neurotransmitter sensing deserves particular emphasis as a Tier 1 achievement because it addresses a foundational measurement problem. Classical microdialysis provided neurochemical measurements with temporal resolution on the order of minutes — far too slow to capture the sub-second dynamics relevant to neural computation 4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference3. Fast-scan cyclic voltammetry...
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4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference4 The methodological revolution in neurotransmitter sensing deserves particular emphasis as a Tier 1 achievement because it addresses a foundational measurement problem. Classical microdialysis provided neurochemical measurements with temporal resolution on the order of minutes — far too slow to capture the sub-second dynamics relevant to neural computation 4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference5. Fast-scan cyclic voltammetry...
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4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference6 Serotonergic modulation of impulse control and behavioral patience has been demonstrated in multiple paradigms, but primarily from a limited number of laboratories. The serotonin hypothesis of depression — arguably the most clinically consequential claim in the field — has been increasingly challenged. 4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference7 found that the main areas of serotonin research “provide no consistent evidence of” an association...
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4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference8 Serotonergic modulation of impulse control and behavioral patience has been demonstrated in multiple paradigms, but primarily from a limited number of laboratories. The serotonin hypothesis of depression — arguably the most clinically consequential claim in the field — has been increasingly challenged. 4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 5CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference9 found that the main areas of serotonin research “provide no consistent evidence of” an association...
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4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference0 Serotonergic modulation of impulse control and behavioral patience has been demonstrated in multiple paradigms, but primarily from a limited number of laboratories. The serotonin hypothesis of depression — arguably the most clinically consequential claim in the field — has been increasingly challenged. 4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference1 found that the main areas of serotonin research “provide no consistent evidence of” an association...
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4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference2 The dopamine inverted-U model for prefrontal cortical function — the idea that both too little and too much dopamine impair working memory — has clinical relevance for understanding cognitive dysfunction across psychiatric conditions 4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference3. Yet the primary experimental demonstrations of this relationship are limited to a small number of studies, and the precise shape of the dose-response curve varies acros...
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4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference4 The dopamine inverted-U model for prefrontal cortical function — the idea that both too little and too much dopamine impair working memory — has clinical relevance for understanding cognitive dysfunction across psychiatric conditions 4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference5. Yet the primary experimental demonstrations of this relationship are limited to a small number of studies, and the precise shape of the dose-response curve varies acros...
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4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference6 The norepinephrine system illustrates how competing models can persist when the experimental evidence is insufficient to distinguish them. 4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference7 reviewed evidence that the P3 event-related potential reflects phasic LC-NE activity, linking noradrenergic function to attentional orienting and decision-making. This framework has been influential, but it competes with models emphasizing continuous gain modula...
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4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference8 The norepinephrine system illustrates how competing models can persist when the experimental evidence is insufficient to distinguish them. 4CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference9 reviewed evidence that the P3 event-related potential reflects phasic LC-NE activity, linking noradrenergic function to attentional orienting and decision-making. This framework has been influential, but it competes with models emphasizing continuous gain modula...
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1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference00 The norepinephrine system illustrates how competing models can persist when the experimental evidence is insufficient to distinguish them. 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference01 reviewed evidence that the P3 event-related potential reflects phasic LC-NE activity, linking noradrenergic function to attentional orienting and decision-making. This framework has been influential, but it competes with models emphasizing continuous gain modula...
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1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference02 Cross-system interactions represent an emerging area where evidence is particularly thin relative to theoretical importance. The claim that neuromodulatory systems interact — that dopamine release modulates serotonin signaling, or that acetylcholine gates noradrenergic effects — is widely assumed but rarely tested directly. 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference03 established calcium-dependent vesicular exocytosis as a mechanism for co-transmissi...
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1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference04 Cross-system interactions represent an emerging area where evidence is particularly thin relative to theoretical importance. The claim that neuromodulatory systems interact — that dopamine release modulates serotonin signaling, or that acetylcholine gates noradrenergic effects — is widely assumed but rarely tested directly. 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference05 established calcium-dependent vesicular exocytosis as a mechanism for co-transmissi...
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1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference06 Cross-system interactions represent an emerging area where evidence is particularly thin relative to theoretical importance. The claim that neuromodulatory systems interact — that dopamine release modulates serotonin signaling, or that acetylcholine gates noradrenergic effects — is widely assumed but rarely tested directly. 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference07 established calcium-dependent vesicular exocytosis as a mechanism for co-transmissi...
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1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference08 Cross-system interactions represent an emerging area where evidence is particularly thin relative to theoretical importance. The claim that neuromodulatory systems interact — that dopamine release modulates serotonin signaling, or that acetylcholine gates noradrenergic effects — is widely assumed but rarely tested directly. 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference09 established calcium-dependent vesicular exocytosis as a mechanism for co-transmissi...
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1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference10 Cross-system interactions represent an emerging area where evidence is particularly thin relative to theoretical importance. The claim that neuromodulatory systems interact — that dopamine release modulates serotonin signaling, or that acetylcholine gates noradrenergic effects — is widely assumed but rarely tested directly. 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference11 established calcium-dependent vesicular exocytosis as a mechanism for co-transmissi...
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1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference12 Cross-system interactions represent an emerging area where evidence is particularly thin relative to theoretical importance. The claim that neuromodulatory systems interact — that dopamine release modulates serotonin signaling, or that acetylcholine gates noradrenergic effects — is widely assumed but rarely tested directly. 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference13 established calcium-dependent vesicular exocytosis as a mechanism for co-transmissi...
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1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference14 Cross-system interactions represent an emerging area where evidence is particularly thin relative to theoretical importance. The claim that neuromodulatory systems interact — that dopamine release modulates serotonin signaling, or that acetylcholine gates noradrenergic effects — is widely assumed but rarely tested directly. 1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference15 established calcium-dependent vesicular exocytosis as a mechanism for co-transmissi...
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1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference16 The cholinergic encoding/retrieval switching hypothesis — the claim that acetylcholine levels in hippocampus switch the network between encoding and retrieval modes — is commonly cited as a fundamental principle of memory systems neuroscience. Yet when we trace this claim through the citation chain, the primary experimental evidence is surprisingly thin, resting on a small number of studies from limited experimental...
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1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference17 The cholinergic encoding/retrieval switching hypothesis — the claim that acetylcholine levels in hippocampus switch the network between encoding and retrieval modes — is commonly cited as a fundamental principle of memory systems neuroscience. Yet when we trace this claim through the citation chain, the primary experimental evidence is surprisingly thin, resting on a small number of studies from limited experimental...
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1CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 2CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference, 3CitationThe dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...content/12_synthesis_evidence.md:line 14Open reference18 The cholinergic encoding/retrieval switching hypothesis — the claim that acetylcholine levels in hippocampus switch the network between encoding and retrieval modes — is commonly cited as a fundamental principle of memory systems neuroscience. Yet when we trace this claim through the citation chain, the primary experimental evidence is surprisingly thin, resting on a small number of studies from limited experimental...
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References
- [Daw2002] “The dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...”
- [Kakade2002] “The dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...”
- [Suri2002] “The dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...”
- [Havens2025] “The dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...”
- [Labouesse2024] “The dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...”
- [Batten2025] “The dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...”
- [DeJong2022] “The dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...”
- [Branco2025] “The dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...”
- [Molas2023] “The dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...”
- [Morris2025] “The dopamine reward prediction error (RPE) signal stands as the most robustly established finding in neuromodulation neuroscience. Originally described in primate electrophysiology, the RPE framework has been extended to rodent preparations [Daw2002, Kakade2002, Suri2002], extended across behavioral paradigms, confirmed with genetically encoded sensors [Havens2025, Labouesse2024], and validated against computational...”
- [Hampel2018] “Cholinergic cortical desynchronization represents another Tier 1 finding. Optogenetic stimulation of basal forebrain cholinergic neurons reliably produces cortical desynchronization, confirmed across multiple preparations [Hampel2018, RamirezExposito2026]. However, the functional interpretation of this desynchronization remains debated: whether acetylcholine specifically enhances attention or acts as a more general...”
- [RamirezExposito2026] “Cholinergic cortical desynchronization represents another Tier 1 finding. Optogenetic stimulation of basal forebrain cholinergic neurons reliably produces cortical desynchronization, confirmed across multiple preparations [Hampel2018, RamirezExposito2026]. However, the functional interpretation of this desynchronization remains debated: whether acetylcholine specifically enhances attention or acts as a more general...”
- [Riby2026] “Cholinergic cortical desynchronization represents another Tier 1 finding. Optogenetic stimulation of basal forebrain cholinergic neurons reliably produces cortical desynchronization, confirmed across multiple preparations [Hampel2018, RamirezExposito2026]. However, the functional interpretation of this desynchronization remains debated: whether acetylcholine specifically enhances attention or acts as a more general...”
- [Nieuwenhuis2005] “Noradrenergic enhancement of emotional memory consolidation, mediated through beta-adrenergic receptors in the basolateral amygdala, has been replicated across species and paradigms [Nieuwenhuis2005, Dolan2002, Whalen1998]. The locus coeruleus–amygdala pathway's role in emotional memory has strong convergent support from pharmacological, lesion, and imaging studies. Cross-species validation extends from rodent fear...”
- [Dolan2002] “Noradrenergic enhancement of emotional memory consolidation, mediated through beta-adrenergic receptors in the basolateral amygdala, has been replicated across species and paradigms [Nieuwenhuis2005, Dolan2002, Whalen1998]. The locus coeruleus–amygdala pathway's role in emotional memory has strong convergent support from pharmacological, lesion, and imaging studies. Cross-species validation extends from rodent fear...”
- [Whalen1998] “Noradrenergic enhancement of emotional memory consolidation, mediated through beta-adrenergic receptors in the basolateral amygdala, has been replicated across species and paradigms [Nieuwenhuis2005, Dolan2002, Whalen1998]. The locus coeruleus–amygdala pathway's role in emotional memory has strong convergent support from pharmacological, lesion, and imaging studies. Cross-species validation extends from rodent fear...”
- [Ochsner2002] “Noradrenergic enhancement of emotional memory consolidation, mediated through beta-adrenergic receptors in the basolateral amygdala, has been replicated across species and paradigms [Nieuwenhuis2005, Dolan2002, Whalen1998]. The locus coeruleus–amygdala pathway's role in emotional memory has strong convergent support from pharmacological, lesion, and imaging studies. Cross-species validation extends from rodent fear...”
- [Wager2008] “Noradrenergic enhancement of emotional memory consolidation, mediated through beta-adrenergic receptors in the basolateral amygdala, has been replicated across species and paradigms [Nieuwenhuis2005, Dolan2002, Whalen1998]. The locus coeruleus–amygdala pathway's role in emotional memory has strong convergent support from pharmacological, lesion, and imaging studies. Cross-species validation extends from rodent fear...”
- [Xie2024] “The validation of genetically encoded neurotransmitter sensors deserves recognition as a methodological Tier 1 achievement. Sensors including dLight for dopamine [Labouesse2024], GRAB sensors for multiple neuromodulators [Xie2024, Wei2025b], and NE sensors [Kaganovski2025] have been independently validated across laboratories, providing the field with tools whose measurement properties are themselves well-characteri...”
- [Wei2025b] “The validation of genetically encoded neurotransmitter sensors deserves recognition as a methodological Tier 1 achievement. Sensors including dLight for dopamine [Labouesse2024], GRAB sensors for multiple neuromodulators [Xie2024, Wei2025b], and NE sensors [Kaganovski2025] have been independently validated across laboratories, providing the field with tools whose measurement properties are themselves well-characteri...”
- [Kaganovski2025] “The validation of genetically encoded neurotransmitter sensors deserves recognition as a methodological Tier 1 achievement. Sensors including dLight for dopamine [Labouesse2024], GRAB sensors for multiple neuromodulators [Xie2024, Wei2025b], and NE sensors [Kaganovski2025] have been independently validated across laboratories, providing the field with tools whose measurement properties are themselves well-characteri...”
- [Muir2024] “The validation of genetically encoded neurotransmitter sensors deserves recognition as a methodological Tier 1 achievement. Sensors including dLight for dopamine [Labouesse2024], GRAB sensors for multiple neuromodulators [Xie2024, Wei2025b], and NE sensors [Kaganovski2025] have been independently validated across laboratories, providing the field with tools whose measurement properties are themselves well-characteri...”
- [Kielbinski2024] “The validation of genetically encoded neurotransmitter sensors deserves recognition as a methodological Tier 1 achievement. Sensors including dLight for dopamine [Labouesse2024], GRAB sensors for multiple neuromodulators [Xie2024, Wei2025b], and NE sensors [Kaganovski2025] have been independently validated across laboratories, providing the field with tools whose measurement properties are themselves well-characteri...”
- [NchouwatNdumgouo2025] “The methodological revolution in neurotransmitter sensing deserves particular emphasis as a Tier 1 achievement because it addresses a foundational measurement problem. Classical microdialysis provided neurochemical measurements with temporal resolution on the order of minutes — far too slow to capture the sub-second dynamics relevant to neural computation [NchouwatNdumgouo2025, Li2026c]. Fast-scan cyclic voltammetry...”
- [Li2026c] “The methodological revolution in neurotransmitter sensing deserves particular emphasis as a Tier 1 achievement because it addresses a foundational measurement problem. Classical microdialysis provided neurochemical measurements with temporal resolution on the order of minutes — far too slow to capture the sub-second dynamics relevant to neural computation [NchouwatNdumgouo2025, Li2026c]. Fast-scan cyclic voltammetry...”
- [Fink2024] “The methodological revolution in neurotransmitter sensing deserves particular emphasis as a Tier 1 achievement because it addresses a foundational measurement problem. Classical microdialysis provided neurochemical measurements with temporal resolution on the order of minutes — far too slow to capture the sub-second dynamics relevant to neural computation [NchouwatNdumgouo2025, Li2026c]. Fast-scan cyclic voltammetry...”
- [Moncrieff2023] “Serotonergic modulation of impulse control and behavioral patience has been demonstrated in multiple paradigms, but primarily from a limited number of laboratories. The serotonin hypothesis of depression — arguably the most clinically consequential claim in the field — has been increasingly challenged. [Moncrieff2023] found that the main areas of serotonin research "provide no consistent evidence of" an association...”
- [Otte2016] “Serotonergic modulation of impulse control and behavioral patience has been demonstrated in multiple paradigms, but primarily from a limited number of laboratories. The serotonin hypothesis of depression — arguably the most clinically consequential claim in the field — has been increasingly challenged. [Moncrieff2023] found that the main areas of serotonin research "provide no consistent evidence of" an association...”
- [TodorovicVukotic2026] “Serotonergic modulation of impulse control and behavioral patience has been demonstrated in multiple paradigms, but primarily from a limited number of laboratories. The serotonin hypothesis of depression — arguably the most clinically consequential claim in the field — has been increasingly challenged. [Moncrieff2023] found that the main areas of serotonin research "provide no consistent evidence of" an association...”
- [DEsposito2015] “The dopamine inverted-U model for prefrontal cortical function — the idea that both too little and too much dopamine impair working memory — has clinical relevance for understanding cognitive dysfunction across psychiatric conditions [DEsposito2015]. Yet the primary experimental demonstrations of this relationship are limited to a small number of studies, and the precise shape of the dose-response curve varies acros...”
- [Shaw2025] “The dopamine inverted-U model for prefrontal cortical function — the idea that both too little and too much dopamine impair working memory — has clinical relevance for understanding cognitive dysfunction across psychiatric conditions [DEsposito2015]. Yet the primary experimental demonstrations of this relationship are limited to a small number of studies, and the precise shape of the dose-response curve varies acros...”
- [Kim2025b] “The norepinephrine system illustrates how competing models can persist when the experimental evidence is insufficient to distinguish them. [Nieuwenhuis2005] reviewed evidence that the P3 event-related potential reflects phasic LC-NE activity, linking noradrenergic function to attentional orienting and decision-making. This framework has been influential, but it competes with models emphasizing continuous gain modula...”
- [Li2025d] “Cross-system interactions represent an emerging area where evidence is particularly thin relative to theoretical importance. The claim that neuromodulatory systems interact — that dopamine release modulates serotonin signaling, or that acetylcholine gates noradrenergic effects — is widely assumed but rarely tested directly. [Li2025d] established calcium-dependent vesicular exocytosis as a mechanism for co-transmissi...”
- [Madia2025] “Cross-system interactions represent an emerging area where evidence is particularly thin relative to theoretical importance. The claim that neuromodulatory systems interact — that dopamine release modulates serotonin signaling, or that acetylcholine gates noradrenergic effects — is widely assumed but rarely tested directly. [Li2025d] established calcium-dependent vesicular exocytosis as a mechanism for co-transmissi...”
- [Berdichevskiy2026] “Cross-system interactions represent an emerging area where evidence is particularly thin relative to theoretical importance. The claim that neuromodulatory systems interact — that dopamine release modulates serotonin signaling, or that acetylcholine gates noradrenergic effects — is widely assumed but rarely tested directly. [Li2025d] established calcium-dependent vesicular exocytosis as a mechanism for co-transmissi...”
- [Cryan2019] “Cross-system interactions represent an emerging area where evidence is particularly thin relative to theoretical importance. The claim that neuromodulatory systems interact — that dopamine release modulates serotonin signaling, or that acetylcholine gates noradrenergic effects — is widely assumed but rarely tested directly. [Li2025d] established calcium-dependent vesicular exocytosis as a mechanism for co-transmissi...”
- [Jin2026] “Cross-system interactions represent an emerging area where evidence is particularly thin relative to theoretical importance. The claim that neuromodulatory systems interact — that dopamine release modulates serotonin signaling, or that acetylcholine gates noradrenergic effects — is widely assumed but rarely tested directly. [Li2025d] established calcium-dependent vesicular exocytosis as a mechanism for co-transmissi...”
- [BorregoRuiz2025] “Cross-system interactions represent an emerging area where evidence is particularly thin relative to theoretical importance. The claim that neuromodulatory systems interact — that dopamine release modulates serotonin signaling, or that acetylcholine gates noradrenergic effects — is widely assumed but rarely tested directly. [Li2025d] established calcium-dependent vesicular exocytosis as a mechanism for co-transmissi...”
- [Stojanov2020] “Cross-system interactions represent an emerging area where evidence is particularly thin relative to theoretical importance. The claim that neuromodulatory systems interact — that dopamine release modulates serotonin signaling, or that acetylcholine gates noradrenergic effects — is widely assumed but rarely tested directly. [Li2025d] established calcium-dependent vesicular exocytosis as a mechanism for co-transmissi...”
- [Hampel2021] “The cholinergic encoding/retrieval switching hypothesis — the claim that acetylcholine levels in hippocampus switch the network between encoding and retrieval modes — is commonly cited as a fundamental principle of memory systems neuroscience. Yet when we trace this claim through the citation chain, the primary experimental evidence is surprisingly thin, resting on a small number of studies from limited experimental...”
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