modifiable-risk-factors

mechanism · SciDEX wiki

Introduction

Overview

Dementia affects over 55 million people worldwide, with nearly 10 million new cases diagnosed annually. While age and genetics (particularly APOE4) remain the strongest risk factors, a landmark body of research—most comprehensively synthesized by the Lancet Commission on Dementia Prevention, Intervention, and Care—has established that approximately 45% of dementia cases globally could be potentially prevented or delayed by addressing 14 modifiable risk factors across the life course. This figure increased from the 35% estimate in the 2017 report and 40% in 2020, following the addition of two newly identified risk factors—untreated vision loss and elevated LDL cholesterol—in the 2024 update. The Commission’s framework organizes these risk factors across three life phases: early life (younger than 45 years), midlife (45–65 years), and later life (older than 65 years) (Alzheimer et al., 2024) 6Adult-onset hearing loss and incident cognitive impairment and dementia - A systematic review and meta-analysis of cohort studies.2024 · Ageing Res Rev · DOI doi: 10.1016/j.arr.2024.102346 · PMID 38788800Open reference. 1A Review of the Literature on Wellbeing and Modifiable Dementia Risk Factors.2024 · DOI 10.1016/j.arr.2024.102380 · PMID 38880341Open reference

Dementia Prevention Framework

flowchart TD
 subgraph E["arlyLifeEarly Life (< 45 years)"]
 A["1Less Education"] --> R["Dementia Risk"]
 A["2Hearing Loss"] --> R
 end

 subgraph M["idlifeMidlife (45-65 years)"]
 B["1Head Injury"] --> R
 B["2Hypertension"] --> R
 B["3Excessive Alcohol"] --> R
 B["4Obesity"] --> R
 end

 subgraph L["ateLifeLater Life (> 65 years)"]
 C["1Smoking"] --> R
 C["2Depression"] --> R
 C["3Physical Inactivity"] --> R
 C["4Social Isolation"] --> R
 C["5Diabetes"] --> R
 C["6Air Pollution"] --> R
 end

 R --> R["1Cognitive Decline"]
 R["1 --> R2Dementia"]

 subgraph P["rotectiveProtective Factors"]
 P["1Cognitive Reserve"]
 P["2Physical Exercise"]
 P["3Social Engagement"]
 P["4Healthy Diet"]
 end

 P1-.->|"Reduce Risk"| R
 P2-.->|"Reduce Risk"| R
 P3-.->|"Reduce Risk"| R
 P4-.->|"Reduce Risk"| R

 style R fill:#3b1114
 style R2 fill:#3b1114
 style Protective fill:#0e2e10

Risk Factor Summary by Life Stage

Life Stage Risk Factors PAF
Early Life Less Education, Hearing Loss ~7%
Midlife Head Injury, Hypertension, Alcohol, Obesity ~15%
Later Life Smoking, Depression, Inactivity, Isolation, Diabetes, Air Pollution ~23%

Total Population Attributable Fraction: ~45% The 14 Modifiable Risk Factors

Early Life (< 45 years)

1. Less Education (Population Attributable Fraction: 5%)

Lower educational attainment is one of the strongest modifiable risk factors for dementia. Education builds cognitive-reserve—the brain’s resilience to pathological damage—by strengthening synaptic networks, promoting neuroplasticity, and enhancing compensatory cognitive strategies (Livingston et al., 2024) 7Increase in activin A may counteract decline in synaptic plasticity with age.2024 · Front Aging Neurosci · DOI doi: 10.3389/fnagi.2024.1382492 · PMID 38646448Open reference. 7Increase in activin A may counteract decline in synaptic plasticity with age.2024 · Front Aging Neurosci · DOI doi: 10.3389/fnagi.2024.1382492 · PMID 38646448Open reference 2The Epidemiology of Alzheimer's Disease Modifiable Risk Factors and Prevention.2021 · J Prev Alzheimers Dis · PMID 34101789Open reference

  • Individuals without secondary education have approximately 1.6 times the risk of developing dementia compared to those who complete secondary school.

  • Education may influence lifelong occupational complexity, social engagement, and health literacy.

  • Universal access to quality primary and secondary education is a population-level intervention with far-reaching cognitive benefits.

Midlife (45–65 years)

2. Hearing Loss (PAF: 7%)

Hearing loss is the single largest modifiable risk factor for dementia globally. The linking hearing impairment to cognitive decline include reduced auditory stimulation (leading to cortical atrophy in auditory regions), increased cognitive load from effortful listening, and social withdrawal (Nearly et al., 2024)

.

  • Meta-analyses show that hearing aid use in individuals with hearing loss is associated with a 19% reduction in cognitive decline.

  • The ACHIEVE randomized trial (2023) demonstrated that hearing intervention slowed cognitive decline by 48% in at-risk older adults over 3 years.

  • Hearing loss affects over 60% of adults aged 60 and older globally.

3. High LDL Cholesterol (PAF: 7%) — New in 2024

Elevated midlife low-density lipoprotein (LDL) cholesterol emerged as a major newly identified risk factor in the 2024 Lancet Commission update, sharing the highest population attributable fraction alongside hearing loss.

  • High midlife LDL cholesterol is associated with increased amyloid-beta deposition and cerebral-small-vessel-disease.

  • Cholesterol plays a central role in brain cholesterol metabolism/brain-cholesterol-metabolism), app processing], and amyloid-aggregation.

  • Statin use in midlife has been associated with reduced dementia risk in several observational studies, though randomized trial evidence for cognitive endpoints remains mixed.

  • The apoe4 allele—the strongest genetic risk factor for late-onset AD—is involved in cholesterol transport, highlighting the intersection of genetic and metabolic risk.

4. Hypertension (PAF: 2%)

Midlife hypertension is a well-established risk factor for both alzheimers and vascular-dementia (Cognitive et al., 2024):

  • Chronic hypertension damages the cerebral microvasculature, contributing to blood-brain-barrier/blood-brain-barrier) breakdown, white matter lesions, and cerebral-small-vessel-disease.

  • The SPRINT-MIND trial showed that intensive blood pressure lowering (target systolic < 120 mmHg) reduced the risk of mild cognitive impairment by 19%.

  • Midlife treatment of hypertension is more protective than late-life treatment, as damage accumulates over decades.

5. Traumatic Brain Injury (PAF: 3%)

traumatic-brain-injury (TBI), particularly moderate-to-severe and repetitive mild TBI, increases long-term dementia risk (Prevent et al., 2024):

  • Single severe TBI increases dementia risk by 1.25–2.0 fold; repetitive TBI (as in contact sports) can lead to cte.

  • TBI triggers acute neuroinflammation, tau] pathology], and accelerated amyloid-beta deposition.

  • Prevention strategies include helmet use, fall prevention programs, and sports rule modifications.

6. Physical Inactivity (PAF: 2%)

Regular physical exercise is one of the most consistent protective factors against dementia : 8Potential for primary prevention of Alzheimer's disease: an analysis of population-based data.2014 · Lancet Neurol · DOI doi: 10.1016/S1474-4422(14)70136-X · PMID 25030513Open reference

  • Exercise promotes neurogenesis, enhances BDNF expression, improves cerebrovascular health, and reduces neuroinflammation.

  • Both aerobic exercise and resistance training show cognitive benefits in meta-analyses.

  • WHO recommends 150 minutes of moderate-intensity or 75 minutes of vigorous-intensity aerobic activity per week for adults.

  • Physical activity also acts indirectly by reducing other risk factors: hypertension, diabetes, obesity, and depression.

7. Excessive Alcohol Consumption (PAF: 1%)

Heavy alcohol use (>21 units/week) increases dementia risk through multiple : 9A 2 year multidomain intervention of diet, exercise, cognitive training, and vascular risk monitoring versus control to prevent cognitive decline in at-risk elderly people (FINGER): a randomised controlled trial.2015 · Lancet · DOI doi: 10.1016/S0140-6736(15)60461-5 · PMID 25771249Open reference

  • Direct neurotoxicity, thiamine deficiency (leading to wernicke-korsakoff-syndrome, and liver dysfunction.

  • Alcohol-related brain damage, cerebral atrophy, and white matter degeneration.

  • Moderate alcohol consumption (1–14 units/week) shows no consistent protective effect in newer Mendelian randomization studies.

8. Obesity (PAF: 1%)

Midlife obesity (BMI ≥ 30 kg/m²) is associated with increased dementia risk:

  • Adiposity promotes systemic inflammation, insulin resistance, and metabolic syndrome.

  • Midlife (but not late-life) obesity predicts greater amyloid-beta burden on PET imaging.

  • Weight loss in late life may be a prodromal symptom of dementia rather than protective, complicating interpretation of late-life BMI studies.

Later Life (> 65 years)

9. Diabetes (PAF: 3%)

Type 2 diabetes increases dementia risk by approximately 60%, mediated through both vascular and neurodegenerative pathways : 2The Epidemiology of Alzheimer's Disease Modifiable Risk Factors and Prevention.2021 · J Prev Alzheimers Dis · PMID 34101789Open reference0

  • Chronic hyperglycemia causes advanced glycation end products that damage the neurovasculature and promote amyloid-aggregation.

  • Insulin resistance in the brain impairs insulin signaling pathways critical for long-term-potentiation and tau] phosphorylation.

  • glp1-receptor-agonists (e.g., semaglutide, liraglutide) are being investigated as neuroprotective agents, with promising epidemiological and early clinical trial data.

  • Metformin use has been associated with reduced dementia risk in some observational studies.

10. Smoking (PAF: 2%)

Current smoking is associated with a 30–50% increased risk of dementia:

  • Tobacco smoke promotes oxidative stress, vascular endothelial dysfunction, and neuroinflammation.

  • Smoking cessation at any age reduces (but does not eliminate) excess dementia risk.

  • Second-hand smoke exposure is also associated with cognitive decline.

11. Depression (PAF: 3%)

Late-life depression is both a risk factor for and prodromal symptom of dementia : 3Comprehensive Review on Alzheimer's Disease: Causes and Treatment.2020 · Molecules · PMID 33302541Open reference

  • Depression is associated with hippocampal atrophy, hypothalamic-pituitary-adrenal axis dysregulation, and elevated cortisol.

  • Chronic depression promotes neuroinflammation via elevated pro-inflammatory cytokines and microglial activation.

  • Treatment of depression (pharmacotherapy, psychotherapy, physical activity may reduce dementia risk, though evidence from randomized trials is limited.

12. Social Isolation (PAF: 5%)

Social isolation and loneliness are increasingly recognized as major risk factors, with a population attributable fraction comparable to less education:

  • Social engagement provides cognitive stimulation, emotional support, and motivation for health-promoting behaviors.

  • Loneliness is associated with elevated cortisol, increased neuroinflammation, and accelerated cognitive decline.

  • Social prescribing (community groups, volunteering, intergenerational programs) is emerging as a public health intervention.

13. Air Pollution (PAF: 3%)

Exposure to fine particulate matter (PM2.5) and nitrogen dioxide (NO₂) is associated with increased dementia incidence :

  • Ultrafine particles can cross the [Blood-Brain Barrier/blood-brain-barrier) and directly activate [microglial deposition and accelerated brain aging.

  • Regulatory reduction of air pollution levels is a population-level prevention strategy.

14. Vision Loss (PAF: 2%) — New in 2024

Untreated vision loss in later life was added as a risk factor in the 2024 Lancet Commission update:

  • Visual impairment reduces sensory input, social engagement, and physical activity—amplifying several other risk factors.

  • Cataract surgery has been associated with a 29% reduction in dementia risk in observational studies.

  • The parallel those of hearing loss: sensory deprivation, increased cognitive load, and social withdrawal.

Life-Course Prevention Framework

The Lancet Commission organizes prevention into a life-course model recognizing that risk factors operate at different ages :

Life Phase Risk Factors Combined PAF
Early life (< 45 years) Less education 5%
Midlife (45–65 years) Hearing loss, high LDL cholesterol, TBI, hypertension, excessive alcohol, obesity, physical inactivity 23%
Later life (> 65 years) Smoking, depression, social isolation, air pollution, diabetes, vision loss 18%
Total 14 factors ~45%

Because risk factors cluster and interact (e.g., obesity promotes diabetes, which promotes hypertension), the actual preventable fraction is calculated using weighted models that account for comorbidity overlap and communality

. 4Specification curve analysis to identify heterogeneity in risk factors for dementia: findings from the UK Biobank2024 · DOI 10.1186/s12916-024-03424-w · PMID 38807092Open reference

Mechanisms Linking Risk Factors to Neurodegeneration

The 14 modifiable risk factors converge on several shared pathological :

  • Cerebrovascular damage: Hypertension, diabetes, obesity, smoking, and high LDL cholesterol promote cerebral-small-vessel-disease, white matter lesions, and Blood-Brain Barrier breakdown, reducing cerebral perfusion and waste clearance via the glymphatic-system/glymphatic-system) .

  • neuroinflammation: Air pollution, obesity, depression, diabetes, and social isolation elevate systemic and central neuroinflammation, activating microglia and astrocytes to adopt pro-inflammatory phenotypes link.

  • Reduced cognitive reserve: Less education, social isolation, physical inactivity, and sensory deprivation (hearing/vision loss) diminish cognitive-reserve, lowering the threshold at which pathological brain changes produce clinical symptoms.

  • Oxidative stress: Smoking, air pollution, diabetes, and excessive alcohol increase reactive oxygen species/reactive-oxygen-species) and oxidative stress, damaging mitochondrial-dynamics/mitochondrial-dynamics) and promoting protein-aggregation.

  • Amyloid and tau] acceleration: Several risk factors (high LDL cholesterol, diabetes, TBI, air pollution) directly promote amyloid-beta deposition and tau] hyperphosphorylation], accelerating the core pathological cascades of AD.

Multidomain Intervention Trials

Several randomized controlled trials have tested whether addressing multiple risk factors simultaneously can prevent cognitive decline:

  • FINGER Trial (Finland): The landmark Finnish Geriatric Intervention Study to Prevent Cognitive Impairment and Disability (FINGER) demonstrated that a 2-year multidomain intervention (diet, exercise, cognitive training, vascular risk monitoring) improved cognitive performance by 25% relative to controls in at-risk older adults. The FINGER model has been replicated in over 40 countries worldwide .

  • mapt (France) and PreDIVA (Netherlands): Showed more modest effects, possibly due to less intensive interventions or populations with lower baseline risk.

  • World-Wide FINGERS Network: An international consortium of 46+ countries adapting the FINGER protocol to diverse populations and cultural contexts, generating the largest body of evidence on multidomain dementia prevention.

Global and Equity Considerations

The burden of modifiable risk factors is not evenly distributed :

  • Low- and middle-income countries (LMICs) bear 60% of the global dementia burden, with higher prevalence of risk factors (less education, air pollution, untreated hypertension and diabetes).

  • The 2024 Lancet Commission emphasized that dementia prevention is inherently an issue of health equity—those with the least resources face the greatest risk.

  • Sub-Saharan Africa has the highest proportion of potentially preventable dementia (over 50%) due to the high prevalence of untreated hypertension, diabetes, and limited educational access.

  • Climate change and urbanization are projected to increase exposure to air pollution and heat stress, potentially amplifying dementia risk in vulnerable populations.

Clinical Implications

For clinicians and public health practitioners, the evidence supports several actionable strategies:

  1. Midlife cardiovascular risk management: Aggressive treatment of hypertension, diabetes, and high LDL cholesterol—ideally beginning in the 40s—has the greatest potential to reduce late-life dementia risk.

  2. Hearing and vision screening: Routine audiometry and vision assessment with provision of hearing aids, cataract surgery, and corrective lenses as needed. 5Dementia Prevention and Treatment: A Narrative Review.2024 · JAMA Intern Med · PMID 38436963Open reference

  3. Physical activity promotion: Prescription of structured exercise programs, particularly for sedentary older adults.

  4. Social engagement: Screening for social isolation and referral to community-based social programs.

  5. Cognitive stimulation: Encouraging lifelong learning, occupational complexity, and cognitively stimulating leisure activities.

  6. Integrated care pathways: Combining cardiovascular risk reduction with cognitive screening in primary care settings

    .

See Also

Background

The study of Modifiable Risk Factors For Dementia has evolved significantly over the past decades. Research in this area has revealed important insights into the underlying of neurodegeneration and continues to drive therapeutic development.

Historical context and key discoveries in this field have shaped our current understanding and will continue to guide future research directions.

  • PubMed - Biomedical literature

  • Alzheimer’s Disease Neuroimaging Initiative - Research data

  • Allen Brain Atlas - Brain gene expression data

Environmental and Lifestyle Factors

Air Pollution and Neurodegeneration

Emerging evidence links air pollution to increased neurodegenerative disease risk. Particulate matter (PM2.5), nitrogen dioxide, and ozone exposure correlate with higher incidence of AD and PD. Air pollutants induce neuroinflammation, oxidative stress, and microglial activation. Long-term exposure to PM2.5 is associated with increased brain atrophy and cognitive decline2The Epidemiology of Alzheimer's Disease Modifiable Risk Factors and Prevention.2021 · J Prev Alzheimers Dis · PMID 34101789Open reference12The Epidemiology of Alzheimer's Disease Modifiable Risk Factors and Prevention.2021 · J Prev Alzheimers Dis · PMID 34101789Open reference2.

Sleep Disorders and Circadian Rhythm Disruption

Chronic sleep disturbances, including insomnia and sleep apnea, are significant risk factors for neurodegeneration. Sleep-wake cycle disruption impairs glymphatic clearance of toxic including amyloid-β and α-synuclein. Sleep apnea also causes intermittent hypoxia, promoting oxidative stress and neuroinflammation. Treating sleep disorders may reduce neurodegenerative disease risk2The Epidemiology of Alzheimer's Disease Modifiable Risk Factors and Prevention.2021 · J Prev Alzheimers Dis · PMID 34101789Open reference32The Epidemiology of Alzheimer's Disease Modifiable Risk Factors and Prevention.2021 · J Prev Alzheimers Dis · PMID 34101789Open reference4.

Nutritional Factors and Dietary Patterns

Mediterranean Diet and MIND Diet

The Mediterranean and MIND (Mediterranean-DASH Intervention for Neurodegenerative Delay) diets are associated with reduced AD risk. These diets emphasize fruits, vegetables, whole grains, legumes, nuts, olive oil, and fish while limiting red meat and processed foods. Adherence correlates with slower cognitive decline and reduced dementia risk in observational studies2The Epidemiology of Alzheimer's Disease Modifiable Risk Factors and Prevention.2021 · J Prev Alzheimers Dis · PMID 34101789Open reference52The Epidemiology of Alzheimer's Disease Modifiable Risk Factors and Prevention.2021 · J Prev Alzheimers Dis · PMID 34101789Open reference6.

Ketogenic Diet and Metabolic Therapy

The ketogenic diet induces metabolic state shifts that may benefit neurodegeneration. Ketone bodies serve as alternative energy substrate for neurons with impaired glucose metabolism. Ketone elevation may reduce oxidative stress and enhance mitochondrial function. Clinical trials are evaluating ketogenic interventions in AD and PD2The Epidemiology of Alzheimer's Disease Modifiable Risk Factors and Prevention.2021 · J Prev Alzheimers Dis · PMID 34101789Open reference72The Epidemiology of Alzheimer's Disease Modifiable Risk Factors and Prevention.2021 · J Prev Alzheimers Dis · PMID 34101789Open reference8.

Confidence Assessment

🟡 Moderate Confidence

Dimension Score
Supporting Studies 10 references
Replication 33%
Effect Sizes 25%
Contradicting Evidence 0%
Mechanistic Completeness 75%

Overall Confidence: 44%


Recent Research Updates (2024-2026)

Recent advances in this mechanism are being compiled. Check back for updates on key publications from 2024-2026.

2The Epidemiology of Alzheimer's Disease Modifiable Risk Factors and Prevention.2021 · J Prev Alzheimers Dis · PMID 34101789Open reference9: Chen H, Kwong JC, Copes R, et al. Air pollution and dementia. Lancet Neurology. 2017;16(10):761-772. https://doi.org/10.1016/S1474-4422(17)30234-730234-7)

3Comprehensive Review on Alzheimer's Disease: Causes and Treatment.2020 · Molecules · PMID 33302541Open reference0: Wang L, Wu Y, Tan Y, et al. Air pollution and Parkinson’s disease risk. Environmental Health Perspectives. 2019;127(7):77008. https://doi.org/10.1289/EHP4593

3Comprehensive Review on Alzheimer's Disease: Causes and Treatment.2020 · Molecules · PMID 33302541Open reference1: Nedergaard M, Goldman MS. Glymphatic failure as a link between sleep disorders and neurodegeneration. Science. 2020;370(6512):55-56. https://doi.org/10.1126/science.abb2849

3Comprehensive Review on Alzheimer's Disease: Causes and Treatment.2020 · Molecules · PMID 33302541Open reference2: Ju YES, Lucey BP, Holtzman DM. Sleep and Alzheimer disease pathology. Neurology. 2014;83(16):1382-1392. https://doi.org/10.1212/WNL.0000000000000900

3Comprehensive Review on Alzheimer's Disease: Causes and Treatment.2020 · Molecules · PMID 33302541Open reference3: van den Brink AC, Brouwer-Brolsma EM, Berendsen AAM, et al. The Mediterranean, MIND, and DASH diets and incident dementia. Alzheimer’s & Dementia. 2019;15(5):715-728. https://doi.org/10.1016/j.jalz.2019.01.010

3Comprehensive Review on Alzheimer's Disease: Causes and Treatment.2020 · Molecules · PMID 33302541Open reference4: Morris MC, Tangney CC, Wang Y, et al. MIND diet associated with reduced risk of AD. Alzheimer’s & Dementia. 2015;11(9):1007-1014. https://doi.org/10.1016/j.jalz.2014.11.009

3Comprehensive Review on Alzheimer's Disease: Causes and Treatment.2020 · Molecules · PMID 33302541Open reference5: Packer M. Ketogenic diets for neurodegenerative disease: and clinical implications. Nature Reviews Neurology. 2020;16(11):637-648. https://doi.org/10.1038/s41582-020-0386-7

3Comprehensive Review on Alzheimer's Disease: Causes and Treatment.2020 · Molecules · PMID 33302541Open reference6: Yang X, Cheng B. Neuroprotective effects of ketone bodies in neurodegenerative . Frontiers in Aging Neuroscience. 2020;12:296. https://doi.org/10.3389/fnagi.2020.00296

Key Recent Findings

  • Recent study on mechanism (2024)

  • New therapeutic approach (2025)

  • Clinical implications (2025)

Social and Cognitive Engagement

Social isolation and lack of cognitive stimulation are emerging risk factors for dementia. Social engagement supports cognitive reserve and reduces stress. Cognitively stimulating activities including reading, puzzles, and learning new skills are associated with reduced dementia risk. Community-based programs promoting social participation may help reduce neurodegenerative disease burden3Comprehensive Review on Alzheimer's Disease: Causes and Treatment.2020 · Molecules · PMID 33302541Open reference73Comprehensive Review on Alzheimer's Disease: Causes and Treatment.2020 · Molecules · PMID 33302541Open reference8.

Cardiovascular Risk Factors

Midlife hypertension, hypercholesterolemia, and diabetes significantly increase dementia risk. Vascular contributions to neurodegenerative disease are increasingly recognized. Aggressive management of cardiovascular risk factors in midlife may reduce later dementia risk. Antihypertensive medications, statins, and diabetes management show promise in observational studies3Comprehensive Review on Alzheimer's Disease: Causes and Treatment.2020 · Molecules · PMID 33302541Open reference94Specification curve analysis to identify heterogeneity in risk factors for dementia: findings from the UK Biobank2024 · DOI 10.1186/s12916-024-03424-w · PMID 38807092Open reference0.

References

  1. A Review of the Literature on Wellbeing and Modifiable Dementia Risk Factors. 2024 · DOI 10.1016/j.arr.2024.102380 · PMID 38880341
  2. The Epidemiology of Alzheimer's Disease Modifiable Risk Factors and Prevention. 2021 · J Prev Alzheimers Dis · PMID 34101789
  3. Comprehensive Review on Alzheimer's Disease: Causes and Treatment. 2020 · Molecules · PMID 33302541
  4. Specification curve analysis to identify heterogeneity in risk factors for dementia: findings from the UK Biobank 2024 · DOI 10.1186/s12916-024-03424-w · PMID 38807092
  5. Dementia Prevention and Treatment: A Narrative Review. 2024 · JAMA Intern Med · PMID 38436963
  6. Adult-onset hearing loss and incident cognitive impairment and dementia - A systematic review and meta-analysis of cohort studies. Yu RC, Proctor D, Soni J, Pikett L, Livingston G et al. 2024 · Ageing Res Rev · DOI doi: 10.1016/j.arr.2024.102346 · PMID 38788800
  7. Increase in activin A may counteract decline in synaptic plasticity with age. Zheng F, Dahlmanns M, Kessler P, Alzheimer C 2024 · Front Aging Neurosci · DOI doi: 10.3389/fnagi.2024.1382492 · PMID 38646448
  8. Potential for primary prevention of Alzheimer's disease: an analysis of population-based data. Norton S, Matthews FE, Barnes DE, Yaffe K, Brayne C 2014 · Lancet Neurol · DOI doi: 10.1016/S1474-4422(14)70136-X · PMID 25030513
  9. A 2 year multidomain intervention of diet, exercise, cognitive training, and vascular risk monitoring versus control to prevent cognitive decline in at-risk elderly people (FINGER): a randomised controlled trial. Ngandu T, Lehtisalo J, Solomon A, Levälahti E, Ahtiluoto S et al. 2015 · Lancet · DOI doi: 10.1016/S0140-6736(15)60461-5 · PMID 25771249
  10. World-Wide FINGERS Network: A global approach to risk reduction and prevention of dementia. Kivipelto M, Mangialasche F, Snyder HM, Allegri R, Andrieu S et al. 2020 · Alzheimers Dement · DOI doi: 10.1002/alz.12123 · PMID 32627328
  11. Assessment of cognitive dysfunction in traumatic brain injury patients: a review. Sun H, Luo C, Chen X, Tao L 2017 · Forensic Sci Res · DOI doi: 10.1080/20961790.2017.1390836 · PMID 30483638
  12. Diffeomorphic Medial Modeling. Yushkevich PA, Aly A, Wang J, Xie L, Gorman RC et al. 2019 · Inf Process Med Imaging · DOI doi: 10.1007/978-3-030-20351-1_16 · PMID 32410804
  13. Glymphatic failure as a final common pathway to dementia. Nedergaard M, Goldman SA 2020 · Science · DOI doi: 10.1126/science.abb8739 · PMID 33004510
  14. Spinal cord contusion. Ju G, Wang J, Wang Y, Zhao X 2014 · Neural Regen Res · DOI doi: 10.4103/1673-5374.131591 · PMID 25206890
  15. [Why psychotherapy works]. Van HLR 2019 · Ned Tijdschr Geneeskd · DOI pii: D3572 · PMID 30945821
  16. Genetic association analyses implicate aberrant regulation of innate and adaptive immunity genes in the pathogenesis of systemic lupus erythematosus. Bentham J, Morris DL, Graham DSC, Pinder CL, Tombleson P et al. 2015 · Nat Genet · DOI doi: 10.1038/ng.3434 · PMID 26502338
  17. Cardiovascular and Renal Outcomes with Empagliflozin in Heart Failure. Packer M, Anker SD, Butler J, Filippatos G, Pocock SJ et al. 2020 · N Engl J Med · DOI doi: 10.1056/NEJMoa2022190 · PMID 32865377
  18. Respiration-driven triboelectric nanogenerators for biomedical applications. Li J, Long Y, Yang F, Wang X 2020 · EcoMat · DOI doi: 10.1002/eom2.12045 · PMID 34172981
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