Abstract
ObjectiveTo estimate effects of vitamin D levels on incident delirium hospital admissions using inherited genetic variants in mendelian randomization models, which minimize confounding and exclude reverse causation.MethodsLongitudinal analysis using the UK Biobank, community-based, volunteer cohort (2006–2010) with incident hospital-diagnosed delirium (ICD-10 F05) ascertained during ≤9.9 years of follow-up of hospitalization records (to early 2016). We included volunteers of European descent aged 60-plus years by end of follow-up. We used single-nucleotide polymorphisms previously shown to increase circulating vitamin D levels, and APOE variants. Cox competing models accounting for mortality were used.ResultsOf 313,121 participants included, 544 were hospitalized with delirium during follow-up. Vitamin D variants were protective for incident delirium: hazard ratio = 0.74 per 10 nmol/L (95% confidence interval 0.62–0.87, p = 0.0004) increase in genetically instrumented vitamin D, with no evidence for pleiotropy (mendelian randomization–Egger p > 0.05). Participants with ≥1 APOE ε4 allele were more likely to develop delirium (e.g., ε4ε4 hazard ratio = 3.73, 95% confidence interval 2.68–5.21, p = 8.0 × 10−15 compared to ε3ε3), but there was no interaction with vitamin D variants.Conclusions and relevanceIn a large community-based cohort, there is genetic evidence supporting a causal role for vitamin D levels in incident delirium. Trials of correction of low vitamin D levels in the prevention of delirium are needed.
Highlights
Vitamin D variants were protective for incident delirium: hazard ratio = 0.74 per 10 nmol/L (95% confidence interval 0.62–0.87, p = 0.0004) increase in genetically instrumented vitamin D, with no evidence for pleiotropy
Participants with ≥1 APOE e4 allele were more likely to develop delirium (e.g., e4e4 hazard ratio = 3.73, 95% confidence interval 2.68–5.21, p = 8.0 × 10−15 compared to e3e3), but there was no interaction with vitamin D variants
In a large community-based cohort, there is genetic evidence supporting a causal role for vitamin D levels in incident delirium
Summary
Longitudinal analysis using the UK Biobank, community-based, volunteer cohort (2006–2010) with incident hospital-diagnosed delirium (ICD-10 F05) ascertained during ≤9.9 years of follow-up of hospitalization records (to early 2016). We included volunteers of European descent aged 60-plus years by end of follow-up. Between 2006 and 2010, UK Biobank recruited 503,325 community-based volunteers (aged 40–70 years) from across the United Kingdom.[10] Genetic data were available on 488,377 UK Biobank participants, of whom 451,427 participants were identified as of European ancestry using selfreport and genetics data.[11] Given that 7.5% of the participants were from non-European ancestries and from diverse lineages, we focused on participants from European ancestry. Ethical approval for the UK Biobank study was obtained from the North West Multi-Centre Research Ethics. The current analysis was part of UK Biobank– approved project 14631 on aging well
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