This abstract was awarded the student prize for best original communication presentation
Cognitive dysfunction and dementia are important public health issues in ageing, while optimal nutrition may be important in their prevention. One-carbon metabolism and the related B-vitamins may be important for maintaining cognitive health in ageing( Reference Smith and Refsum 1 ) but few studies have investigated biomarker status of all relevant B-vitamins and furthermore studies in this area are typically observational cohort studies at one time point. The primary aim of this investigation was to examine the role of baseline status of folate and the metabolically related B-vitamins (vitamins B12, B6 and riboflavin) as predictors of subsequent cognitive decline over a five-year follow-up period in healthy older people.
From the total sample recruited to the Trinity, Ulster, Department of Agriculture (TUDA) Ageing Cohort Study (≥60 years; n 5186), as previously described( Reference McCarroll, Beirne and Casey 2 ), a sample of 2093 participants in Northern Ireland were potentially available, from which a sub-set (n 587) meeting the selection criteria (aged >67 years at baseline, MMSE score >21, no B12 injections) were recruited for reinvestigation 5 years after the initial TUDA study. The rate of cognitive decline was evaluated by re-assessment of cognition using the original battery of tests including the Repeatable Battery for the Assessment of Neuropsychological Status (RBANS), the Mini-Mental State Examination (MMSE) and the Frontal Assessment Battery (FAB). Accelerated cognitive decline was defined as the highest quartile of change in cognitive score over the 5 year follow up period; i.e. ≥7 RBANS; ≥ 2 MMSE; ≥3 FAB points. At follow up, lower vitamin B6 status (PLP below median) and lower riboflavin status (EGRac above median) at baseline were each associated with an accelerated rate of cognitive decline, as measured by RBANS (Table). A similar relationship was shown with MMSE for vitamin B6 (OR: 1·485, CI: 1·002–2·200, p 0·049), but not for any other B-vitamin, while no significant relationships were observed for any B-vitamin biomarker with cognition as assessed by FAB.
Binary logistic regression was performed with adjustment for age (years) and education (years).
Abbreviations: OR, odds ratio; CI, confidence interval; RBC, Red Blood Cell; PLP, Plasma Pyridoxal Phosphate; *EGRac, Erythrocyte Glutathione Reductase Activation Coefficient- higher EGRac ratio indicates lower riboflavin status.
1 For each biomarker, participants with lower status were identified using the median value as the cut off point.
The results indicate that vitamin B6 and the metabolically related B-vitamin riboflavin, may have important roles in helping to maintain better cognitive health in ageing. Further research including RCTs targeted at those with lower B-vitamin status are warranted to investigate the role of all relevant B-vitamins in cognitive function.