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High folate status is positively associated with cognitive function, irrespective of B12 status. Findings from The Irish Longitudinal Study on Ageing (TILDA)

Published online by Cambridge University Press:  06 September 2018

Deirdre O'Connor
Affiliation:
The Irish Longitudinal Study on Ageing (TILDA), Trinity College Dublin, Dublin 2, Ireland
Eamon Laird
Affiliation:
The Irish Longitudinal Study on Ageing (TILDA), Trinity College Dublin, Dublin 2, Ireland
Daniel Carey
Affiliation:
The Irish Longitudinal Study on Ageing (TILDA), Trinity College Dublin, Dublin 2, Ireland
Aisling O'Halloran
Affiliation:
The Irish Longitudinal Study on Ageing (TILDA), Trinity College Dublin, Dublin 2, Ireland
Rose Anne Kenny
Affiliation:
The Irish Longitudinal Study on Ageing (TILDA), Trinity College Dublin, Dublin 2, Ireland
Anne M. Molloy
Affiliation:
School of Medicine, Trinity College Dublin, Dublin 2, Ireland.
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Abstract

Type
Abstract
Copyright
Copyright © The Authors 2018 

Recent data suggest that an imbalance of low vitamin B12 (cobalamin) and high folate status may be associated with negative health outcomes in older adults and children(Reference Paul and Selhub1). Moreover, it has been previously shown that high folate status or the use of folic acid supplements may have a negative effect on cognitive function in older people with diminished B12 status(Reference Moore, Ames and Mander2). However, to date, other than the Mini-Mental State Examination (MMSE), few studies have examined the interaction of low B12 and high folate status and individual cognitive domains.

The aim of this study was to establish the prevalence of four B12 and folate profiles in the older adult population in Ireland and to examine the relationship with different measures of cognitive function using data from Wave 1 (2009–2011) of TILDA, a nationally representative cohort of community-dwelling adults aged 50 and over (n = 8,175)(Reference Cronin, O'Regan and Finucane3Reference Savva, Donoghue and Horgan5).

Blood samples were analysed for concentrations of plasma B12 and folate (n = 5,035). In this study, the four profiles were defined as: Group 1 ‘normal B12/normal folate’ (total cobalamin >258 pmol/L, folate ≤45·3 nmol/L), Group 2 ‘normal B12/high folate’ (total cobalamin >258 pmol/L, folate >45·3 nmol/L), Group 3 ‘low B12/high folate’ (total cobalamin < = 258 pmol/L, folate >45·3 nmol/L), and Group 4 ‘low B12/normal folate’ (total cobalamin ≤258 pmol/L, folate ≤45·3 nmol/L). The cognitive battery included tests of global cognition ((MMSE) and the Montreal Cognitive Assessment (MoCA)), executive function (Verbal Fluency, Visual Reasoning and Colour Trails Test 2 (CTT2)), memory (Picture Recognition and Recall, and a 10-word Immediate and Delayed Recall test), attention (Colour Trails Test 1 (CTT1) and the Sustained Attention to Response Task (SART)) and speed of processing (Choice Reaction Time (CRT)). Multiple regression analyses were used to examine relationships of each B12 and folate profile with these measures of cognitive function, controlling for known covariates.

The mean (SD) age of the population was 63·2 years (9·8), 51·1% were female. The prevalence of Group 1 was 61·2% [60·0 to 62·8] ([95% CI]), Group 2 was 8·0% [7·0 to 9·0]; Group 3 was 1·7% [1·3 to 2·2] and Group 4 was 29·1% [27·7 to 31·0]. Relative to Group 1, Group 2 was associated with an increase in MMSE scores (0·83 [0·72 to 0·95]) (IRR [95% CI]; P = 0·007), whilst for the MoCA, Group 2 (0·91 [0·84–0·97]) (IRR [95% CI]; P = 0·007) and Group 3 (0·88 [0·79 to 0·97]) (IRR [95% CI]; P = 0·009) were associated with increased scores. Group 3 (−0·08 [−0·14 to −0·01]) (coefficient; [95% CI]; P = 0·02) and Group 4 (−0·03 [−0·05 to −0·1]; P = 0·01) were associated with better CTT2 scores and Group 3 was also positively associated with Picture Recognition (1·04 [1·01 to 1·07]) (IRR [95% CI]; P = 0·003). Group 3 and Group 4 were positively associated with Delayed Recall (0·84 [0·23 to 1·40]) (coefficient; [95% CI]; P = 0·003 and 0·20 [0·05 to 0·34] (coefficient; [95% CI]; P = 0·008, respectively). The SART was positively associated with Group 2 (0·85 [0·75 to 0·96]) (IRR [95% CI]; P = 0·01).

Previous evidence has suggested that low B12 status, coupled with high folate status may be associated with a decline in cognitive function. Our data do not support this hypothesis. Contrarily, our data suggest that in several domains of cognitive function, including global cognition, shigh folate status is associated with improved scores, irrespective of B12 status, and thus potentially has a protective effect. These findings may have significant implications for future policy recommendations in Ireland, where a voluntary folic acid fortification programme is currently in place.

References

1.Paul, L & Selhub, J (2017) Mol Aspects Med 53, 43–7.Google Scholar
2.Moore, EM, Ames, D, Mander, AG et al. (2014) J Alzheimers Dis 39, 661–8.Google Scholar
3.Cronin, H, O'Regan, C, Finucane, C et al. (2013) J Am Geriatr Soc 61, (s2).Google Scholar
4.Whelan, BJ & Savva, GM (2013) J Am Geriatr Soc 2 61, (s2).Google Scholar
5.Savva, GM, Donoghue, OA, Horgan, F et al. (2013) J Gerontol A Biol Sci Med Sci 68, 441–6.Google Scholar