Entorhinal thickness: A marker of DHA supplementation efficacy?

Background: The entorhinal cortex (ERC) area in the brain is affected early in AD, particularly among APOE4 carriers. We previously reported a positive association between plasma phospholipid docosahexaenoic acid (DHA) levels and the ERC thickness in the Aging Brain Program. We hypothesize that increases in plasma DHA after high‐dose DHA supplementation protects against thinning of the ERC when started before cognitive impairment including in APOE4 carriers, and that ERC thickness can be a useful marker for DHA supplementation efficacy. Method: We examined the effect of DHA treatment and association of plasma DHA species on the changes in the ERC area in the DHA Brain Delivery Pilot Trial (NCT02541929). T1‐weighted MRI scans were collected at 3T and FreeSurfer software was used to segment the ERC thickness. Total DHA, DHA in phosphatidylcholine (PC), lysophosphatidylcholine (LPC), and phosphatidylethanolamine (PE) were measured in plasma together with Red blood cell (RBC) DHA levels before and after randomization to 2 grams of triglyceride DHA per day vs placebo over 6 months (n=28). Participants were all cognitively normal, consumed less than 200 mg of DHA per day, and were stratified by APOE4 genotype before randomization. Result: DHA treatment, adjusted for APOE4, was associated with a significant increase in ERC area thickness compared with placebo (mean group difference in ERC change (95% CI) 0.161 (0.003, 0.319), p=0.046). Among DHA subspecies measured, greater increase in plasma PC DHA levels after supplementation was significantly correlated with greater ERC area (mean ERC change per SD of PC DHA=0.103, p=0.011). The association persisted after adjusting for APOE4 status (mean ERC change per SD of PC DHA=0.109, p=0.007), indicating that the effect was independent of APOE4 status. Conclusion: These preliminary findings support a protective effect of high dose DHA in preserving the ERC thickness, including among APOE4 carriers. This finding supports early intervention, before the onset of cognitive impairment, with high dose DHA supplementation in individuals at risk of cognitive decline. PREVENTE4 trial (NCT03613844) is ongoing to help understand whether high dose DHA can prevent cognitive decline in individuals at increased risk of AD. HNY is supported by AA NIRG‐15‐361854, R01AG054434, R21AG056518, ADDF GC‐201711‐2014197. [ABSTRACT FROM AUTHOR]