Plain language summary
The exact causes of Alzheimer's disease (AD) are unknown, but there is evidence that AD is related to chronic inflammation, and it is thought that the gut bacteria (microbiome) and their metabolites can directly or indirectly affect brain functions. Diet can affect both the gut microbiome and brain health, and a ketogenic diet has been proposed to modulate processes associated with AD and is also known to affect gut microbial balance. The aim of this randomized, double-blind, crossover, pilot trial was to evaluate whether and how a modified Mediterranean-ketogenic diet (MMKD) alters the gut microbiome composition and whether this is associated with biomarkers for AD. 17 participants completed the study, 11 with mild cognitive impairment (MCI, an early stage of AD), and 6 counterparts with normal cognitive function (CN). Participants were randomly assigned to either a MMKD or an American Heart Association Diet (AHAD) for 6-weeks, followed by a 6-week washout, and then a 6-week intervention with the other diet. At baseline, participants with MCI had a microbiome composition different to that of the CN controls, with that of the MCI participants being considered less beneficial and potentially more pro-inflammatory. This difference was associated with biomarkers of AD. There was no difference in levels of microbial metabolites at baseline. Several types of bacteria were affected by the MMKD and AHAD, as were levels of faecal bacterial metabolites (short chain fatty acids). In particular, on the MMKD there was an increase in the metabolite butyrate which possesses neuroprotective actions and improves brain health. The authors conclude that the MMKD has a beneficial effect on the gut microbiome and associated AD biomarkers.
Abstract
BACKGROUND Alzheimer's disease (AD) prevalence is increasing, but its etiology remains elusive. Gut microbes can contribute to AD pathology and may help identifying novel markers and therapies against AD. Herein, we examine how the gut microbiome differs in older adults with mild cognitive impairment compared to cognitively normal counterparts, and whether and how a modified Mediterranean-ketogenic diet (MMKD) alters the gut microbiome signature in association with cerebrospinal fluid (CSF) AD biomarkers. METHODS A randomized, double-blind, cross-over, single-center pilot study of MMKD versus American Heart Association Diet (AHAD) intervention is performed on 17 subjects (age: 64.6 ± 6.4 yr), of which 11 have mild cognitive impairment, while 6 are cognitively normal. Subjects undergo MMKD and AHAD intervention for 6-weeks separated by 6-weeks washout periods. Gut microbiome, fecal short-chain fatty acids (SCFAs), and markers of AD in CSF including amyloid β (Aβ)-40 and Aß-42, total tau, and phosphorylated tau-181 (tau-p181) are measured at before and after diet interventions. FINDINGS At baseline, subjects with normal vs. impaired cognition show no notable difference in microbiome diversity but several unique microbial signatures are detected in subjects with mild cognitive impairment. Proteobacteria correlate positively with Aβ-42: Aβ-40 while fecal propionate and butyrate correlates negatively with Aβ-42 in subjects with mild cognitive impairment. Several bacteria are differently affected by the two diets with distinct patterns between cognitively normal and impaired subjects. Notably, the abundance of Enterobacteriaceae, Akkermansia, Slackia, Christensenellaceae and Erysipelotriaceae increases while that of Bifidobacterium and Lachnobacterium reduces on MMKD, while AHAD increases Mollicutes. MMKD slightly reduces fecal lactate and acetate while increasing propionate and butyrate. Conversely, AHAD increases acetate and propionate while reducing butyrate. INTERPRETATION The data suggest that specific gut microbial signatures may depict the mild cognitive impairment and that the MMKD can modulate the gut microbiome and metabolites in association with improved AD biomarkers in CSF.
Methodological quality
Jadad score
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4
Allocation concealment
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Not applicable
