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The Impact of Nutrients on Mental Health and Well-Being: Insights From the Literature.
Muscaritoli, M
Frontiers in nutrition. 2021;8:656290
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Diet, mental health, and well-being are linked through several biological pathways. In addition to a healthy diet, nutrient supplements may be of benefit due to their ability to influence these pathways. This review aimed to outline the relationship between specific nutrients and their beneficial effect on mental health. The review outlined the various benefits of polyunsaturated fats, vitamin E, magnesium and folic acid on stress, anxiety, sleep disorders, mild cognitive impairment, depression, bipolar disorders, and obsessive-compulsive disorder. With regards to stress, it was outlined that insufficient vitamins, excessive fat and nutritional imbalance can be contributory. Human research exists to support the benefits of magnesium and polyunsaturated fat for stress and these plus vitamin E for anxiety, however it appears that evidence is lacking for vitamin E and stress and the authors did not comment on folic acid for either condition. Extensive research exists for the use of polyunsaturated fats in mild cognitive impairment, and it was stated that high doses for long periods of time may be needed to show any benefits. The use of vitamin E in cognitive impairment is controversial and more studies may be needed. The authors did not comment on magnesium or folic acid supplementation. It was concluded that an unhealthy diet and lifestyle may be associated with poor mental health and well-being and the importance of a balanced, varied diet for normal brain function. This study could be used by healthcare professionals to understand the importance of recommending a healthy diet for mental well-being in individuals who are suffering from mental health disorders.
Abstract
A good nutritional status is important for maintaining normal body function and preventing or mitigating the dysfunction induced by internal or external factors. Nutritional deficiencies often result in impaired function, and, conversely, intakes at recommended levels can resume or further enhance body functions. An increasing number of studies are revealing that diet and nutrition are critical not only for physiology and body composition, but also have significant effects on mood and mental well-being. In particular, Western dietary habits have been the object of several research studies focusing on the relationship between nutrition and mental health. This review aims to summarize the current knowledge about the relationship between the intake of specific micro- and macronutrients, including eicosapentaenoic acid, docosahexaenoic acid, alpha-tocopherol, magnesium and folic acid, and mental health, with particular reference to their beneficial effect on stress, sleep disorders, anxiety, mild cognitive impairment, as well as on neuropsychiatric disorders, all significantly affecting the quality of life of an increasing number of people. Overall data support a positive role for the nutrients mentioned above in the preservation of normal brain function and mental well-being, also through the control of neuroinflammation, and encourage their integration in a well-balanced and varied diet, accompanied by a healthy lifestyle. This strategy is of particular importance when considering the global human aging and that the brain suffers significantly from the life-long impact of stress factors.
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Green Tea Intake and Risks for Dementia, Alzheimer's Disease, Mild Cognitive Impairment, and Cognitive Impairment: A Systematic Review.
Kakutani, S, Watanabe, H, Murayama, N
Nutrients. 2019;11(5)
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Around 50 million people worldwide suffer from dementia, with 10 million new cases being diagnosed every year. Diet may play a role in the prevention of dementia. In this systematic review, the authors reviewed eight previous studies examining the effects of green tea on dementia. Six of the eight studies supported a preventative effect of green tea intake. The authors suggested that green tea might positively influence biological mechanisms such as oxidative stress, inflammation, accumulation of plaques in the brain and the maintenance of healthy blood vessels. The authors concluded that green tea intake might reduce the risk for dementia, Alzheimer's disease, mild cognitive impairment, or cognitive impairment, but further studies are needed.
Abstract
Dementia has become a major issue that requires urgent measures. The prevention of dementia may be influenced by dietary factors. We focused on green tea and performed a systematic review of observational studies that examined the association between green tea intake and dementia, Alzheimer's disease, mild cognitive impairment, or cognitive impairment. We searched for articles registered up to 23 August 2018, in the PubMed database and then for references of original articles or reviews that examined tea and cognition. Subsequently, the extracted articles were examined regarding whether they included original data assessing an association of green tea intake and dementia, Alzheimer's disease, mild cognitive impairment, or cognitive impairment. Finally, we included three cohort studies and five cross-sectional studies. One cohort study and three cross-sectional studies supported the positive effects of green tea intake. One cohort study and one cross-sectional study reported partial positive effects. The remaining one cohort study and one cross-sectional study showed no significant association of green tea intake. These results seem to support the hypothesis that green tea intake might reduce the risk for dementia, Alzheimer's disease, mild cognitive impairment, or cognitive impairment. Further results from well-designed and well-conducted cohort studies are required to derive robust evidence.
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Omega-3 Fatty Acid Status Enhances the Prevention of Cognitive Decline by B Vitamins in Mild Cognitive Impairment.
Oulhaj, A, Jernerén, F, Refsum, H, Smith, AD, de Jager, CA
Journal of Alzheimer's disease : JAD. 2016;50(2):547-57
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Many studies are exploring preventative measures to delay or prevent mild cognitive impairment (MCI) and Alzheimer’s disease. A recent trial (VITACOG) demonstrated that omega-3 fatty acid status enhances the protective effects of B-vitamins on brain atrophy. The present study uses the VITACOG data to investigate whether there is an association on cognitive function. This study revealed that a higher baseline omega-3 fatty acid status enhances the beneficial effects of B vitamins on both brain atrophy and cognitive decline. The authors conclude that this interaction may slow down the disease process in MCI and warrants further clinical trials investigating this relationship.
Abstract
A randomized trial (VITACOG) in people with mild cognitive impairment (MCI) found that B vitamin treatment to lower homocysteine slowed the rate of cognitive and clinical decline. We have used data from this trial to see whether baseline omega-3 fatty acid status interacts with the effects of B vitamin treatment. 266 participants with MCI aged ≥70 years were randomized to B vitamins (folic acid, vitamins B6 and B12) or placebo for 2 years. Baseline cognitive test performance, clinical dementia rating (CDR) scale, and plasma concentrations of total homocysteine, total docosahexaenoic and eicosapentaenoic acids (omega-3 fatty acids) were measured. Final scores for verbal delayed recall, global cognition, and CDR sum-of-boxes were better in the B vitamin-treated group according to increasing baseline concentrations of omega-3 fatty acids, whereas scores in the placebo group were similar across these concentrations. Among those with good omega-3 status, 33% of those on B vitamin treatment had global CDR scores >0 compared with 59% among those on placebo. For all three outcome measures, higher concentrations of docosahexaenoic acid alone significantly enhanced the cognitive effects of B vitamins, while eicosapentaenoic acid appeared less effective. When omega-3 fatty acid concentrations are low, B vitamin treatment has no effect on cognitive decline in MCI, but when omega-3 levels are in the upper normal range, B vitamins interact to slow cognitive decline. A clinical trial of B vitamins combined with omega-3 fatty acids is needed to see whether it is possible to slow the conversion from MCI to AD.
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Cognitive Effects of Intentional Weight Loss in Elderly Obese Individuals With Mild Cognitive Impairment.
Horie, NC, Serrao, VT, Simon, SS, Gascon, MR, Dos Santos, AX, Zambone, MA, Del Bigio de Freitas, MM, Cunha-Neto, E, Marques, EL, Halpern, A, et al
The Journal of clinical endocrinology and metabolism. 2016;101(3):1104-12
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Several studies have elucidated that midlife obesity increases the risk of dementia later in life. While the neuroprotective effects of caloric restriction have been widely demonstrated, they have not yet been investigated in patients with mild cognitive impairment (MCI). The aim of this trial was to evaluate the effect of intentional weight loss in elderly adults with mild cognitive impairment (MCI). Eighty participants aged over 60 were randomly allocated to receive either nutritional counselling or medical care alone for 12 months. The findings of this study indicated that intentional weight loss through diet was associated with cognitive improvement in patients with MCI, and this association was strongest in younger adults and APOE4 carriers. As this was the first clinical trial exploring these effects in patients with MCI further research is warranted.
Abstract
CONTEXT Obesity in midlife is a risk factor for dementia, but it is unknown if caloric restriction-induced weight loss could prevent cognitive decline and therefore dementia in elderly patients with cognitive impairment. OBJECTIVE To evaluate the cognitive effect of intentional weight loss in obese elderly patients with mild cognitive impairment (MCI), considering the influence of age, apolipoprotein E (APOE) genotype, physical activity, biochemical markers, and diet. DESIGN Single-center, prospective controlled trial. SETTING Academic medical center. PARTICIPANTS Eighty obese patients with MCI, aged 60 or older (68.1 ± 4.9 y, body mass index [BMI] 35.5 ± 4.4 kg/m(2), 83.7% women, 26.3% APOE allele ϵ4 carriers). INTERVENTION Random allocation to conventional medical care alone (n = 40) or together with nutritional counselling (n = 40) in group meetings aiming to promote weight loss through caloric restriction for 12 months. OUTCOME MEASUREMENTS clinical data, body composition, neuropsychological tests (main outcome), serum biomarkers, APOE genotype, physical performance, dietary recalls. RESULTS Seventy-five patients completed the follow-up. BMI, on average, decreased 1.7 ± 1.8 kg/m(2) (P = .021), and most of the cognitive tests improved, without difference between the groups. In analysis with linear generalized models, the BMI decrease was associated with improvements in verbal memory, verbal fluency, executive function, and global cognition, after adjustment for education, gender, physical activity, and baseline tests. This association was strongest in younger seniors (for memory and fluency) and in APOE allele ϵ4 carriers (for executive function). Changes in homeostasis model assessment-estimated insulin resistance, C-reactive protein, leptin and intake of energy, carbohydrates, and fats were associated with improvement in cognitive tests. CONCLUSIONS Intentional weight loss through diet was associated with cognitive improvement in patients with MCI.
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Reversal of cognitive decline in Alzheimer's disease.
Bredesen, DE, Amos, EC, Canick, J, Ackerley, M, Raji, C, Fiala, M, Ahdidan, J
Aging. 2016;8(6):1250-8
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Alzheimer’s disease is the third leading cause of death and is one of the most significant global healthcare problems of modern times. It leads initially to cognitive decline – inability to recall words and faces, do mental calculations, navigate on familiar routes – and eventually to complete loss of memory and ability to perform routine daily tasks. Conventional therapy focuses on single drug therapies and success with these has been limited. This case study report details the results of 10 patients experiencing differing degrees of cognitive decline and early Alzheimer’s disease. Each patient followed a personalised, multiple therapy programme for 5 months to 2 years, based on their genetics, markers for blood glucose management, lipid profile, homocysteine, Vitamin D and inflammation, amongst others. Each case reports a quantified improvement in brain function, as well as subjective improvements reported by the carers and patients. The authors call for funding for a randomised controlled trial and for early detection and treatment using a multi-faceted protocol. Nutrition Practitioners working with cognitive decline can use the case study reports to inform their testing choices and personalised nutrition and lifestyle protocols.
Abstract
Alzheimer's disease is one of the most significant healthcare problems nationally and globally. Recently, the first description of the reversal of cognitive decline in patients with early Alzheimer's disease or its precursors, MCI (mild cognitive impairment) and SCI (subjective cognitive impairment), was published [1]. The therapeutic approach used was programmatic and personalized rather than monotherapeutic and invariant, and was dubbed metabolic enhancement for neurodegeneration (MEND). Patients who had had to discontinue work were able to return to work, and those struggling at work were able to improve their performance. The patients, their spouses, and their co-workers all reported clear improvements. Here we report the results from quantitative MRI and neuropsychological testing in ten patients with cognitive decline, nine ApoE4+ (five homozygous and four heterozygous) and one ApoE4-, who were treated with the MEND protocol for 5-24 months. The magnitude of the improvement is unprecedented, providing additional objective evidence that this programmatic approach to cognitive decline is highly effective. These results have far-reaching implications for the treatment of Alzheimer's disease, MCI, and SCI; for personalized programs that may enhance pharmaceutical efficacy; and for personal identification of ApoE genotype.
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A Nutritional Formulation for Cognitive Performance in Mild Cognitive Impairment: A Placebo-Controlled Trial with an Open-Label Extension.
Remington, R, Lortie, JJ, Hoffmann, H, Page, R, Morrell, C, Shea, TB
Journal of Alzheimer's disease : JAD. 2015;48(3):591-5
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Mild cognitive impairment (MCI) is characterised by cognitive decline beyond that of normal age-related decline. A nutraceutical formulation (NF) has been shown to improve cognitive performance among individuals diagnosed with Alzheimer disease. The aim of this study was to evaluate the efficacy of a specific NF in improving overall cognitive performance among 34 individuals diagnosed with MCI. Participants were randomised to receive the NF tablet or placebo tablet daily for six months, followed by a six-month open-label extension in which all participants received the NF. The intervention cohort improved in the Dementia Rating Scale (DRS), and during the open-label extension, the placebo cohort improved DRS. These findings extend the existing findings and demonstrate the beneficial effect of NF supplementation for delaying or minimising cognitive decline for individuals with MCI.
Abstract
Thirty-four individuals with mild cognitive impairment were randomized for 6 months to a nutraceutical formulation (NF: folate, alpha-tocopherol, B12, S-adenosyl methioinine, N-acetyl cysteine, acetyl-L-carnitine) or indistinguishable placebo, followed by a 6-month open-label extension in which all individuals received NF. The NF cohort improved in the Dementia Rating Scale (DRS; effect size >0.7) and maintained baseline performance in CLOX-1. The placebo cohort did not improve in DRS and declined in CLOX-1, but during the open-label extension improved in DRS and ceased declining in CLOX-1. These findings extend prior studies of NF efficacy for individuals without cognitive impairment and with Alzheimer's disease.
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Brain atrophy in cognitively impaired elderly: the importance of long-chain ω-3 fatty acids and B vitamin status in a randomized controlled trial.
Jernerén, F, Elshorbagy, AK, Oulhaj, A, Smith, SM, Refsum, H, Smith, AD
The American journal of clinical nutrition. 2015;102(1):215-21
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Mild cognitive impairment (MCI) is a characterised by a decline in cognitive function between normal aging and the development of dementia. While brain atrophy occurs in normal aging, patients with MCI or dementia exhibit much higher rates of atrophy. Results from a recent trial demonstrated that homocysteine-lowering B vitamins resulted in a significant reduction in brain atrophy rates, and links between omega-3 fatty acids and homocysteine have been suggested. The purpose of this study was to investigate whether plasma omega-3 fatty acid concentrations modify the treatment effect of B vitamins on brain atrophy rates among 168 elderly adults with MCI. Participants were randomly assigned to receive placebo or high-dose vitamin B supplementation and both brain scans and plasma concentrations were done at baseline and 2 years. The findings of this study demonstrated that, in patients with high omega-3 plasma concentrations, B vitamin supplementation slowed brain atrophy by 40% compared with those in the placebo group. This indicates that the effect of B vitamin supplementation on brain atrophy rates depend on plasma omega-3 fatty acid concentrations.
Abstract
BACKGROUND Increased brain atrophy rates are common in older people with cognitive impairment, particularly in those who eventually convert to Alzheimer disease. Plasma concentrations of omega-3 (ω-3) fatty acids and homocysteine are associated with the development of brain atrophy and dementia. OBJECTIVE We investigated whether plasma ω-3 fatty acid concentrations (eicosapentaenoic acid and docosahexaenoic acid) modify the treatment effect of homocysteine-lowering B vitamins on brain atrophy rates in a placebo-controlled trial (VITACOG). DESIGN This retrospective analysis included 168 elderly people (≥70 y) with mild cognitive impairment, randomly assigned either to placebo (n = 83) or to daily high-dose B vitamin supplementation (folic acid, 0.8 mg; vitamin B-6, 20 mg; vitamin B-12, 0.5 mg) (n = 85). The subjects underwent cranial magnetic resonance imaging scans at baseline and 2 y later. The effect of the intervention was analyzed according to tertiles of baseline ω-3 fatty acid concentrations. RESULTS There was a significant interaction (P = 0.024) between B vitamin treatment and plasma combined ω-3 fatty acids (eicosapentaenoic acid and docosahexaenoic acid) on brain atrophy rates. In subjects with high baseline ω-3 fatty acids (>590 μmol/L), B vitamin treatment slowed the mean atrophy rate by 40.0% compared with placebo (P = 0.023). B vitamin treatment had no significant effect on the rate of atrophy among subjects with low baseline ω-3 fatty acids (<390 μmol/L). High baseline ω-3 fatty acids were associated with a slower rate of brain atrophy in the B vitamin group but not in the placebo group. CONCLUSIONS The beneficial effect of B vitamin treatment on brain atrophy was observed only in subjects with high plasma ω-3 fatty acids. It is also suggested that the beneficial effect of ω-3 fatty acids on brain atrophy may be confined to subjects with good B vitamin status. The results highlight the importance of identifying subgroups likely to benefit in clinical trials. This trial was registered at www.controlled-trials.com as ISRCTN94410159.
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Metabolic profiling distinguishes three subtypes of Alzheimer's disease.
Bredesen, DE
Aging. 2015;7(8):595-600
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The causes of Alzheimer’s Disease (AD) remain incompletely defined and there are currently no truly effective drug therapies available. However, there is growing evidence that disordered blood glucose management and hormonal changes and deficiencies, amongst other things, are implicated in symptom onset. Optimising these various metabolic processes, therefore, may be used as a comprehensive way to avoid cognitive decline or achieve cognitive improvements in symptomatic individuals. This report provides the metabolic results of 3 case studies and suggests 3 different types of AD classification, depending on the individual metabolic profile. Further studies are required to elaborate on the metabolic profiles suggested in this report, however Nutrition Practitioners working with cognitive decline, can use this report as a basis for individualised nutrition protocols to optimise metabolic processes in clients with cognitive decline.
Abstract
The cause of Alzheimer's disease is incompletely defined, and no truly effective therapy exists. However, multiple studies have implicated metabolic abnormalities such as insulin resistance, hormonal deficiencies, and hyperhomocysteinemia. Optimizing metabolic parameters in a comprehensive way has yielded cognitive improvement, both in symptomatic and asymptomatic individuals. Therefore, expanding the standard laboratory evaluation in patients with dementia may be revealing. Here I report that metabolic profiling reveals three Alzheimer's disease subtypes. The first is inflammatory, in which markers such as hs-CRP and globulin:albumin ratio are increased. The second type is non-inflammatory, in which these markers are not increased, but other metabolic abnormalities are present. The third type is a very distinctive clinical entity that affects relatively young individuals, extends beyond the typical Alzheimer's disease initial distribution to affect the cortex widely, is characterized by early non-amnestic features such as dyscalculia and aphasia, is often misdiagnosed or labeled atypical Alzheimer's disease, typically affects ApoE4-negative individuals, and is associated with striking zinc deficiency. Given the involvement of zinc in multiple Alzheimer's-related metabolic processes, such as insulin resistance, chronic inflammation, ADAM10 proteolytic activity, and hormonal signaling, this syndrome of Alzheimer's-plus with low zinc (APLZ) warrants further metabolic, genetic, and epigenetic characterization.
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ω-3 Supplementation increases amyloid-β phagocytosis and resolvin D1 in patients with minor cognitive impairment.
Fiala, M, Halder, RC, Sagong, B, Ross, O, Sayre, J, Porter, V, Bredesen, DE
FASEB journal : official publication of the Federation of American Societies for Experimental Biology. 2015;29(7):2681-9
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The build-up of a protein fragment, beta-amyloid, in the brains of individuals with Alzheimer’s disease (AD) has been the focus of experimental therapeutics however, no significant impacts from medication have been achieved to date. This open label study of 21 individuals, with either pre-mild cognitive decline, mild cognitive decline (MCD) or AD, measured the effects of 4-17 months supplementation with omega-3 fatty acids (1000mg DHA, 1000mg EPA plus antioxidants, Vitamin D and resveratrol) on beta-amyloid breakdown, changes to inflammatory gene expression and measures of cognitive function (mini-mental state examination questionnaire). The study found significant increases in beta-amyloid breakdown with omega-3 supplementation in patients with pre-MCI or MCI but not in patients with AD. Cognitive function was also affected by supplementation and appeared to be stabilised. The authors call for this work to be followed up with randomised clinical trials.
Abstract
We investigated the effects of 4-17 month supplementation with ω-3 fatty acids and antioxidants (Smartfish drink; Smartfish AS, Oslo, Norway) in 12 patients with minor cognitive impairment (MCI) [minimental state examination (MMSE) ≥19], 2 patients with pre-MCI (normal MMSE), and 7 patients with Alzheimer disease (AD) (MMSE <19). We measured the phagocytosis of amyloid-β 1-42 (Aβ) by flow cytometry and microscopy, the transcription of inflammatory genes by RT-PCR, the production of resolvin D1 (RvD1) by enzyme immunoassay, and the cognitive status by MMSE. In patients with MCI and pre-MCI, phagocytosis of Aβ by monocytes increased from 530 to 1306 mean fluorescence intensity units (P = 0.016). The increase in patients with AD was not significant (N.S.). The lipidic mediator RvD1, which stimulates Aβ phagocytosis in vitro, increased in macrophages in 80% of patients with MCI and pre-MCI (mean increase 9.95 pg/ml) (N.S.). Transcription of inflammatory genes' mRNAs was increased in a subgroup of patients with low transcription at baseline, whereas it was not significantly changed in patients with high transcription at baseline. The mean MMSE score of patients with MCI and pre-MCI was 25.9 at baseline and 25.7 after 4-17 months (N.S.). Our study is the first to show significant immune and biochemical effects of ω-3 fatty acids with antioxidants in patients with MCI. Cognitive benefits of ω-3 supplementation in patients with MCI should be tested in a clinical trial.
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Reversal of cognitive decline: a novel therapeutic program.
Bredesen, DE
Aging. 2014;6(9):707-17
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Alzheimer’s Disease (AD) is estimated to affect 30 million individuals globally, with projections as high as 150 million by 2050 if no effective treatment is found. This report describes a personalised, multi-modal, therapeutic programme used with 10 individuals with various degrees of cognitive decline. The goal was to optimise metabolic parameters and lifestyle factors and was personalised based on laboratory test results. 9 out of 10 of the case study patients experienced improvement in cognitive abilities, beginning within 3-6 months of starting the programme. These effects were sustained at 2.5 year follow up. The 1 patient who did not benefit had advanced AD, in comparison to the other patients with subjective or mild cognitive decline. The authors call for a more extensive trial of the therapeutic programme.
Abstract
This report describes a novel, comprehensive, and personalized therapeutic program that is based on the underlying pathogenesis of Alzheimer's disease, and which involves multiple modalities designed to achieve metabolic enhancement for neurodegeneration (MEND). The first 10 patients who have utilized this program include patients with memory loss associated with Alzheimer's disease (AD), amnestic mild cognitive impairment (aMCI), or subjective cognitive impairment (SCI). Nine of the 10 displayed subjective or objective improvement in cognition beginning within 3-6 months, with the one failure being a patient with very late stage AD. Six of the patients had had to discontinue working or were struggling with their jobs at the time of presentation, and all were able to return to work or continue working with improved performance. Improvements have been sustained, and at this time the longest patient follow-up is two and one-half years from initial treatment, with sustained and marked improvement. These results suggest that a larger, more extensive trial of this therapeutic program is warranted. The results also suggest that, at least early in the course, cognitive decline may be driven in large part by metabolic processes. Furthermore, given the failure of monotherapeutics in AD to date, the results raise the possibility that such a therapeutic system may be useful as a platform on which drugs that would fail as monotherapeutics may succeed as key components of a therapeutic system.