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Mediterranean Diet and Age-Related Cognitive Decline: A Randomized Clinical Trial.
Valls-Pedret, C, Sala-Vila, A, Serra-Mir, M, Corella, D, de la Torre, R, Martínez-González, MÁ, Martínez-Lapiscina, EH, Fitó, M, Pérez-Heras, A, Salas-Salvadó, J, et al
JAMA internal medicine. 2015;175(7):1094-1103
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Plain language summary
There is increasing evidence associating dietary habits and cognitive function, and oxidative stress is known to play a major role in cognitive decline. The Mediterranean diet is a plant-based, antioxidant rich dietary pattern and large observational studies have elucidated that Mediterranean diet adherence is associated with better cognitive function. The aim of this study was to investigate whether a Mediterranean diet supplemented with antioxidant-rich foods influences cognitive function compared with a control diet. Participants were randomly assigned to a Mediterranean diet supplemented with extra virgin olive oil, a Mediterranean diet supplemented with mixed nuts or a control diet with dietary advice. The study included 447 cognitively healthy volunteers at high cardiovascular risk and rates of cognitive change were followed for an average of four years. According to the findings of this study, a long-term Mediterranean diet supplemented with olive oil or nuts is associated with improved cognitive function and may counteract age-related cognitive decline. It is hypothesised that this effect is attributed to the abundance of antioxidants and anti-inflammatory agents of the Mediterranean diet and may contribute to effective interventions to prevent or delay the onset of cognitive decline.
Abstract
IMPORTANCE Oxidative stress and vascular impairment are believed to partly mediate age-related cognitive decline, a strong risk factor for development of dementia. Epidemiologic studies suggest that a Mediterranean diet, an antioxidant-rich cardioprotective dietary pattern, delays cognitive decline, but clinical trial evidence is lacking. OBJECTIVE To investigate whether a Mediterranean diet supplemented with antioxidant-rich foods influences cognitive function compared with a control diet. DESIGN, SETTING, AND PARTICIPANTS Parallel-group randomized clinical trial of 447 cognitively healthy volunteers from Barcelona, Spain (233 women [52.1%]; mean age, 66.9 years), at high cardiovascular risk were enrolled into the Prevención con Dieta Mediterránea nutrition intervention trial from October 1, 2003, through December 31, 2009. All patients underwent neuropsychological assessment at inclusion and were offered retesting at the end of the study. INTERVENTIONS Participants were randomly assigned to a Mediterranean diet supplemented with extravirgin olive oil (1 L/wk), a Mediterranean diet supplemented with mixed nuts (30 g/d), or a control diet (advice to reduce dietary fat). MAIN OUTCOMES AND MEASURES Rates of cognitive change over time based on a neuropsychological test battery: Mini-Mental State Examination, Rey Auditory Verbal Learning Test (RAVLT), Animals Semantic Fluency, Digit Span subtest from the Wechsler Adult Intelligence Scale, Verbal Paired Associates from the Wechsler Memory Scale, and the Color Trail Test. We used mean z scores of change in each test to construct 3 cognitive composites: memory, frontal (attention and executive function), and global. RESULTS Follow-up cognitive tests were available in 334 participants after intervention (median, 4.1 years). In multivariate analyses adjusted for confounders, participants allocated to a Mediterranean diet plus olive oil scored better on the RAVLT (P = .049) and Color Trail Test part 2 (P = .04) compared with controls; no between-group differences were observed for the other cognitive tests. Similarly adjusted cognitive composites (mean z scores with 95% CIs) for changes above baseline of the memory composite were 0.04 (-0.09 to 0.18) for the Mediterranean diet plus olive oil, 0.09 (-0.05 to 0.23; P = .04 vs controls) for the Mediterranean diet plus nuts, and -0.17 (-0.32 to -0.01) for the control diet. Respective changes from baseline of the frontal cognition composite were 0.23 (0.03 to 0.43; P = .003 vs controls), 0.03 (-0.25 to 0.31), and -0.33 (-0.57 to -0.09). Changes from baseline of the global cognition composite were 0.05 (-0.11 to 0.21; P = .005 vs controls) for the Mediterranean diet plus olive oil, -0.05 (-0.27 to 0.18) for the Mediterranean diet plus nuts, and -0.38 (-0.57 to -0.18) for the control diet. All cognitive composites significantly (P < .05) decreased from baseline in controls. CONCLUSIONS AND RELEVANCE In an older population, a Mediterranean diet supplemented with olive oil or nuts is associated with improved cognitive function. TRIAL REGISTRATION isrctn.org Identifier: ISRCTN35739639.
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Dietary sulforaphane-rich broccoli sprouts reduce colonization and attenuate gastritis in Helicobacter pylori-infected mice and humans.
Yanaka, A, Fahey, JW, Fukumoto, A, Nakayama, M, Inoue, S, Zhang, S, Tauchi, M, Suzuki, H, Hyodo, I, Yamamoto, M
Cancer prevention research (Philadelphia, Pa.). 2009;2(4):353-60
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Plain language summary
Helicobacter pylori infection is strongly associated with stomach cancer. Broccoli sprouts are rich in glucoraphanin, the precursor of sulforaphane and have been shown to be bactericidal against Helicobacter pylori infections. This study aimed to evaluate efficacy of broccoli sprouts in reducing H. pylori infection in high-salt, H. pylori–infected mice and infected humans. 6-wk-old mice were infected with H-Pylori and consumed a high salt diet for 2 months. High-salt diets exaggerate H. pylori–induced gastritis in mice. Mice were randomised into 2 groups receiving either broccoli sprouts in water or plain drinking water. Mice had free food access. 50 H. pylori–positive human volunteers whose endoscopy showed gastritis were randomised to consume 70 g/d of broccoli sprouts or equivalent of alfalfa sprouts for 8 weeks. Self reported compliance (95%) was confirmed by urine sample. In mice consuming the broccoli sprout water, inflammation was reduced, as were the cytokines unregulated by H. pylori infection. In humans, inflammation in the gastric lumen was significantly reduced in the broccoli sprout group only. Both stool and breath markers of H pylori were significantly lower when compared to control. The authors conclude that intake of sulforaphane-rich broccoli sprouts for 2 months reduces H. pylori colonization in mice and improves infection in H pylori positive mice and humans.
Abstract
The isothiocyanate sulforaphane [SF; 1-isothiocyanato-4(R)-methylsulfinylbutane] is abundant in broccoli sprouts in the form of its glucosinolate precursor (glucoraphanin). SF is powerfully bactericidal against Helicobacter pylori infections, which are strongly associated with the worldwide pandemic of gastric cancer. Oral treatment with SF-rich broccoli sprouts of C57BL/6 female mice infected with H. pylori Sydney strain 1 and maintained on a high-salt (7.5% NaCl) diet reduced gastric bacterial colonization, attenuated mucosal expression of tumor necrosis factor-alpha and interleukin-1beta, mitigated corpus inflammation, and prevented expression of high salt-induced gastric corpus atrophy. This therapeutic effect was not observed in mice in which the nrf2 gene was deleted, strongly implicating the important role of Nrf2-dependent antioxidant and anti-inflammatory proteins in SF-dependent protection. Forty-eight H. pylori-infected patients were randomly assigned to feeding of broccoli sprouts (70 g/d; containing 420 micromol of SF precursor) for 8 weeks or to consumption of an equal weight of alfalfa sprouts (not containing SF) as placebo. Intervention with broccoli sprouts, but not with placebo, decreased the levels of urease measured by the urea breath test and H. pylori stool antigen (both biomarkers of H. pylori colonization) and serum pepsinogens I and II (biomarkers of gastric inflammation). Values recovered to their original levels 2 months after treatment was discontinued. Daily intake of sulforaphane-rich broccoli sprouts for 2 months reduces H. pylori colonization in mice and improves the sequelae of infection in infected mice and in humans. This treatment seems to enhance chemoprotection of the gastric mucosa against H. pylori-induced oxidative stress.