Neurocognition and food cue-related brain reactivity after fiber supplementation within a high-protein, plant-based diet in individuals with overweight and prediabetes: A randomized-controlled trial (the DISTAL-study).

IF 7.4 2区医学 Q1 NUTRITION & DIETETICS

Clinical nutrition Pub Date : 2026-04-17 DOI:10.1016/j.clnu.2026.106668

Colin A J van Kalkeren, Thirza van Deuren, Wenhao Huang, Soyoung Q Park, Ellen E Blaak, Tanja C Adam

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引用次数: 0

Abstract

Background: The increasing prevalence of obesity and related diseases, such as type 2 diabetes mellitus (T2DM) and neurocognitive dysfunction, warrants sustainable and effective strategies for treatment and prevention. A healthy diet, containing dietary fibers that are fermented by the gut microbiome, produces short-chain fatty acids, among other metabolites, known to alleviate insulin resistance. SCFA also may protect against neurocognitive decline and increase satiety through food-reward-related pathways of the gut-brain axis, thereby contributing to sustainable dietary habits and counteracting obesity and -related diseases. We therefore studied the effects of dietary fibers in the context of a high-protein, partially plant-based diet on neurocognitive functioning and food-reward related brain activity.

Methods: This 12-week RCT compared a potato fiber and sugar beet pectin supplement to an isocaloric placebo (maltodextrin), both within a high-protein (±45% plant-based) diet. We investigated the effects on food-reward-related brain activity using functional magnetic resonance imaging (fMRI) with visual food stimuli, comprising high-calorie, low-calorie, and non-food items. Neurocognitive performance was tested with the Cambridge Neurocognitive Test Automated Battery (CANTAB). Furthermore, satiety hormones, stress, and general well-being were assessed, and associations with cardiometabolic markers were explored.

Results: Overall, there was a trend towards an increased amygdala BOLD response over time in the fiber group compared to placebo, independent of visual stimuli conditions. The change in amygdala activity was positively associated with increased colonic permeability in both groups. After the intervention, both groups showed improvements in psychomotor speed, visual memory, and learning abilities, and reported less subjective hunger after 12 weeks on a high-protein, partially plant-based diet. General well-being, stress, and satiety hormone concentrations remained unchanged.

Conclusion: Twelve weeks of fiber supplementation did not change brain activity induced by visual food cues in reward-related brain regions. However, the high-protein, partially plant-based diet seemed to provide neurocognitive benefits, improving psychomotor speed and memory, and decrease perceived hunger.

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超重和前驱糖尿病患者在高蛋白植物性饮食中补充纤维后的神经认知和食物线索相关的大脑反应：一项随机对照试验（distal研究）。

背景：肥胖及其相关疾病，如2型糖尿病（T2DM）和神经认知功能障碍的患病率日益增加，需要可持续和有效的治疗和预防策略。健康的饮食，含有由肠道微生物发酵的膳食纤维，产生短链脂肪酸，以及其他代谢产物，已知可以减轻胰岛素抵抗。短链脂肪酸还可以通过肠-脑轴的食物奖励相关途径防止神经认知能力下降和增加饱腹感，从而有助于可持续的饮食习惯和对抗肥胖及相关疾病。因此，我们研究了高蛋白、部分植物性饮食背景下膳食纤维对神经认知功能和食物奖励相关大脑活动的影响。方法：这项为期12周的随机对照试验比较了马铃薯纤维和甜菜果胶补充剂与等热量安慰剂（麦芽糊精），两者都在高蛋白（±45%植物性）饮食中。我们使用功能性磁共振成像（fMRI）研究了视觉食物刺激对食物奖励相关大脑活动的影响，包括高热量、低热量和非食物项目。神经认知性能测试采用剑桥神经认知测试自动化电池（CANTAB）。此外，还评估了饱腹激素、压力和总体幸福感，并探讨了与心脏代谢标志物的关系。结果：总的来说，与安慰剂相比，随着时间的推移，纤维组的杏仁核BOLD反应有增加的趋势，独立于视觉刺激条件。在两组中，杏仁核活动的变化与结肠通透性的增加呈正相关。经过干预，两组患者在精神运动速度、视觉记忆和学习能力方面都有所改善，在高蛋白部分植物性饮食12周后，主观饥饿感也有所减少。总体幸福感、压力和饱腹激素浓度保持不变。结论：12周的纤维补充并没有改变视觉食物线索诱导的大脑奖励相关区域的活动。然而，高蛋白、部分植物性饮食似乎提供了神经认知方面的益处，提高了精神运动速度和记忆力，并减少了饥饿感。

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来源期刊

Clinical nutrition 医学-营养学

CiteScore

14.10

自引率

6.30%

发文量

356

审稿时长

28 days

期刊介绍： Clinical Nutrition, the official journal of ESPEN, The European Society for Clinical Nutrition and Metabolism, is an international journal providing essential scientific information on nutritional and metabolic care and the relationship between nutrition and disease both in the setting of basic science and clinical practice. Published bi-monthly, each issue combines original articles and reviews providing an invaluable reference for any specialist concerned with these fields.