Improved diet-based nutritional interventions can improve childhood obesity with the synergistic regulation of gut microbiota.

IF 3 4区 医学 Q2 MICROBIOLOGY
M Zhou, C Peng, Z Miao, K Wang, H Zhou, Y Li, G Xiao, X Wu
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引用次数: 0

Abstract

Childhood obesity is a crucial public health concern worldwide. Dietary intervention is the most common intervention for the treatment of obesity. Therefore, we tested an improved diet-based nutritional interventions to improve the childhood obesity and its gut microbiota. Thirty obese children received a 12-week intervention with the adjust-energy-restricted dietary pattern (A-CRD). Body composition was measured by bioelectrical impedance (Inbody S10) and faecal microbes were profiled by sequencing 16S rRNA. Compared to the NTB group (at 0 week), the NTA group (at 12 weeks) had a significantly greater decrease in body weight, body mass index (BMI) and percent body fat (PBF) ( P < 0.001, respectively), whereas skeletal muscle mass (SMM) and fat free mass (FFM) were not statistically significantly different ( P > 0.05). The gut microbiota was found significantly different between the NTB and NTA groups based on alpha and beta diversity. Bifidobacterium, Blautia, and Streptococcus was significantly increased, whereas Bacteroides and Megamonas was significantly decreased in the NTA group ( P < 0.05, respectively). Meanwhile, NTA group significantly increased the ability to produce short-chain fatty acids (SCFAs; e.g. acetic acid/total dietary energy) and changed he predictive metabolic functional features of the microbiota communities ( P < 0.05, respectively) than the NTB group. In conclusion, A-CRD can significantly improve childhood obesity, and the underlying mechanism may be its effect on gut microbiota and metabolism. Therefore, the diet-based nutrition intervention targeting gut microbiota will be more effective management of body weight and prevention of obesity. Chinese Clinical Trial Register: ChiCTR2300074571.

以改善饮食为基础的营养干预措施可以通过协同调节肠道微生物群来改善儿童肥胖问题。
儿童肥胖症是全世界关注的一个重要公共卫生问题。饮食干预是治疗肥胖症最常见的干预措施。因此,我们测试了一种基于饮食的改良营养干预方法,以改善儿童肥胖症及其肠道微生物群。30 名肥胖儿童接受了为期 12 周的调整能量限制饮食模式(A-CRD)干预。通过生物电阻抗(Inbody S10)测量身体成分,并通过 16S rRNA 测序分析粪便微生物。与 NTB 组(0 周时)相比,NTA 组(12 周时)的体重、体质指数(BMI)和体脂百分比(PBF)下降幅度明显更大(P < 0.001,分别为 P < 0.001),而骨骼肌质量(SMM)和无脂肪质量(FFM)在统计学上无明显差异(P > 0.05)。根据α和β多样性,NTB 组和 NTA 组的肠道微生物群存在明显差异。NTA组的双歧杆菌、布劳氏菌和链球菌明显增加,而Bacteroides和Megamonas则明显减少(P<0.05)。与此同时,NTA 组产生短链脂肪酸(SCFAs;如乙酸/膳食总能量)的能力明显提高,微生物群落的预测代谢功能特征也发生了变化(P < 0.05,分别)。总之,A-CRD能显著改善儿童肥胖,其根本机制可能是对肠道微生物群和代谢的影响。因此,针对肠道微生物群的膳食营养干预将更有效地控制体重和预防肥胖。中国临床试验注册:ChiCTR2300074571。
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来源期刊
Beneficial microbes
Beneficial microbes MICROBIOLOGY-NUTRITION & DIETETICS
CiteScore
7.90
自引率
1.90%
发文量
53
审稿时长
>12 weeks
期刊介绍: Beneficial Microbes is a peer-reviewed scientific journal with a specific area of focus: the promotion of the science of microbes beneficial to the health and wellbeing of man and animal. The journal contains original research papers and critical reviews in all areas dealing with beneficial microbes in both the small and large intestine, together with opinions, a calendar of forthcoming beneficial microbes-related events and book reviews. The journal takes a multidisciplinary approach and focuses on a broad spectrum of issues, including safety aspects of pro- & prebiotics, regulatory aspects, mechanisms of action, health benefits for the host, optimal production processes, screening methods, (meta)genomics, proteomics and metabolomics, host and bacterial physiology, application, and role in health and disease in man and animal. Beneficial Microbes is intended to serve the needs of researchers and professionals from the scientific community and industry, as well as those of policy makers and regulators. The journal will have five major sections: * Food, nutrition and health * Animal nutrition * Processing and application * Regulatory & safety aspects * Medical & health applications In these sections, topics dealt with by Beneficial Microbes include: * Worldwide safety and regulatory issues * Human and animal nutrition and health effects * Latest discoveries in mechanistic studies and screening methods to unravel mode of action * Host physiology related to allergy, inflammation, obesity, etc. * Trends in application of (meta)genomics, proteomics and metabolomics * New developments in how processing optimizes pro- & prebiotics for application * Bacterial physiology related to health benefits
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