Gut microbiota and childhood malnutrition: Understanding the link and exploring therapeutic interventions

IF 3.9 4区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Sevda Zoghi, Fatemah Sadeghpour Heravi, Zeinab Nikniaz, Masoud Shirmohamadi, Seyed Yaghoub Moaddab, Hamed Ebrahimzadeh Leylabadlo
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Abstract

Childhood malnutrition is a metabolic condition that affects the physical and mental well-being of children and leads to resultant disorders in maturity. The development of childhood malnutrition is influenced by a number of physiological and environmental factors including metabolic stress, infections, diet, genetic variables, and gut microbiota. The imbalanced gut microbiota is one of the main environmental risk factors that significantly influence host physiology and childhood malnutrition progression. In this review, we have evaluated the gut microbiota association with undernutrition and overnutrition in children, and then the quantitative and qualitative significance of gut dysbiosis in order to reveal the impact of gut microbiota modification using probiotics, prebiotics, synbiotics, postbiotics, fecal microbiota transplantation, and engineering biology methods as new therapeutic challenges in the management of disturbed energy homeostasis. Understanding the host–microbiota interaction and the remote regulation of other organs and pathways by gut microbiota can improve the effectiveness of new therapeutic approaches and mitigate the negative consequences of childhood malnutrition.

Abstract Image

肠道微生物群与儿童营养不良:了解联系并探索治疗干预措施
儿童营养不良是一种影响儿童身心健康的新陈代谢状况,会导致儿童发育成熟后出现障碍。儿童营养不良的发生受多种生理和环境因素的影响,包括代谢压力、感染、饮食、遗传变异和肠道微生物群。失衡的肠道微生物群是主要的环境风险因素之一,对宿主的生理机能和儿童营养不良的发展有重大影响。在这篇综述中,我们评估了肠道微生物群与儿童营养不良和营养过剩的关联,然后评估了肠道菌群失调的定量和定性意义,以揭示使用益生菌、益生元、合成益生元、后益生元、粪便微生物群移植和工程生物学方法改变肠道微生物群对能量平衡紊乱管理中的新治疗挑战的影响。了解宿主与微生物群之间的相互作用以及肠道微生物群对其他器官和途径的远程调控,可以提高新治疗方法的有效性,减轻儿童营养不良的负面影响。
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来源期刊
Engineering in Life Sciences
Engineering in Life Sciences 工程技术-生物工程与应用微生物
CiteScore
6.40
自引率
3.70%
发文量
81
审稿时长
3 months
期刊介绍: Engineering in Life Sciences (ELS) focuses on engineering principles and innovations in life sciences and biotechnology. Life sciences and biotechnology covered in ELS encompass the use of biomolecules (e.g. proteins/enzymes), cells (microbial, plant and mammalian origins) and biomaterials for biosynthesis, biotransformation, cell-based treatment and bio-based solutions in industrial and pharmaceutical biotechnologies as well as in biomedicine. ELS especially aims to promote interdisciplinary collaborations among biologists, biotechnologists and engineers for quantitative understanding and holistic engineering (design-built-test) of biological parts and processes in the different application areas.
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