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Nutritional deficiency in an intestine-on-a-chip recapitulates injury hallmarks associated with environmental enteric dysfunction

Medicine and Health

Nutritional deficiency in an intestine-on-a-chip recapitulates injury hallmarks associated with environmental enteric dysfunction

A. Bein, C. W. Fadel, et al.

Explore groundbreaking research on environmental enteric dysfunction (EED), a chronic intestinal condition affecting nutrient absorption. This study reveals how key features of EED can be modeled using a human intestine-on-a-chip system created from organoid-derived intestinal epithelial cells from EED patients. Conducted by a team of experts, the findings pave the way for better understanding and potential therapies for this debilitating condition.

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Playback language: English
Abstract
Environmental enteric dysfunction (EED) is a chronic intestinal inflammatory condition causing villus blunting, impaired barrier function, and reduced nutrient absorption. This study demonstrates that key EED features can be recreated in a human intestine-on-a-chip model using organoid-derived intestinal epithelial cells from EED patients and cultured in a nutrient-deficient medium lacking niacinamide and tryptophan. Nutritional deficiency in the organ chip led to changes in gene expression mirroring those seen in EED patients, including villus blunting, barrier dysfunction, and impaired nutrient uptake. The model may help analyze EED's molecular and nutritional bases and test potential therapeutics.
Publisher
Nature Biomedical Engineering
Published On
Nov 23, 2022
Authors
Amir Bein, Cicely W. Fadel, Ben Swenor, Wuji Cao, Rani K. Powers, Diogo M. Camacho, Arash Naziripour, Andrew Parsons, Nina LoGrande, Sanjay Sharma, Seongmin Kim, Sasan Jalili-Firoozinezhad, Jennifer Grant, David T. Breault, Junaid Iqbal, Asad Ali, Lee A. Denson, Sean R. Moore, Rachelle Prantil-Baun, Girija Goyal, Donald E. Ingber
Tags
Environmental enteric dysfunction
intestinal inflammation
nutrient absorption
human intestine-on-a-chip
gene expression
nutritional deficiency
therapeutics

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