Ingestible Osmotic Pill for In Vivo Sampling of Gut Microbiomes

Technologies capable of noninvasively sampling different locations in the gut upstream of the colon enable new insights into the role of organ‐specific microbiota in human health. Herein, an ingestible, biocompatible, battery‐less, 3D‐printed microengineered pill with an integrated osmotic sampler a...

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Veröffentlicht in:	Advanced intelligent systems 2019-09, Vol.1 (5), p.n/a
Hauptverfasser:	Rezaei Nejad, Hojatollah, Oliveira, Bruno C. M., Sadeqi, Aydin, Dehkharghani, Amin, Kondova, Ivanela, Langermans, Jan A. M., Guasto, Jeffrey S., Tzipori, Saul, Widmer, Giovanni, Sonkusale, Sameer R.
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Schlagworte:	biomedical devices lab-on-a-chip microbiomes microfluidics smart pills
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creator	Rezaei Nejad, Hojatollah Oliveira, Bruno C. M. Sadeqi, Aydin Dehkharghani, Amin Kondova, Ivanela Langermans, Jan A. M. Guasto, Jeffrey S. Tzipori, Saul Widmer, Giovanni Sonkusale, Sameer R.
description	Technologies capable of noninvasively sampling different locations in the gut upstream of the colon enable new insights into the role of organ‐specific microbiota in human health. Herein, an ingestible, biocompatible, battery‐less, 3D‐printed microengineered pill with an integrated osmotic sampler and microfluidic channels for in vivo sampling of the gut lumen and its microbiome upstream of the colon is discussed. The pill's sampling performance is characterized using realistic in vitro models and validated in vivo in pigs and primates. Herein, the results show that the bacterial populations recovered from the pill's microfluidic channels closely resemble the bacterial population demographics of the microenvironment to which the pill is exposed. Herein, it is believed that such lab‐on‐a‐pill devices revolutionize the understanding of the spatial diversity of the gut microbiome and its response to medical conditions and treatments. Herein, a biocompatible, battery‐less, 3D‐printed micro‐engineered pill with an integrated osmotic sampler and microfluidic channels for in vivo sampling of the gut lumen and its microbiome upstream of the colon is presented. Such a device has the potential to illuminate the understanding of how the spatial distribution of the gut microbiome relates to health and disease.
doi_str_mv	10.1002/aisy.201900053
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Herein, the results show that the bacterial populations recovered from the pill's microfluidic channels closely resemble the bacterial population demographics of the microenvironment to which the pill is exposed. Herein, it is believed that such lab‐on‐a‐pill devices revolutionize the understanding of the spatial diversity of the gut microbiome and its response to medical conditions and treatments. Herein, a biocompatible, battery‐less, 3D‐printed micro‐engineered pill with an integrated osmotic sampler and microfluidic channels for in vivo sampling of the gut lumen and its microbiome upstream of the colon is presented. 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subjects	biomedical devices lab-on-a-chip microbiomes microfluidics smart pills
title	Ingestible Osmotic Pill for In Vivo Sampling of Gut Microbiomes
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