Literature DB >> 18589500

Development of a gastrointestinal tract microscale cell culture analog to predict drug transport.

Gretchen J McAuliffe1, Jung Yun Chang, Raymond P Glahn, Michael L Shuler.   

Abstract

Microscale cell culture analogs (microCCAs) are used to study the metabolism and toxicity of a chemical or drug. These in vitro devices are physical replicas of physiologically based pharmacokinetic models that combine microfabrication and cell culture. The goal of this project is to add an independent GI tract microCCA to a multi-chamber chip microCCA representing the primary circulation. The GI tract microCCA consists of two chambers separated by a microporous membrane on which intestinal epithelial cells are cultured. Compounds of interest are pumped through the top chamber, allowing drug to be absorbed through the epithelial layer and circulated into the chip microCCA. The chip and GI tract microCCAs have been used to recreate the toxic effects of acetaminophen. Preliminary results have shown that the GI tract microCCA acts as a barrier to drugs entering the chip, mimicking in vivo function in this regard.

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Year:  2008        PMID: 18589500

Source DB:  PubMed          Journal:  Mol Cell Biomech        ISSN: 1556-5297


  8 in total

Review 1.  Microfabrication technologies for oral drug delivery.

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2.  Solving medical problems with BioMEMS.

Authors:  Erkin Seker; Jong Hwan Sung; Michael L Shuler; Martin L Yarmush
Journal:  IEEE Pulse       Date:  2011-11       Impact factor: 0.924

Review 3.  Biology-inspired microphysiological system approaches to solve the prediction dilemma of substance testing.

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Journal:  ALTEX       Date:  2016-05-15       Impact factor: 6.043

Review 4.  The intestinal microbiota, gastrointestinal environment and colorectal cancer: a putative role for probiotics in prevention of colorectal cancer?

Authors:  M Andrea Azcárate-Peril; Michael Sikes; José M Bruno-Bárcena
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Review 5.  Physiologically based pharmacokinetic models: integration of in silico approaches with micro cell culture analogues.

Authors:  A Chen; M L Yarmush; T Maguire
Journal:  Curr Drug Metab       Date:  2012-07       Impact factor: 3.731

Review 6.  Microfluidic Organ/Body-on-a-Chip Devices at the Convergence of Biology and Microengineering.

Authors:  Ana Rubina Perestrelo; Ana C P Águas; Alberto Rainer; Giancarlo Forte
Journal:  Sensors (Basel)       Date:  2015-12-10       Impact factor: 3.576

Review 7.  Microtechnology-Based Multi-Organ Models.

Authors:  Seung Hwan Lee; Jong Hwan Sung
Journal:  Bioengineering (Basel)       Date:  2017-05-21

8.  High-throughput human primary cell-based airway model for evaluating influenza, coronavirus, or other respiratory viruses in vitro.

Authors:  A L Gard; R J Luu; C R Miller; R Maloney; B P Cain; E E Marr; D M Burns; R Gaibler; T J Mulhern; C A Wong; J Alladina; J R Coppeta; P Liu; J P Wang; H Azizgolshani; R Fennell Fezzie; J L Balestrini; B C Isenberg; B D Medoff; R W Finberg; J T Borenstein
Journal:  Sci Rep       Date:  2021-07-22       Impact factor: 4.379
  8 in total

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