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Related Concept Videos

Imaging Studies III: Gastrointestinal Motility Studies and Virtual Colonoscopy01:26

Imaging Studies III: Gastrointestinal Motility Studies and Virtual Colonoscopy

This lesson explores three gastrointestinal imaging techniques: radionuclide testing, colonic transit studies, and virtual colonoscopy.
Radionuclide Testing
Radionuclide testing is a sophisticated medical technique for assessing gastrointestinal motility. It focuses on gastric emptying and colonic transit time. Radioactive markers track the movement of food through the digestive system, providing insights into gastrointestinal disorders.
In gastric emptying studies, a meal's liquid and solid...

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Establishment of Human Epithelial Enteroids and Colonoids from Whole Tissue and Biopsy
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High-Throughput Assay for Predicting Diarrhea Risk Using a 2D Human Intestinal Stem Cell-Derived Model.

Colleen M Pike1, James A Levi1, Lauren A Boone1

  • 1Altis Biosystems, Durham NC, 27709, USA.

Biorxiv : the Preprint Server for Biology
|September 11, 2024
PubMed
Summary
This summary is machine-generated.

A new in vitro model using human intestinal cells accurately predicts gastrointestinal toxicities (GITs) from drugs, improving safety evaluations and patient treatment outcomes.

Keywords:
Adverse eventsDiarrheaEpitheliumHigh throughputIn vitro modelIntestine

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Area of Science:

  • Drug discovery and development
  • Toxicology
  • Gastroenterology

Background:

  • Gastrointestinal toxicities (GITs) are common adverse events (AEs) in clinical trials, often limiting drug efficacy and development.
  • Current preclinical models fail to accurately predict human GITs due to differences in physiology.
  • Early and accurate prediction of GITs is crucial for successful clinical trial outcomes and optimized patient treatments.

Purpose of the Study:

  • To develop and validate a novel in vitro model for predicting clinical gastrointestinal toxicities.
  • To assess the utility of a multiparametric assay using human intestinal stem cell-derived cultures for early GIT detection.
  • To evaluate the model's accuracy in predicting diarrhea risk for marketed chemotherapeutics.

Main Methods:

  • Development of a multiparametric assay using the RepliGut® Planar system in a Transwell™ format.
  • Assessment of cell proliferation (EdU incorporation), cell abundance (DAPI quantification), and barrier function (TEER) in response to drug treatment.
  • Evaluation of 30 drugs with known clinical diarrhea incidence across three human donors.

Main Results:

  • The developed assay demonstrated reproducible responses of primary proliferative cells to chemotherapeutics at physiologic concentrations.
  • Highly accurate predictions of diarrhea potential were achieved for all endpoints: 91% (DAPI), 90% (EdU), and 88% (TEER).
  • Minimal variation was observed across different human donors, indicating model robustness.

Conclusions:

  • In vitro toxicity screening using primary proliferative cells offers a promising approach for improved drug safety evaluations.
  • This model can potentially reduce adverse events in clinical trials, leading to safer and more effective patient treatments.
  • Early detection of GITs through this advanced in vitro system supports optimized drug development pathways.