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Camille Marciniak

University of Lille - European Genomic Institute for Diabetes

France

SCHOLARLY PAPERS

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Scholarly Papers (1)

1.

A Single Dose of Oral Metformin Reduces the Post-Prandial Glucose Response Through a Transient Modulation of Apical Sodium-Glucose Co-Transporter

Number of pages: 40 Posted: 11 Oct 2019
University of Lille - European Genomic Institute for Diabetes, University of Lille - European Genomic Institute for Diabetes, University of Lille - Preclinical Imaging Core Facility, University of Lille - European Genomic Institute for Diabetes, University of Lille - European Genomic Institute for Diabetes, University of Lille - European Genomic Institute for Diabetes, University of Lille - European Genomic Institute for Diabetes, University of Lille - European Genomic Institute for Diabetes, University of Lille - European Genomic Institute for Diabetes, University of Lille - European Genomic Institute for Diabetes, University of Lille - European Genomic Institute for Diabetes, University of Lille - European Genomic Institute for Diabetes, University of Lille - European Genomic Institute for Diabetes, - Institute of Anatomy and Cell Biology, - Institute of Anatomy and Cell Biology, - Institute of Anatomy and Cell Biology, University of Lausanne - Center for Integrative Genomics, Catholic University of Louvain (UCL) - Metabolism and Nutrition Research Group, Catholic University of Louvain (UCL) - Metabolism and Nutrition Research Group, University of Lille - European Genomic Institute for Diabetes, University of Lille - European Genomic Institute for Diabetes, Columbia University - New York Nutrition Obesity Research Center, University of Lille - European Genomic Institute for Diabetes, University of Lille - Preclinical Imaging Core Facility, University of Lille - European Genomic Institute for Diabetes and University of Lille - European Genomic Institute for Diabetes
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Abstract:

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metformin, sodium-glucose transporter 1 (SGLT1), Caco-2/TC7 intestinal human cells, intestinal glucose absorption