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Pumpless Multi-Channel Flow Culture to Maintain and Assess Tissues and Cells

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Author Spotlight: Advancing Eye Physiology Research via a Multi-Channel Flow Culture for Optimal Tissue Maintenance and Real-Time Assessment

JoVE Journal
Bioengenharia

This content is Free Access.

JoVE Journal Bioengenharia

Maintaining and Assessing Various Tissue and Cell Types of the Eye Using a Novel Pumpless Fluidics System

Author Spotlight: Advancing Eye Physiology Research via a Multi-Channel Flow Culture for Optimal Tissue Maintenance and Real-Time Assessment

Pumpless Multi-Channel Flow Culture to Maintain and Assess Tissues and Cells

DOI:

10.3791/65399-v

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02:10 min

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July 14, 2023

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Matthew K. Grumbine, Varun Kamat, Khang Bao, Trevor Crupi, Kedar Mokate, Rayne Lim, Jennifer R. Chao, Brian M. Robbings, Daniel T. Hass, James B. Hurley, Ian R. Sweet²

¹EnTox Sciences, Inc, ²UW Medicine Diabetes Institute,University of Washington, ³Department of Ophthalmology,University of Washington, ⁴Department of Biochemistry,University of Washington

Tags

Cell Culture Oxygen Consumption Metabolic Measurement Pumpless Fluidics Flow System Retinal Function Retinal Disease In Vitro Models Metabolite Analysis Hormone Secretion

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