High-Throughput Bioprinting Method for Modeling Vascular Permeability in Standard Six-well Plates with Size and Pattern Flexibility

1.9K views

07:41 min

August 16th, 2024

10.3791/66676-v

August 16th, 2024

1.9K views

We present a protocol for high-throughput production of vascular channels with flexible sizes and desired patterns on a standard six-well plate using 3D bioprinting technology, referred to as vessels-on-a-plate (VOP). This platform has the potential to advance the development of therapeutics for the disorders associated with compromised endothelium.

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Vascular Permeability

Chapters in this video

0:00

Introduction

1:12

Programming and Preparation of a 3D Bioprinter to Produce Vessels‐on‐a‐Plate (VOP) for Cell Culture

2:50

Fabrication of Vessels‐on‐a‐Plate (VOP) Platform Using a 3D Bioprinter to Facilitate Cell Culture

3:52

Hydrogel Preparation and Channel Embedding of a Vessels‐on‐a‐Plate (VOP) Platform for the Culture of Human Umbilical Vein Endothelial Cells (HUVEC)

4:51

Human Umbilical Vein Endothelial Cell (HUVEC) Endothelization of a Vessels‐on‐a‐Plate (VOP) Platform

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