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A Method for High-Throughput Robotic Assembly of Three-Dimensional Vascular Tissue.

ABSTRACT: IMPACT STATEMENT:Self-assembled tissues have potential to serve both as implantable grafts and as tools for disease modeling and drug screening. For these applications, tissue production must ultimately be scaled-up and automated. Limited technologies exist for precisely manipulating self-assembled tissues, which are fragile early in culture. Here, we presented a method for automatically stacking self-assembled smooth muscle cell rings onto mandrels, using a custom-designed well plate and robotic punch system. Rings then fuse into tissue-engineered blood vessels (TEBVs). This is a critical step toward automating TEBV production that may be applied to other tubular tissues as well.

SUBMITTER: Nycz CJ 

PROVIDER: S-EPMC6760183 | biostudies-literature | 2019 Sep

REPOSITORIES: biostudies-literature

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A Method for High-Throughput Robotic Assembly of Three-Dimensional Vascular Tissue.

Nycz Christopher J CJ   Strobel Hannah A HA   Suqui Kathy K   Grosha Jonian J   Fischer Gregory S GS   Rolle Marsha W MW  

Tissue engineering. Part A 20190809 17-18

<h4>Impact statement</h4>Self-assembled tissues have potential to serve both as implantable grafts and as tools for disease modeling and drug screening. For these applications, tissue production must ultimately be scaled-up and automated. Limited technologies exist for precisely manipulating self-assembled tissues, which are fragile early in culture. Here, we presented a method for automatically stacking self-assembled smooth muscle cell rings onto mandrels, using a custom-designed well plate an  ...[more]

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