Aligned human microvessels formed in 3D fibrin gel by constraint of gel contraction

Kristen T. Morin; Annie O. Smith; George E. Davis; Robert T. Tranquillo

doi:10.1016/j.mvr.2013.07.010

Aligned human microvessels formed in 3D fibrin gel by constraint of gel contraction

Kristen T. Morin, Annie O. Smith, George E. Davis, Robert T. Tranquillo

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Abstract

This study aimed to form microvessels in fibrin gels, which is of interest both for studying the fundamental cell-matrix interactions as well as for tissue engineering purposes, and to align the microvessels, which would provide natural inlet and outlet sides for perfusion. The data reported here demonstrate the formation of highly interconnected microvessels in fibrin gel under defined medium conditions and the ability to align them using two methods, both of which involved anchoring the gel at both ends to constrain the cell-induced compaction. The first method used only defined medium and resulted in moderate alignment. The second method used defined and serum-containing media sequentially to achieve high levels of microvessel alignment.

Original language	English (US)
Pages (from-to)	12-22
Number of pages	11
Journal	Microvascular Research
Volume	90
DOIs	https://doi.org/10.1016/j.mvr.2013.07.010
State	Published - Nov 2013

Bibliographical note

Funding Information:
This work was supported by the National Institutes of Health [ R01 HL108670 to RTT]; and the American Heart Association [ 11PRE7610056 to KTM].

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title = "Aligned human microvessels formed in 3D fibrin gel by constraint of gel contraction",

abstract = "This study aimed to form microvessels in fibrin gels, which is of interest both for studying the fundamental cell-matrix interactions as well as for tissue engineering purposes, and to align the microvessels, which would provide natural inlet and outlet sides for perfusion. The data reported here demonstrate the formation of highly interconnected microvessels in fibrin gel under defined medium conditions and the ability to align them using two methods, both of which involved anchoring the gel at both ends to constrain the cell-induced compaction. The first method used only defined medium and resulted in moderate alignment. The second method used defined and serum-containing media sequentially to achieve high levels of microvessel alignment.",

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note = "Funding Information: This work was supported by the National Institutes of Health [ R01 HL108670 to RTT]; and the American Heart Association [ 11PRE7610056 to KTM]. ",

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Aligned human microvessels formed in 3D fibrin gel by constraint of gel contraction

Abstract

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