Literature DB >> 24965886

Creating perfused functional vascular channels using 3D bio-printing technology.

Vivian K Lee1, Diana Y Kim1, Haygan Ngo1, Young Lee2, Lan Seo3, Seung-Schik Yoo4, Peter A Vincent5, Guohao Dai6.   

Abstract

We developed a methodology using 3D bio-printing technology to create a functional in vitro vascular channel with perfused open lumen using only cells and biological matrices. The fabricated vasculature has a tight, confluent endothelium lining, presenting barrier function for both plasma protein and high-molecular weight dextran molecule. The fluidic vascular channel is capable of supporting the viability of tissue up to 5 mm in distance at 5 million cells/mL density under the physiological flow condition. In static-cultured vascular channels, active angiogenic sprouting from the vessel surface was observed whereas physiological flow strongly suppressed this process. Gene expression analysis was reported in this study to show the potential of this vessel model in vascular biology research. The methods have great potential in vascularized tissue fabrication using 3D bio-printing technology as the vascular channel is simultaneously created while cells and matrix are printed around the channel in desired 3D patterns. It can also serve as a unique experimental tool for investigating fundamental mechanisms of vascular remodeling with extracellular matrix and maturation process under 3D flow condition.
Copyright © 2014 Elsevier Ltd. All rights reserved.

Entities:  

Keywords:  3D bio-printing; Hydrogel; Perfused vascularized tissue; Vascular channels

Mesh:

Substances:

Year:  2014        PMID: 24965886      PMCID: PMC4112057          DOI: 10.1016/j.biomaterials.2014.05.083

Source DB:  PubMed          Journal:  Biomaterials        ISSN: 0142-9612            Impact factor:   12.479


  50 in total

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Authors:  Lingling Zhao; Vivian K Lee; Seung-Schik Yoo; Guohao Dai; Xavier Intes
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6.  An optimized three-dimensional in vitro model for the analysis of angiogenesis.

Authors:  Martin N Nakatsu; Christopher C W Hughes
Journal:  Methods Enzymol       Date:  2008       Impact factor: 1.600

7.  Scaffold-free vascular tissue engineering using bioprinting.

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8.  On-demand three-dimensional freeform fabrication of multi-layered hydrogel scaffold with fluidic channels.

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9.  Human microvasculature fabrication using thermal inkjet printing technology.

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1.  Sacrificial Bioprinting of a Mammary Ductal Carcinoma Model.

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2.  Microfluidics Enabled Bottom-Up Engineering of 3D Vascularized Tumor for Drug Discovery.

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Journal:  ACS Nano       Date:  2017-06-19       Impact factor: 15.881

3.  Multicellular Vascularized Engineered Tissues through User-Programmable Biomaterial Photodegradation.

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4.  Robust fluidic connections to freestanding microfluidic hydrogels.

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Journal:  Biomicrofluidics       Date:  2015-05-20       Impact factor: 2.800

Review 5.  Inducing pluripotency in vitro: recent advances and highlights in induced pluripotent stem cells generation and pluripotency reprogramming.

Authors:  I K Rony; A Baten; J A Bloomfield; M E Islam; M M Billah; K D Islam
Journal:  Cell Prolif       Date:  2015-01-29       Impact factor: 6.831

Review 6.  Biofabrication of thick vascularized neo-pedicle flaps for reconstructive surgery.

Authors:  Chelsea J Stephens; Jason A Spector; Jonathan T Butcher
Journal:  Transl Res       Date:  2019-05-21       Impact factor: 7.012

Review 7.  Perfusion and endothelialization of engineered tissues with patterned vascular networks.

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Journal:  Nat Protoc       Date:  2021-05-24       Impact factor: 13.491

Review 8.  Bioengineered in vitro models of thrombosis: methods and techniques.

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10.  Bioprinted 3D vascularized tissue model for drug toxicity analysis.

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Journal:  Biomicrofluidics       Date:  2017-08-01       Impact factor: 2.800
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