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Literature DB >> 28634954

3D Anastomosed Microvascular Network Model with Living Capillary Networks and Endothelial Cell-Lined Microfluidic Channels.

Xiaolin Wang¹, Duc T T Phan², Steven C George³, Christopher C W Hughes^4,5,6, Abraham P Lee^7,8.

Abstract

This protocol describes detailed practical procedures for generating 3D intact and perfusable microvascular network that connects to microfluidic channels without appreciable leakage. This advanced 3D microvascular network model incorporates different stages of vascular development including vasculogenesis, endothelial cell (EC) lining, sprouting angiogenesis, and anastomosis in sequential order. The capillary network is first induced via vasculogenesis in a middle tissue chamber and then EC linings along the microfluidic channel on either side serve as artery and vein. The anastomosis is then induced by sprouting angiogenesis to facilitate tight interconnection between the artery/vein and the capillary network. This versatile device design and its robust construction methodology establish a physiological microcirculation transport model of interconnected perfused vessels from artery to vascularized tissue to vein.

Entities: Chemical Disease Gene Species

Keywords: 3D microvascular network; Anastomosis; EC lining; Microfluidic chip; Non-physiological leakage; Organ-on-a-chip; Sprouting angiogenesis; Vasculogenesis

Mesh：

Year: 2017 PMID： 28634954 PMCID： PMC7838062 DOI： 10.1007/978-1-4939-7021-6_24

Source DB: PubMed Journal: Methods Mol Biol ISSN： 1064-3745

21 in total

1. A bioengineered array of 3D microvessels for vascular permeability assay.

Authors: Hyunjae Lee; Sudong Kim; Minhwan Chung; Jeong Hun Kim; Noo Li Jeon
Journal: Microvasc Res Date: 2013-12-12 Impact factor: 3.514

Review 2. Advances in microfluidic cell culture systems for studying angiogenesis.

Authors: Edmond W K Young
Journal: J Lab Autom Date: 2013-07-05

3. Characterization of in vitro endothelial linings grown within microfluidic channels.

Authors: Mandy B Esch; David J Post; Michael L Shuler; Tracy Stokol
Journal: Tissue Eng Part A Date: 2011-09-06 Impact factor: 3.845

4. In vitro perfused human capillary networks.

Authors: Monica L Moya; Yu-Hsiang Hsu; Abraham P Lee; Christopher C W Hughes; Steven C George
Journal: Tissue Eng Part C Methods Date: 2013-02-21 Impact factor: 3.056

5. Microfluidic organs-on-chips.

Authors: Sangeeta N Bhatia; Donald E Ingber
Journal: Nat Biotechnol Date: 2014-08 Impact factor: 54.908

6. An on-chip microfluidic pressure regulator that facilitates reproducible loading of cells and hydrogels into microphysiological system platforms.

Authors: Christopher C W Hughes; Abraham P Lee; Xiaolin Wang; Duc T T Phan; Da Zhao; Steven C George
Journal: Lab Chip Date: 2016-03-07 Impact factor: 6.799

7. Integrating biological vasculature into a multi-organ-chip microsystem.

Authors: Katharina Schimek; Mathias Busek; Sven Brincker; Benjamin Groth; Silke Hoffmann; Roland Lauster; Gerd Lindner; Alexandra Lorenz; Ulrike Menzel; Frank Sonntag; Heike Walles; Uwe Marx; Reyk Horland
Journal: Lab Chip Date: 2013-09-21 Impact factor: 6.799

8. Engineering of functional, perfusable 3D microvascular networks on a chip.

Authors: Sudong Kim; Hyunjae Lee; Minhwan Chung; Noo Li Jeon
Journal: Lab Chip Date: 2013-04-21 Impact factor: 6.799

Review 9. Accelerating drug discovery via organs-on-chips.

Authors: Chung Yu Chan; Po-Hsun Huang; Feng Guo; Xiaoyun Ding; Vivek Kapur; John D Mai; Po Ki Yuen; Tony Jun Huang
Journal: Lab Chip Date: 2013-12-21 Impact factor: 6.799

10. A microfluidic platform for generating large-scale nearly identical human microphysiological vascularized tissue arrays.

Authors: Yu-Hsiang Hsu; Monica L Moya; Christopher C W Hughes; Steven C George; Abraham P Lee
Journal: Lab Chip Date: 2013-08-07 Impact factor: 6.799

6 in total

Review 1. Consensus guidelines for the use and interpretation of angiogenesis assays.

Authors: Patrycja Nowak-Sliwinska; Kari Alitalo; Elizabeth Allen; Andrey Anisimov; Alfred C Aplin; Robert Auerbach; Hellmut G Augustin; David O Bates; Judy R van Beijnum; R Hugh F Bender; Gabriele Bergers; Andreas Bikfalvi; Joyce Bischoff; Barbara C Böck; Peter C Brooks; Federico Bussolino; Bertan Cakir; Peter Carmeliet; Daniel Castranova; Anca M Cimpean; Ondine Cleaver; George Coukos; George E Davis; Michele De Palma; Anna Dimberg; Ruud P M Dings; Valentin Djonov; Andrew C Dudley; Neil P Dufton; Sarah-Maria Fendt; Napoleone Ferrara; Marcus Fruttiger; Dai Fukumura; Bart Ghesquière; Yan Gong; Robert J Griffin; Adrian L Harris; Christopher C W Hughes; Nan W Hultgren; M Luisa Iruela-Arispe; Melita Irving; Rakesh K Jain; Raghu Kalluri; Joanna Kalucka; Robert S Kerbel; Jan Kitajewski; Ingeborg Klaassen; Hynda K Kleinmann; Pieter Koolwijk; Elisabeth Kuczynski; Brenda R Kwak; Koen Marien; Juan M Melero-Martin; Lance L Munn; Roberto F Nicosia; Agnes Noel; Jussi Nurro; Anna-Karin Olsson; Tatiana V Petrova; Kristian Pietras; Roberto Pili; Jeffrey W Pollard; Mark J Post; Paul H A Quax; Gabriel A Rabinovich; Marius Raica; Anna M Randi; Domenico Ribatti; Curzio Ruegg; Reinier O Schlingemann; Stefan Schulte-Merker; Lois E H Smith; Jonathan W Song; Steven A Stacker; Jimmy Stalin; Amber N Stratman; Maureen Van de Velde; Victor W M van Hinsbergh; Peter B Vermeulen; Johannes Waltenberger; Brant M Weinstein; Hong Xin; Bahar Yetkin-Arik; Seppo Yla-Herttuala; Mervin C Yoder; Arjan W Griffioen
Journal: Angiogenesis Date: 2018-08 Impact factor: 9.596

Review 5. Replacement in angiogenesis research: Studying mechanisms of blood vessel development by animal-free in vitro, in vivo and in silico approaches.

Authors: Matthias W Laschke; Yuan Gu; Michael D Menger
Journal: Front Physiol Date: 2022-08-17 Impact factor: 4.755

Review 6. New artery of knowledge: 3D models of angiogenesis.

Authors: Eleonora Zucchelli; Qasim A Majid; Gabor Foldes
Journal: Vasc Biol Date: 2019-12-03