Dragging 3D printing technique controls pore sizes of tissue engineered blood vessels to induce spontaneous cellular assembly-Reference-Cited by-同舟云学术

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Dragging 3D printing technique controls pore sizes of tissue engineered blood vessels to induce spontaneous cellular assembly

Published:2024-01 Issue: Volume:31 Page:590-602
ISSN:2452-199X
Container-title:Bioactive Materials
language:en
Short-container-title:Bioactive Materials

Author:

Jeong Hun-Jin,Nam Hyoryung,Kim Jae-Seok,Cho Sungkeon,Park Hyun-Ha,Cho Young-Sam,Jeon Hyungkook,Jang Jinah,Lee Seung-Jae

Publisher

Elsevier BV

Subject

Biomedical Engineering,Biomaterials,Biotechnology

Reference56 articles.

1. 3D bioprinting of stem cell-laden cardiac patch: a promising alternative for myocardial repair;Das;Apl Bioeng,2021

2. Cardiovascular disease: an introduction;Thiriet;Biomath Biomech Mode,2018

3. "Heart disease and stroke statistics-2022 update: a report from the American heart association;Tsao;Circulation,2022

4. Ischemic heart disease: an update;Jensen;Semin. Nucl. Med.,2020

5. Risk factors for coronary artery disease: historical perspectives;Hajar;Heart Views,2017

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1. Recent advances in 3D bioprinting of tissues and organs for transplantation and drug screening;Virtual and Physical Prototyping;2024-08-05

2. Recent advances of electrospun nanofiber-enhanced hydrogel composite scaffolds in tissue engineering;Journal of Manufacturing Processes;2024-08

3. A Review on 3D Printing Processes in Pharmaceutical Engineering and Tissue Engineering: Applications, Trends and Challenges;Advanced Materials Technologies;2024-07-09

4. GelMA hydrogel: A game-changer in 3D tumor modeling;Materials Today Chemistry;2024-06

5. Development and performance evaluation of a novel elastic bacterial nanocellulose/polyurethane small caliber artificial blood vessels;International Journal of Biological Macromolecules;2024-05

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