Journal Article10.1016/J.BIOMATERIALS.2016.10.026
3D printed complex tissue construct using stem cell-laden decellularized extracellular matrix bioinks for cardiac repair.
Jinah Jang,Hun-Jun Park,Seok-Won Kim,Heejin Kim,Ju Young Park,Soo Jin Na,Hyeon Ji Kim,Moon Nyeo Park,Seung Hyun Choi,Sun Hwa Park,Sung Won Kim,Sang-Mo Kwon,Pum-Joon Kim,Dong-Woo Cho +13 more
583
TL;DR: 3D printed pre-vascularized stem cell patch can enhance the therapeutic efficacy for cardiac repair through promotion of rapid vascularization after patch transplantation and provides cardiac niche-like microenvironment, resulting in beneficial effects on cardiac repair.
read more
About: This article is published in Biomaterials. The article was published on 01 Jan 2017. The article focuses on the topics: Stem-cell therapy & Stem cell.
read more
Chat with Paper
AI Agents for this Paper
Find similar papers on Google Scholar, PubMed and Arxiv
Write a critical review of this paper
Analyze citations of this paper to find unaddressed research gaps
Citations
Progress in 3D bioprinting technology for tissue/organ regenerative engineering
TL;DR: This review outlines recent progress in several bioprinting technologies used to engineer scaffolds with requisite mechanical, structural, and biological complexity and examines the process parameters affecting biop printing and bioink-biomaterials and concludes with the future perspective of biopprinting technology.
868
Recent trends in bioinks for 3D printing.
J. Gopinathan,Insup Noh +1 more
TL;DR: More tunable bioinks, which are biocompatible for live cells, printable and mechanically stable after printing are emerging with the help of functional polymeric biomaterials, their modifications and blending of cells and hydrogels.
Extracellular matrix-based materials for regenerative medicine
TL;DR: Challenges and opportunities of ECM biomaterials are investigated for the design of organotypic models to study disease progression, for the ex vivo creation of engineered tissue and for the clinical translation of functional tissue reconstruction strategies in vivo.
713
Decellularized extracellular matrix scaffolds: Recent trends and emerging strategies in tissue engineering
Henderson James Cleaves,Xuewei Zhang,Xi Chen,ODILON MONTEIRO DA SILVA NETO,Hua Hong,Rubei Hu,Jiashang Liu,Changsheng Liu +7 more
TL;DR: Recent developments in dECM scaffolds are reviewed and perspectives accordingly are put forward, with particular focus on the concept and fabrication of decellularized scaffolds, as well as the application of de cellularization scaffolds and their combinations with stem cells in tissue engineering.
456
Bioinks and bioprinting technologies to make heterogeneous and biomimetic tissue constructs.
Nureddin Ashammakhi,Nureddin Ashammakhi,Samad Ahadian,Chun Xu,Chun Xu,H. Montazerian,Hyojin Ko,Rohollah Nasiri,Rohollah Nasiri,Natan Roberto de Barros,Ali Khademhosseini +10 more
- 01 Jan 2019
TL;DR: This review highlights important advances in heterogeneous bioinks and bioprinting technologies to fabricate biomimetic tissue constructs and opportunities to further accelerate this research area are described.
450
References
Heart Disease and Stroke Statistics—2016 Update: A Report From the American Heart Association
Dariush Mozaffarian,Emelia J. Benjamin,Alan S. Go,Donna K. Arnett,Michael J. Blaha,Mary Cushman,Sandeep R Das,Sarah D. de Ferranti,Jean-Pierre Després,Heather J. Fullerton,Virginia J. Howard,Mark D. Huffman,Carmen R. Isasi,Monik C. Jiménez,Suzanne E. Judd,Brett M. Kissela,Judith H. Lichtman,Lynda D. Lisabeth,Simin Liu,Rachel H. Mackey,David J. Magid,Darren K. McGuire,Emile R. Mohler,Claudia S. Moy,Paul Muntner,Michael E. Mussolino,Khurram Nasir,Robert W. Neumar,Graham Nichol,Latha Palaniappan,Dilip K. Pandey,Mathew J. Reeves,Carlos J. Rodriguez,Wayne D. Rosamond,Paul D. Sorlie,Joel M. Stein,Amytis Towfighi,Tanya N. Turan,Salim S. Virani,Daniel Woo,Robert W. Yeh,Melanie B. Turner +41 more
TL;DR: Author(s): Writing Group Members; Mozaffarian, Dariush; Benjamin, Emelia J; Go, Alan S; Arnett, Donna K; Blaha, Michael J; Cushman, Mary; Das, Sandeep R; de Ferranti, Sarah; Despres, Jean-Pierre; Fullerton, Heather J; Howard, Virginia J; Huffman, Mark D; Isasi, Carmen R; Jimenez, Monik C; Judd, Suzanne
7.3K
Executive Summary: Heart Disease and Stroke Statistics--2016 Update: A Report From the American Heart Association.
Dariush Mozaffarian,Emelia J. Benjamin,Alan S. Go,Donna K. Arnett,Michael J. Blaha,Mary Cushman,Sandeep R Das,Sarah D. de Ferranti,Jean-Pierre Després,Heather J. Fullerton,Virginia J. Howard,Mark D. Huffman,Carmen R. Isasi,Monik C. Jiménez,Suzanne E. Judd,Brett M. Kissela,Judith H. Lichtman,Lynda D. Lisabeth,Simin Liu,Rachel H. Mackey,David J. Magid,Darren K. McGuire,Emile R. Mohler,Claudia S. Moy,Paul Muntner,Michael E. Mussolino,Khurram Nasir,Robert W. Neumar,Graham Nichol,Latha Palaniappan,Dilip K. Pandey,Mathew J. Reeves,Carlos J. Rodriguez,Wayne D. Rosamond,Paul D. Sorlie,Joel M. Stein,Amytis Towfighi,Tanya N. Turan,Salim S. Virani,Daniel Woo,Robert W. Yeh,Melanie B. Turner +41 more
TL;DR: Author(s): Writing Group Members; Mozaffarian, Dariush; Benjamin, Emelia J; Go, Alan S; Arnett, Donna K; Blaha, Michael J; Cushman, Mary; Das, Sandeep R; de Ferranti, Sarah; Despres, Jean-Pierre; Fullerton, Heather J; Howard, Virginia J; Huffman, Mark D; Isasi, Carmen R; Jimenez, Monik C; Judd, Suzanne
Molecular regulation of vessel maturation.
TL;DR: The maturation of nascent vasculature, formed by vasculogenesis or angiogenesis, requires recruitment of mural cells, generation of an extracellular matrix and specialization of the vessel wall for structural support and regulation of vessel function.
2.6K
Rapid casting of patterned vascular networks for perfusable engineered three-dimensional tissues
Jordan S. Miller,Kelly R. Stevens,Michael T. Yang,Brendon M. Baker,Duc-Huy T. Nguyen,Daniel M. Cohen,Esteban Toro,Alice A. Chen,Peter A. Galie,Xiang-Qing Yu,Ritika Chaturvedi,Sangeeta N. Bhatia,Sangeeta N. Bhatia,Christopher S. Chen +13 more
TL;DR: 3D printed rigid filament networks of carbohydrate glass are used as a cytocompatible sacrificial template in engineered tissues containing living cells to generate cylindrical networks which could be lined with endothelial cells and perfused with blood under high-pressure pulsatile flow.
Printing three-dimensional tissue analogues with decellularized extracellular matrix bioink
Falguni Pati,Jinah Jang,Dong-Heon Ha,Sung Won Kim,Jong Won Rhie,Jin-Hyung Shim,Deok Ho Kim,Dong-Woo Cho +7 more
TL;DR: The versatility and flexibility of the developed bioprinting process using tissue-specific dECM bioinks, including adipose, cartilage and heart tissues, capable of providing crucial cues for cells engraftment, survival and long-term function are shown.