Tailoring mechanical properties of decellularized extracellular matrix bioink by vitamin B2-induced photo-crosslinking

Acta Biomaterialia
Jinah JangDong-Woo Cho

Abstract

We have developed two-step process that uses sequential vitamin B2-induced UVA crosslinking and thermal gelation to solidify decellularized extracellular matrix (dECM) bioink; this process enables tailoring of mechanical properties of 3D-printed bioconstructs. This is the first evaluation of vitamin B2 for use in 3D bioprinting. The developed printing process offers easy control of the width of printed lines, and can therefore ensure that functional living tissue in printed with high fidelity. Using a dECM bioink combination that mimics a native microenvironment, a bioconstruct was designed to match the biomechanical properties of native cardiac tissue. The printed bioconstruct supported high cell viability and active proliferation of cardiac progenitor cells, and ultimately increased cardiomyogenic differentiation. This printing strategy is an additional tool for regulating biomechanical cues, and therefore provides new approaches to dECM-based cell printing. 3D cell printing is an emerging strategy to create an engineered tissue construct by depositing biological components. The printable material used while printing cells is called "bioink"; to prevent cell damage during printing process. Recent development of printable tiss...Continue Reading

References

Oct 6, 1997·The EMBO Journal·D DurocherM Nemer
Apr 30, 2003·American Journal of Ophthalmology·Gregor WollensakTheo Seiler
Oct 3, 2003·Journal of Cataract and Refractive Surgery·Gregor WollensakTheo Seiler
Jul 11, 2006·Annual Review of Cell and Developmental Biology·Celeste M Nelson, Mina J Bissell
Aug 12, 2009·Biomaterials·Cyrille NorotteGabor Forgacs
Jul 16, 2010·Nature Medicine·Harald C OttJoseph P Vacanti
Dec 22, 2010·Journal of Cell Science·Paul A Janmey, R Tyler Miller
Jan 25, 2011·Trends in Biotechnology·Bertrand Guillotin, Fabien Guillemot
Feb 8, 2011·Biomaterials·Peter M CrapoStephen F Badylak
Jul 26, 2011·Biomaterials·Serina L J NgAndrew C A Wan
Apr 24, 2012·Tissue Engineering. Part a·Giancarlo ForteTakao Aoyagi
Jan 26, 2013·Journal of Tissue Engineering and Regenerative Medicine·Joydip KunduDong-Woo Cho
Apr 16, 2013·Nature Medicine·Jeremy J SongHarald C Ott
Sep 17, 2013·Advanced Materials·Jos MaldaDietmar W Hutmacher
Nov 5, 2013·Biomaterials·Sareh Rajabi-ZeletiNasser Aghdami
Jan 28, 2014·Biofabrication·Jung-Seob LeeDong-Woo Cho
Aug 6, 2014·Nature Biotechnology·Sean V Murphy, Anthony Atala
May 6, 2015·Journal of Visualized Experiments : JoVE·Adam C VandergriffKe Cheng
Jun 10, 2015·Biomaterials·Falguni PatiDong-Woo Cho
Dec 23, 2015·Journal of Materials Chemistry. B, Materials for Biology and Medicine·Michael BlatchleySharon Gerecht

❮ Previous
Next ❯

Citations

Feb 15, 2017·Journal of Biomedical Materials Research. Part B, Applied Biomaterials·Marek KaweckiAleksandra Kasperczyk
Dec 21, 2016·Advanced Healthcare Materials·Haitao CuiLijie Grace Zhang
Oct 7, 2017·Pediatric Research·Chin Siang OngNarutoshi Hibino
Dec 6, 2017·Advanced Healthcare Materials·Pradip Shahi ThakuriHossein Tavana
Jan 26, 2018·Advanced Healthcare Materials·Jonas C Rose, Laura De Laporte
Apr 11, 2018·Biomaterials Research·Janarthanan Gopinathan, Insup Noh
Jan 30, 2018·Stem Cells International·James N FisherLaura Mangiavini
Sep 6, 2018·Organogenesis·Lauren EdgarGiuseppe Orlando
Feb 5, 2019·Advanced Healthcare Materials·Donald Bejleri, Michael E Davis
Apr 24, 2019·Small·Serge OstrovidovAli Khademhosseini
Apr 16, 2016·Annals of Biomedical Engineering·Jeong Hun ParkDong-Woo Cho
Dec 19, 2019·Artificial Cells, Nanomedicine, and Biotechnology·Qing YaoYing-Zheng Zhao
Dec 8, 2019·Biomolecules·Stefania CroceLorenzo Cobianchi
Feb 12, 2020·Advanced Materials·Riccardo LevatoJos Malda
May 1, 2020·Advanced Healthcare Materials·Xiaolin CuiTim Woodfield
Sep 2, 2016·Biomaterials Research·Jangwook P JungBrenda M Ogle
Jul 22, 2020·Advanced Healthcare Materials·Alperen Abaci, Murat Guvendiren
Aug 1, 2020·Small·Amin GhavamiNejadAli Khademhosseini
Jul 9, 2020·American Journal of Physiology. Cell Physiology·Chiara ScognamiglioGianluca Cidonio
Sep 27, 2020·International Journal of Molecular Sciences·Tullio GenovaFederico Mussano
Apr 21, 2017·Frontiers in Bioengineering and Biotechnology·Shen Ji, Murat Guvendiren
Sep 28, 2017·Bioengineering·Hee-Gyeong YiDong-Woo Cho
Jan 27, 2019·Bioengineering & Translational Medicine·Yu Seon KimAntonios G Mikos
Apr 30, 2019·Small·Marcel Alexander HeinrichYu Shrike Zhang
Apr 8, 2020·Journal of Materials Chemistry. B, Materials for Biology and Medicine·Jaewook KimJinah Jang
Jun 1, 2018·BioMed Research International·Chin Siang OngNarutoshi Hibino
Dec 14, 2018·Bio-design and Manufacturing·Elisabeth L GillYan Yan Shery Huang
Apr 10, 2019·Polymers·Julian A SernaJuan C Cruz
Nov 16, 2019·Magnetic Resonance in Medicine : Official Journal of the Society of Magnetic Resonance in Medicine·Daniel Andrzej SzulcHai-Ling Margaret Cheng
Jun 15, 2019·Advanced Materials·Jingchao LiKanyi Pu
Nov 20, 2019·Annals of Biomedical Engineering·Madeline C Cramer, Stephen F Badylak
May 12, 2020·Tissue Engineering. Part C, Methods·Robert A PouliotRebecca L Heise
Apr 14, 2018·Tissue Engineering. Part B, Reviews·Kyung Min ParkHeungsoo Shin
Feb 13, 2018·Annual Review of Physiology·Viola Vogel
Jul 21, 2017·Scientific Reports·Serena DuchiPeter F M Choong
Dec 17, 2016·Tissue Engineering and Regenerative Medicine·Ji Eun KimYoungmee Jung
Feb 28, 2019·Journal of Tissue Engineering and Regenerative Medicine·Swati MidhaSujata Mohanty

❮ Previous
Next ❯

Related Concepts

Related Feeds

Adult Stem Cells

Adult stem cells reside in unique niches that provide vital cues for their survival, self-renewal, and differentiation. They hold great promise for use in tissue repair and regeneration as a novel therapeutic strategies. Here is the latest research.

Cardiac Regeneration

Cardiac regeneration enables the repair of irreversibly damaged heart tissue using cutting-edge science, including stem cell and cell-free therapy. Discover the latest research on cardiac regeneration here.