Fabrication of PEGylated fibrinogen: a versatile injectable hydrogel biomaterial
I Mironi-Harpaz, A Berdichevski, D Seliktar - Cardiac Tissue Engineering …, 2014 - Springer
Hydrogels are one of the most versatile biomaterials in use for tissue engineering and
regenerative medicine. They are assembled from either natural or synthetic polymers, and …
regenerative medicine. They are assembled from either natural or synthetic polymers, and …
[引用][C] Hydrogels for cardiac tissue regeneration
K Shapira, D Dikovsky, M Habib… - Bio-medical …, 2008 - content.iospress.com
Our research is focused on the design of engineered biomaterials that can harness natural
cellular and molecular healing pathways to enhance functional tissue regeneration. Two …
cellular and molecular healing pathways to enhance functional tissue regeneration. Two …
Synthesis of aliphatic polyester hydrogel for cardiac tissue engineering
Despite clinical advances, ischemic heart disease continues to be a major cause of
morbidity and mortality worldwide. Prolonged cardiac ischemia and loss of cardiomyocytes …
morbidity and mortality worldwide. Prolonged cardiac ischemia and loss of cardiomyocytes …
Hydrogel scaffolds for regenerative medicine
EA Sander, ED Grassl, RT Tranquillo - Biomaterials and Regenerative …, 2014 - iro.uiowa.edu
IntroductionSome strategies in tissue engineering and regenerative medicine (TERM) rely
on the use of an appropriate biomaterial to guide and foster tissue repair and regeneration …
on the use of an appropriate biomaterial to guide and foster tissue repair and regeneration …
Fibrin gel as an injectable biodegradable scaffold and cell carrier for tissue engineering
Due to the increasing needs for organ transplantation and a universal shortage of donated
tissues, tissue engineering emerges as a useful approach to engineer functional tissues …
tissues, tissue engineering emerges as a useful approach to engineer functional tissues …
[图书][B] Cardiovascular tissue engineering based on fibrin-gel-scaffolds
S Jockenhoevel, TC Flanagan - 2011 - books.google.com
Cardiovascular disease is a major cause of death in the Western World. Novel drugs and
innovative devices have enhanced the quality of life for patients with cardiovascular disease …
innovative devices have enhanced the quality of life for patients with cardiovascular disease …
Matrix stiffness affects spontaneous contraction of cardiomyocytes cultured within a PEGylated fibrinogen biomaterial
K Shapira-Schweitzer, D Seliktar - Acta biomaterialia, 2007 - Elsevier
Successful implementation of cardiac cell transplantation for treating damaged myocardium
relies on the development of improved injectable biomaterials. A novel biomaterial …
relies on the development of improved injectable biomaterials. A novel biomaterial …
[HTML][HTML] Hydrogels for cardiac tissue engineering
Z Li, J Guan - Polymers, 2011 - mdpi.com
Cardiac tissue regeneration is an integrated process involving both cells and supporting
matrix. Cardiomyocytes and stem cells are utilized to regenerate cardiac tissue. Hydrogels …
matrix. Cardiomyocytes and stem cells are utilized to regenerate cardiac tissue. Hydrogels …
Injectable hydrogels for cardiac tissue engineering
In light of the limited efficacy of current treatments for cardiac regeneration, tissue
engineering approaches have been explored for their potential to provide mechanical …
engineering approaches have been explored for their potential to provide mechanical …
Rapid production of autologous fibrin hydrogels for cellular encapsulation in organ regeneration
Autologous hydrogel manufacture is an exciting technique within the field of regenerative
medicine. Fibrin is a protein with many biocompatible and regenerative features. The ability …
medicine. Fibrin is a protein with many biocompatible and regenerative features. The ability …