Bioengineering heart muscle: a paradigm for regenerative medicine
about
Microtissues in Cardiovascular Medicine: Regenerative Potential Based on a 3D MicroenvironmentIn vivo experience with natural scaffolds for myocardial infarction: the times they are a-changin'Programming and reprogramming a human heart cellEnhanced Electrical Integration of Engineered Human Myocardium via Intramyocardial versus Epicardial Delivery in Infarcted Rat HeartsInduced regeneration--the progress and promise of direct reprogramming for heart repair.The winding road to regenerating the human heartTheranostic mesoporous silica nanoparticles biodegrade after pro-survival drug delivery and ultrasound/magnetic resonance imaging of stem cells.Trichostatin A enhances differentiation of human induced pluripotent stem cells to cardiogenic cells for cardiac tissue engineeringCell therapy with embryonic stem cell-derived cardiomyocytes encapsulated in injectable nanomatrix gel enhances cell engraftment and promotes cardiac repair.Proteolysis regulates cardiomyocyte maturation and tissue integration.Engineered 3D bioimplants using elastomeric scaffold, self-assembling peptide hydrogel, and adipose tissue-derived progenitor cells for cardiac regeneration.Concise review: reprogramming strategies for cardiovascular regenerative medicine: from induced pluripotent stem cells to direct reprogrammingSpatiotemporal stability of neonatal rat cardiomyocyte monolayers spontaneous activity is dependent on the culture substrate.In vitro comparative study of two decellularization protocols in search of an optimal myocardial scaffold for recellularization.Postinfarction Functional Recovery Driven by a Three-Dimensional Engineered Fibrin Patch Composed of Human Umbilical Cord Blood-Derived Mesenchymal Stem CellsNeoinnervation and neovascularization of acellular pericardial-derived scaffolds in myocardial infarcts.Electroactive biomimetic collagen-silver nanowire composite scaffolds.Characterisation of Development and Electrophysiological Mechanisms Underlying Rhythmicity of the Avian Lymph Heart.The effect of controlled expression of VEGF by transduced myoblasts in a cardiac patch on vascularization in a mouse model of myocardial infarctionRegenerating new heart with stem cells.Three-dimensional elastomeric scaffolds designed with cardiac-mimetic structural and mechanical features.A novel native derived coronary artery tissue-flap model.The angiogenic properties of mesenchymal stem/stromal cells and their therapeutic potential.Embryonic wound healing: a primer for engineering novel therapies for tissue repair.Optimizing dynamic interactions between a cardiac patch and inflammatory host cells.Pluripotent stem cell-based heart regeneration: from the developmental and immunological perspectives.Amniotic fluid-derived stem cells for cardiovascular tissue engineering applications.Recent advances in heart regeneration.Cardiac regeneration: current therapies-future concepts.Cardiac tissue engineering: renewing the arsenal for the battle against heart disease.Myocardial tissue engineering: in vitro models.Tissue engineering bioreactor systems for applying physical and electrical stimulations to cells.Tissue engineering approaches to heart repair.Vascularization strategies for tissue engineers.Biomaterial Approaches for Stem Cell-Based Myocardial Tissue Engineering.Evolving targeted therapies for right ventricular failure.The Heart and Great Vessels.Fibrin, the preferred scaffold for cell transplantation after myocardial infarction? An old molecule with a new life.Nano-Enabled Approaches for Stem Cell-Based Cardiac Tissue Engineering.Human iPSC-derived cardiomyocytes and tissue engineering strategies for disease modeling and drug screening.
P2860
Q26748747-C7B00830-104F-4DA2-843E-286EEB4AD2B3Q26775715-46B83CCB-5A4B-4E32-81DF-A7CFDEAB47A3Q26823933-EF21D84D-A81D-48AA-B5CB-1940525034B9Q27303626-2B8CFD34-0510-4D1D-A3A6-982C34855B6AQ27687630-43FF30A5-4A1F-4F5E-8104-3FE98221BF68Q28081476-150062E6-950B-4C22-89E7-EB966CA4AE71Q30415766-DC6FDFE9-8ACF-4097-B089-65FFC5A6E340Q30543752-23401576-9193-4301-9BB8-9C5F34539450Q30596468-16EA28D3-0377-43E4-9CC3-EC1448B1496AQ30839692-6FABCDC9-BB71-4457-AA61-BA624797307AQ33758005-42332F8E-4288-4EA2-A49B-1CE6E14CFC30Q34408109-7017F5FF-7761-4E0F-9B0D-D5F2DE42E926Q35650031-8C86559D-05A5-4F3B-AB4F-6C42286AE297Q35662994-5BDB5503-0BA8-41BE-AE26-E48538351433Q35878873-CCC13C4B-19D1-4296-949F-2B4627C7546DQ35930186-5FBFA931-C419-4BFE-B942-94DF6A88B63EQ36069353-25A59C7B-ACC5-4DD8-B7EA-01F7CA571EE2Q36215900-60B56541-43D1-456D-8B27-E451FFD2C4D3Q36374351-DD9E24BA-500F-4C71-B128-320655E9C305Q36497191-F5AFF33F-E6D5-4489-BE16-8D20F4E7A105Q36593683-4B6329E1-B711-4B81-BC99-3EE21E4EBB17Q37323501-3D5FC2BA-5E7C-406F-A8D3-D9B46B2A9D88Q37348530-4E10BEE2-E002-4A99-88D5-245D917E9182Q37419850-5DF7EBD7-5B04-4106-A05D-2636367CEB31Q37945434-C680B4A9-A9F7-4132-83A6-7BB7AD14DC52Q37997987-63E60DAA-DDAE-4044-8A31-BC4F34BE8822Q38076751-2FDFD8AC-173B-48D3-80DA-0F488A41482DQ38147034-7A71F397-151F-4BF9-86F7-EB560DCAC517Q38164335-FF538607-1F5D-427F-9C94-588C0A3937DAQ38172390-D506A9DE-74B8-4DA5-907E-6053C61089D7Q38193042-45506C56-5E84-4314-9A5B-420B27E34984Q38244578-32F3AFD7-2917-48B8-8A3A-1DCF1B4AA0A5Q38322176-41FA72B7-9F3C-45FF-AEE5-376B65BFCF88Q38401902-A697B32E-80DD-4E0C-B5FB-BC75E42EFF00Q38519839-E2B8BE8E-CD2C-43C0-A3BC-6E60C7347CF7Q38559308-FA211497-35C0-4DE9-9783-AD2C69693EB5Q38746402-EDC6668F-8D26-4310-929D-200796998A49Q38802979-8E7367F6-A2EF-4EED-8545-1768A55F6E9AQ38839098-C57B1D01-8516-4705-9AF8-9D547680390AQ39050993-F2FFCA2E-0FB9-4DA4-8DB0-FE258D5F8AA3
P2860
Bioengineering heart muscle: a paradigm for regenerative medicine
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
2011年论文
@zh
2011年论文
@zh-cn
name
Bioengineering heart muscle: a paradigm for regenerative medicine
@ast
Bioengineering heart muscle: a paradigm for regenerative medicine
@en
type
label
Bioengineering heart muscle: a paradigm for regenerative medicine
@ast
Bioengineering heart muscle: a paradigm for regenerative medicine
@en
prefLabel
Bioengineering heart muscle: a paradigm for regenerative medicine
@ast
Bioengineering heart muscle: a paradigm for regenerative medicine
@en
P2860
P1476
Bioengineering heart muscle: a paradigm for regenerative medicine
@en
P2093
Kenneth R Chien
Nina Tandon
P2860
P304
P356
10.1146/ANNUREV-BIOENG-071910-124701
P407
P577
2011-08-01T00:00:00Z