The epicardium has been recognized as a source of cardiovascular progenitors during embryogenesis and postnatal life. In this issue of Cell Stem Cell, Chong et al. (2011) identify cardiac CFU-Fs as cardiac-resident cells of epicardial origin with broad multilineage differentiation potential
AbstractIdentification of multipotent cardiac progenitors has provided important insights into the m...
The non-muscular cells that populate the space found between cardiomyocyte fibers are known as 'card...
AbstractBackgroundAlthough efforts continue to find new therapies to regenerate infarcted heart tiss...
The epicardium has been recognized as a source of cardiovascular progenitors during embryogenesis an...
The epicardium is derived from the proepicardialorgan, a source of multipotent progenitor cells. Epi...
The clinical use of stem cells, such as bone marrow-derived and, more recently, resident cardiac ste...
AbstractMyocardial infarction (MI) leads to a severe loss of cardiomyocytes, which in mammals are re...
The discovery of stem and progenitor cells in the adult mammalian heart has added a vital dimension ...
The epicardium is the mono-layered epithelium that covers the outer surface of the myocardium from e...
The non-muscular cells that populate the space found between cardiomyocyte fibers are known as 'card...
<div><p>The non-muscular cells that populate the space found between cardiomyocyte fibers are known ...
The epicardium has emerged as a multipotent cardiovascular progenitor source with therapeutic potent...
The epicardium has emerged as a multipotent cardiovascular progenitor source with therapeutic potent...
Although efforts continue to find new therapies to regenerate infarcted heart tissue, knowledge of t...
AbstractPrevious studies have shown that during avian heart development, epicardial and coronary vas...
AbstractIdentification of multipotent cardiac progenitors has provided important insights into the m...
The non-muscular cells that populate the space found between cardiomyocyte fibers are known as 'card...
AbstractBackgroundAlthough efforts continue to find new therapies to regenerate infarcted heart tiss...
The epicardium has been recognized as a source of cardiovascular progenitors during embryogenesis an...
The epicardium is derived from the proepicardialorgan, a source of multipotent progenitor cells. Epi...
The clinical use of stem cells, such as bone marrow-derived and, more recently, resident cardiac ste...
AbstractMyocardial infarction (MI) leads to a severe loss of cardiomyocytes, which in mammals are re...
The discovery of stem and progenitor cells in the adult mammalian heart has added a vital dimension ...
The epicardium is the mono-layered epithelium that covers the outer surface of the myocardium from e...
The non-muscular cells that populate the space found between cardiomyocyte fibers are known as 'card...
<div><p>The non-muscular cells that populate the space found between cardiomyocyte fibers are known ...
The epicardium has emerged as a multipotent cardiovascular progenitor source with therapeutic potent...
The epicardium has emerged as a multipotent cardiovascular progenitor source with therapeutic potent...
Although efforts continue to find new therapies to regenerate infarcted heart tissue, knowledge of t...
AbstractPrevious studies have shown that during avian heart development, epicardial and coronary vas...
AbstractIdentification of multipotent cardiac progenitors has provided important insights into the m...
The non-muscular cells that populate the space found between cardiomyocyte fibers are known as 'card...
AbstractBackgroundAlthough efforts continue to find new therapies to regenerate infarcted heart tiss...
DOI
Add to ORKG