Add to ORKGUnlike zebrafish and newt hearts, mammalian hearts have limited capacity to regenerate. Upon injury or disease, the adult mammalian hearts form a fibrotic scar. Recently, it was shown that neonatal mouse hearts can regenerate similarly to adult zebrafish hearts. However, this capacity quickly decreases after postnatal day 7 (P7). Understanding the molecular mechanisms underlying neonatal heart regeneration might lead to therapeutic approaches for regenerating adult mammalian hearts. In this study, we utilized an inducible transgenic mouse model to determine the effects of FGF10 growth factor over expression on neonatal mouse heart regeneration/repair. Over expression of FGF10 in myocardium enhanced the expansion of Wt1 positive epicardial c...
Background - Growth factors play an essential role in organogenesis. We examine the potential of gro...
In both humans and mice, Fibroblast Growth Factor (FGF) is upregulated following injury to the heart...
The hearts of lower vertebrates such as fish and salamanders display scarless regeneration following...
2013-04-29Cardiovascular disease is the number one cause of mortality worldwide and when not fatal c...
International audienceAims Promoting cardiomyocyte renewal represents a major therapeutic approach f...
International audienceEssential muscular organ that provides the whole body with oxygen and nutrient...
Whilst lower vertebrate species, such as newt and zebrafish, can regenerate their hearts following s...
SummaryZebrafish possess a unique yet poorly understood capacity for cardiac regeneration. Here, we ...
© The Author 2014. Aims Cardiomyocyte proliferation gradually declines during embryogenesis resultin...
Cardiac regeneration is a homeostatic cardiogenic process by which the sections of malfunctioning ad...
After myocardial infarction (MI) the human heart is unable to regenerate lost tissue, leading to sca...
SummaryThe mammalian heart has generally been considered nonregenerative, but recent progress sugges...
While a regenerative response is limited in the mammalian adult heart, it has been recently shown th...
Certain fish and amphibians retain a robust capacity for cardiac regeneration throughout life, but t...
Neonatal mice have been shown to regenerate their hearts during a transient window of time of approx...
Background - Growth factors play an essential role in organogenesis. We examine the potential of gro...
In both humans and mice, Fibroblast Growth Factor (FGF) is upregulated following injury to the heart...
The hearts of lower vertebrates such as fish and salamanders display scarless regeneration following...
2013-04-29Cardiovascular disease is the number one cause of mortality worldwide and when not fatal c...
International audienceAims Promoting cardiomyocyte renewal represents a major therapeutic approach f...
International audienceEssential muscular organ that provides the whole body with oxygen and nutrient...
Whilst lower vertebrate species, such as newt and zebrafish, can regenerate their hearts following s...
SummaryZebrafish possess a unique yet poorly understood capacity for cardiac regeneration. Here, we ...
© The Author 2014. Aims Cardiomyocyte proliferation gradually declines during embryogenesis resultin...
Cardiac regeneration is a homeostatic cardiogenic process by which the sections of malfunctioning ad...
After myocardial infarction (MI) the human heart is unable to regenerate lost tissue, leading to sca...
SummaryThe mammalian heart has generally been considered nonregenerative, but recent progress sugges...
While a regenerative response is limited in the mammalian adult heart, it has been recently shown th...
Certain fish and amphibians retain a robust capacity for cardiac regeneration throughout life, but t...
Neonatal mice have been shown to regenerate their hearts during a transient window of time of approx...
Background - Growth factors play an essential role in organogenesis. We examine the potential of gro...
In both humans and mice, Fibroblast Growth Factor (FGF) is upregulated following injury to the heart...
The hearts of lower vertebrates such as fish and salamanders display scarless regeneration following...