Add to ORKGNeonatal mice have been shown to regenerate their hearts during a transient window of time of approximately 1 week after birth. However, experimental evidence for this phenomenon is not undisputed, because several laboratories have been unable to detect neonatal heart regeneration. We first confirmed that 1-day-old neonatal mice are indeed able to mount a robust regenerative response after heart amputation. We then found that this regenerative ability sharply declines within 48 hours, with hearts of 2-day-old mice responding to amputation with fibrosis, rather than regeneration. By comparing the global transcriptomes of 1- and 2-day-old mouse hearts, we found that most differentially expressed transcripts encode extracellular matrix compone...
While a regenerative response is limited in the mammalian adult heart, it has been recently shown th...
Lower vertebrates, such as newt and zebrafish, retain a robust cardiac regenerative capacity followi...
Damage to the adult mammalian heart is irreversible, and lost cells are not replaced through regener...
Neonatal mice have been shown to regenerate their hearts during a transient window of time of approx...
Certain fish and amphibians retain a robust capacity for cardiac regeneration throughout life, but t...
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...
The regenerative capacity of adult human hearts afterinfarction seems vestigial at best, perhaps bec...
R egenerating the adult heart is by many standards theholy grail of modern cardiovascular medicine. ...
Adult humans fail to regenerate their hearts following injury, and this failure to regenerate myocar...
Rationale: Neonatal mice have the capacity to regenerate their hearts in response to injury, but thi...
The adult mammalian heart has an extremely limited capacity for regeneration. As a consequence, isch...
Aside from the first week postnatal, murine heart regeneration is restricted and responses to damage...
Background -The adult mammalian heart has limited ability to repair itself following injury. Zebrafi...
We recently identified a brief time period during postnatal development when the mammalian heart ret...
While a regenerative response is limited in the mammalian adult heart, it has been recently shown th...
Lower vertebrates, such as newt and zebrafish, retain a robust cardiac regenerative capacity followi...
Damage to the adult mammalian heart is irreversible, and lost cells are not replaced through regener...
Neonatal mice have been shown to regenerate their hearts during a transient window of time of approx...
Certain fish and amphibians retain a robust capacity for cardiac regeneration throughout life, but t...
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...
The regenerative capacity of adult human hearts afterinfarction seems vestigial at best, perhaps bec...
R egenerating the adult heart is by many standards theholy grail of modern cardiovascular medicine. ...
Adult humans fail to regenerate their hearts following injury, and this failure to regenerate myocar...
Rationale: Neonatal mice have the capacity to regenerate their hearts in response to injury, but thi...
The adult mammalian heart has an extremely limited capacity for regeneration. As a consequence, isch...
Aside from the first week postnatal, murine heart regeneration is restricted and responses to damage...
Background -The adult mammalian heart has limited ability to repair itself following injury. Zebrafi...
We recently identified a brief time period during postnatal development when the mammalian heart ret...
While a regenerative response is limited in the mammalian adult heart, it has been recently shown th...
Lower vertebrates, such as newt and zebrafish, retain a robust cardiac regenerative capacity followi...
Damage to the adult mammalian heart is irreversible, and lost cells are not replaced through regener...