Add to ORKGThe inability of the human heart to effectively repair itself after acute ischaemic injury has driven the search for efficacious means of promoting cardiac regenerative growth. Central to this has been the emergence of cell-based strategies to stimulate and augment both myocardial regeneration and neovascularization. Autologous cell transplantation of a variety of adult progenitor cells has been taken forward in clinical trials and, in parallel, investigators have begun to focus on the activation of resident cardiac cell populations as a means to stimulate endogenous repair. The latter approach depends on characterizing native progenitors with self-renewal, clonality, multipotency and arguably an analogous embryological counterpart. Recentl...
Survival rates following myocardial infarction have increased in recent years but current treatments...
AbstractMyocardial infarction (MI) is one of the leading causes of morbidity and mortality world-wid...
Induced pluripotent stem cells (iPSC) constitute a powerful tool to study cardiac physiology and rep...
The inability of the human heart to effectively repair itself after acute ischaemic injury has drive...
Ischemic heart disease complicated by coronary artery occlusion causes myocardial infarction (MI), w...
Efficient cardiac regeneration postinfarction (MI) requires the replacement of lost cardiomyocytes, ...
The epicardium has, like the other cell lineages of the terminally differentiated adult heart, long ...
Efficient cardiac regeneration postinfarction (MI) requires the replacement of lost cardiomyocytes, ...
Efficient cardiac regene ration postinfarction (MI) requires the replacement of lost cardiomyocytes,...
Cardiovascular disease remains the major cause of mortality, and cardiac cell therapy has recently e...
While cardiovascular diseases remain the major worldwide cause of mortality and morbidity, there is ...
Cardiac failure has a principal underlying aetiology of ischaemic damage arising from vascular insuf...
A significant bottleneck in cardiovascular regenerative medicine is the identification of a viable s...
Despite recent improvements in interventional medicine, cardiovascular disease still represents the ...
Advances in pharmacological and interventional strategies for the treatment of ischaemic heart disea...
Survival rates following myocardial infarction have increased in recent years but current treatments...
AbstractMyocardial infarction (MI) is one of the leading causes of morbidity and mortality world-wid...
Induced pluripotent stem cells (iPSC) constitute a powerful tool to study cardiac physiology and rep...
The inability of the human heart to effectively repair itself after acute ischaemic injury has drive...
Ischemic heart disease complicated by coronary artery occlusion causes myocardial infarction (MI), w...
Efficient cardiac regeneration postinfarction (MI) requires the replacement of lost cardiomyocytes, ...
The epicardium has, like the other cell lineages of the terminally differentiated adult heart, long ...
Efficient cardiac regeneration postinfarction (MI) requires the replacement of lost cardiomyocytes, ...
Efficient cardiac regene ration postinfarction (MI) requires the replacement of lost cardiomyocytes,...
Cardiovascular disease remains the major cause of mortality, and cardiac cell therapy has recently e...
While cardiovascular diseases remain the major worldwide cause of mortality and morbidity, there is ...
Cardiac failure has a principal underlying aetiology of ischaemic damage arising from vascular insuf...
A significant bottleneck in cardiovascular regenerative medicine is the identification of a viable s...
Despite recent improvements in interventional medicine, cardiovascular disease still represents the ...
Advances in pharmacological and interventional strategies for the treatment of ischaemic heart disea...
Survival rates following myocardial infarction have increased in recent years but current treatments...
AbstractMyocardial infarction (MI) is one of the leading causes of morbidity and mortality world-wid...
Induced pluripotent stem cells (iPSC) constitute a powerful tool to study cardiac physiology and rep...