Cardiovascular disease (CVD), despite the advances of the medical field, remains one of the leading causes of mortality worldwide. Discovering novel treatments based on cell therapy or drugs is critical, and induced pluripotent stem cells (iPS Cells) technology has made it possible to design extensive disease-specific in vitro models. Elucidating the differentiation process challenged our previous knowledge of cell plasticity and capabilities and allows the concept of cell reprogramming technology to be established, which has inspired the creation of both in vitro and in vivo techniques. Patient-specific cell lines provide the opportunity of studying their pathophysiology in vitro, which can lead to novel drug development. At the same time,...
Cardiovascular cell therapy is a promising new field for the development of treatments for cardiovas...
Embryonic stem (ES) cells are naturally derived from early stage embryos and induced pluripotent ste...
Cardiovascular cell therapy is a promising new eld for the development of treatments for cardiovascu...
Cardiovascular disease (CVD) is the leading causes of morbidity and death globally. In particular, a...
The availability of appropriate and reliable in vitro cell models recapitulating human cardiovascula...
Cardiovascular diseases represent the major cause of morbidity and mortality worldwide. Multiple stu...
Reprogramming and transdifferentiation for cardiovascular development and regenerative medicine: whe...
Treatment of cardiovascular diseases remains challenging considering the limited regeneration capaci...
Heart disease remains a leading cause of mortality and a major worldwide healthcare burden. Recent a...
Treatment of cardiovascular diseases remains challenging considering the limited regeneration capaci...
The adult human heart can only adapt to heart diseases by starting a myocardial remodeling process t...
<p>The overall increase in cardiovascular diseases and, specifically, the ever-rising exposure...
Abstract Cardiovascular disease (CVD) continues to be the leading cause of global morbidity and mort...
Heart disease affects millions worldwide and is a progressive condition involving loss of cardiomyoc...
The recently disclosed plasticity properties of adult-derived stem cells, their ability to be reprog...
Cardiovascular cell therapy is a promising new field for the development of treatments for cardiovas...
Embryonic stem (ES) cells are naturally derived from early stage embryos and induced pluripotent ste...
Cardiovascular cell therapy is a promising new eld for the development of treatments for cardiovascu...
Cardiovascular disease (CVD) is the leading causes of morbidity and death globally. In particular, a...
The availability of appropriate and reliable in vitro cell models recapitulating human cardiovascula...
Cardiovascular diseases represent the major cause of morbidity and mortality worldwide. Multiple stu...
Reprogramming and transdifferentiation for cardiovascular development and regenerative medicine: whe...
Treatment of cardiovascular diseases remains challenging considering the limited regeneration capaci...
Heart disease remains a leading cause of mortality and a major worldwide healthcare burden. Recent a...
Treatment of cardiovascular diseases remains challenging considering the limited regeneration capaci...
The adult human heart can only adapt to heart diseases by starting a myocardial remodeling process t...
<p>The overall increase in cardiovascular diseases and, specifically, the ever-rising exposure...
Abstract Cardiovascular disease (CVD) continues to be the leading cause of global morbidity and mort...
Heart disease affects millions worldwide and is a progressive condition involving loss of cardiomyoc...
The recently disclosed plasticity properties of adult-derived stem cells, their ability to be reprog...
Cardiovascular cell therapy is a promising new field for the development of treatments for cardiovas...
Embryonic stem (ES) cells are naturally derived from early stage embryos and induced pluripotent ste...
Cardiovascular cell therapy is a promising new eld for the development of treatments for cardiovascu...