Described herein are compositions and techniques for treatment of disease and conditions such as pulmonary arterial hypertension (PAH). Unlike palliative or preventive measures that do not address the abnormal vasculature causing onset of right ventricular compensation the use of stem cell-based therapy can directly impact the microvascular pathology in PAH, thereby reversing the course of the disease.

Described herein are compositions and techniques for treatment of disease and conditions such as pulmonary arterial hypertension (PAH). Unlike palliative or preventive measures that do not address the abnormal vasculature causing onset of right ventricular compensation the use of stem cell-based therapy can directly impact the microvascular pathology in PAH, thereby reversing the course of the disease.

Heart failure with preserved ejection fraction (HFpEF) is a disease condition characterized by heart failure (HF) signs and symptoms, but with normal or near normal left ventricular ejection fraction (LVEF) and is not responsive to standard therapy for treatment of HF. Described herein are compositions and methods related to use of cardiosphere derived cells (CDCs) and their exosomes to improve left ventricular structure, function and overall outcome. Administration of CDCs led to improved LV relaxation, lower LV end-diastolic pressure, decreased lung congestion and enhanced survival. Lower risk of arrhythmias in HFpEF was also observed following CDC administration. Improvement of diastolic dysfunction following administration of CDC-derived exosomes was observed, along with decreased mortality. In view of these salutary effects, CDCs and CDC-derived exosomes are beneficial in the treatment of HFpEF.

Heart failure with preserved ejection fraction (HFpEF) is a disease condition characterized by heart failure (HF) signs and symptoms, but with normal or near normal left ventricular ejection fraction (LVEF) and is not responsive to standard therapy for treatment of HF. Described herein are compositions and methods related to use of cardiosphere derived cells (CDCs) and their exosomes to improve left ventricular structure, function and overall outcome. Administration of CDCs led to improved LV relaxation, lower LV end-diastolic pressure, decreased lung congestion and enhanced survival. Lower risk of arrhythmias in HFpEF was also observed following CDC administration. Improvement of diastolic dysfunction following administration of CDC-derived exosomes was observed, along with decreased mortality. In view of these salutary effects, CDCs and CDC-derived exosomes are beneficial in the treatment of HFpEF.

Provided herein are methods and compositions for cardiac therapy. Such compositions include extracellular-matrix (ECM)-based products that can be used to support tissue repair. The compositions can be used for various purposes. In some cases, they can be introduced into a subject in order to preserve and/or repair damaged heart tissue.

Provided herein are methods and compositions for cardiac therapy. Such compositions include extracellular-matrix (ECM)-based products that can be used to support tissue repair. The compositions can be used for various purposes. In some cases, they can be introduced into a subject in order to preserve and/or repair damaged heart tissue.

Disclosed are a multilayered cell sheet of cardiac stem cells (CSCs) and a method of manufacturing the same. In particular, the present disclosure provides a method of manufacturing a multilayered cell sheet according to a single step culture procedure by using, as a three-dimensional matrix, a biodegradable natural polymer hydrogel and embedding CSCs in the hydrogel. The multilayered cell sheet of the present disclosure does not require any special device for the manufacturing, is manageable with good physicomechanical property, increases a cell engraftment rate after transplantation based on sufficient accumulation of various growth and protective factors and extracellular matrix between cells, and is also self-assembled by the cell-mediated hydrogel compaction, making nutrients transfer easy. Therefore, the multilayered cell sheet of the CSCs is expected to be usefully applicable as a therapeutic agent for myocardium regeneration.

Disclosed are a multilayered cell sheet of cardiac stem cells (CSCs) and a method of manufacturing the same. In particular, the present disclosure provides a method of manufacturing a multilayered cell sheet according to a single step culture procedure by using, as a three-dimensional matrix, a biodegradable natural polymer hydrogel and embedding CSCs in the hydrogel. The multilayered cell sheet of the present disclosure does not require any special device for the manufacturing, is manageable with good physicomechanical property, increases a cell engraftment rate after transplantation based on sufficient accumulation of various growth and protective factors and extracellular matrix between cells, and is also self-assembled by the cell-mediated hydrogel compaction, making nutrients transfer easy. Therefore, the multilayered cell sheet of the CSCs is expected to be usefully applicable as a therapeutic agent for myocardium regeneration.

The present invention provides a method for efficiently producing cardiomyocytes from pluripotent stem cells, which method comprises the steps of dissociating embryoid bodies obtained during the production process, and allowing reaggregation of the resulting cells to allow formation of embryoid bodies.

The present invention provides a method for efficiently producing cardiomyocytes from pluripotent stem cells, which method comprises the steps of dissociating embryoid bodies obtained during the production process, and allowing reaggregation of the resulting cells to allow formation of embryoid bodies.