Embodiments of the disclosure concern compositions and methods of use related to particular immortalized cells, including cardiac stem cells, obtained from a pediatric or neonatal individual. In specific embodiments, the immortalized cells, or conditioned medium from the cells, or partial or total secretomes thereof, are provided in an effective amount to an individual in need thereof either alone or in combination with cardiac stem cells.

Methods and compositions are disclosed for repair of shoulder injuries by employing disaggregated muscle fiber fragments to regenerate functional shoulder muscle tissue. In some embodiments, the fragments retain functional satellite cells but exhibit cell wall rupture and have an average size of less than 150 μm. The methods include the preparation and implantation of compositions by extracting muscle tissue from a donor site, disaggregating muscle fibers from the extracted tissue, and fragmenting disaggregated muscle fibers into fiber fragments that exhibit cell wall rupture and preferably have an average size of less than 150 microns, more preferable less than about 100 microns, while retaining functional satellite cells. Upon injection, e.g., into the supraspinatus or other rotator cuff muscles, the muscle fiber fragment compositions are capable of reconstituting or reconstructing elongated muscle fibers from the fragments and orienting in alignment with native shoulder muscle fibers.

Methods and compositions are disclosed for repair of shoulder injuries by employing disaggregated muscle fiber fragments to regenerate functional shoulder muscle tissue. In some embodiments, the fragments retain functional satellite cells but exhibit cell wall rupture and have an average size of less than 150 μm. The methods include the preparation and implantation of compositions by extracting muscle tissue from a donor site, disaggregating muscle fibers from the extracted tissue, and fragmenting disaggregated muscle fibers into fiber fragments that exhibit cell wall rupture and preferably have an average size of less than 150 microns, more preferable less than about 100 microns, while retaining functional satellite cells. Upon injection, e.g., into the supraspinatus or other rotator cuff muscles, the muscle fiber fragment compositions are capable of reconstituting or reconstructing elongated muscle fibers from the fragments and orienting in alignment with native shoulder muscle fibers.

Methods and compositions are disclosed for repair of shoulder injuries by employing disaggregated muscle fiber fragments to regenerate functional shoulder muscle tissue. In some embodiments, the fragments retain functional satellite cells but exhibit cell wall rupture and have an average size of less than 150 μm. The methods include the preparation and implantation of compositions by extracting muscle tissue from a donor site, disaggregating muscle fibers from the extracted tissue, and fragmenting disaggregated muscle fibers into fiber fragments that exhibit cell wall rupture and preferably have an average size of less than 150 microns, more preferable less than about 100 microns, while retaining functional satellite cells. Upon injection, e.g., into the supraspinatus or other rotator cuff muscles, the muscle fiber fragment compositions are capable of reconstituting or reconstructing elongated muscle fibers from the fragments and orienting in alignment with native shoulder muscle fibers.

Photosensitive cardiac rhythm modulation structures and systems are described. A genetically-engineered tissue comprising a population of pacing cells expressing a photosensitive membrane transport mechanism that is responsive to light of a particular wavelength(s) combined with one or more of a light source, a power generator, and a sensor provides pacemaker and/or defibrillator function to a subject. The systems further provide in vitro model systems for electrophysiological studies.

Photosensitive cardiac rhythm modulation structures and systems are described. A genetically-engineered tissue comprising a population of pacing cells expressing a photosensitive membrane transport mechanism that is responsive to light of a particular wavelength(s) combined with one or more of a light source, a power generator, and a sensor provides pacemaker and/or defibrillator function to a subject. The systems further provide in vitro model systems for electrophysiological studies.

Disclosed herein are methods for generating satellite cells and compositions including satellite cells.

Disclosed herein are methods for generating satellite cells and compositions including satellite cells.

Methods for generating high-yield, high-purity epicardial cells are described. Wnt/β-catenin signaling is first activated in human cardiac progenitor cells, by, for example, inhibiting Gsk-3 to induce differentiation into epicardial cells. Methods for long-term in vitro maintenance of human cardiac progenitor cell-derived epicardial cells and method comprising chemically defined, xeno-free, and albumin-free culture conditions are also provided.

Methods for generating high-yield, high-purity epicardial cells are described. Wnt/β-catenin signaling is first activated in human cardiac progenitor cells, by, for example, inhibiting Gsk-3 to induce differentiation into epicardial cells. Methods for long-term in vitro maintenance of human cardiac progenitor cell-derived epicardial cells and method comprising chemically defined, xeno-free, and albumin-free culture conditions are also provided.