This invention relates to the design and function of a compressible valve replacement prosthesis, collared or uncollared, which can be deployed into a beating heart without extracorporeal circulation using a transcatheter delivery system. The design as discussed focuses on the deployment of a device via a minimally invasive fashion and by way of example considers a minimally invasive surgical procedure preferably utilizing the intercostal or subxyphoid space for valve introduction. In order to accomplish this, the valve is formed in such a manner that it can be compressed to fit within a delivery system and secondarily ejected from the delivery system into the annulus of a target valve such as a mitral valve or tricuspid valve.

ECM based compositions including acellular ECM and antibiotics, and methods for employing same to treat damaged cardiovascular tissue and, thereby, disorders.

Compositions of the invention for regenerating defective or absent myocardium comprise an emulsified or injectable extracellular matrix composition. The composition may also include an extracellular matrix scaffold component of any formulation, and further include added cells, proteins, or other components to optimize the regenerative process and restore cardiac function.

This invention relates to the design and function of a compressible valve replacement prosthesis, collared or uncollared, which can be deployed into a beating heart without extracorporeal circulation using a transcatheter delivery system. The design as discussed focuses on the deployment of a device via a minimally invasive fashion and by way of example considers a minimally invasive surgical procedure preferably utilizing the intercostal or subxyphoid space for valve introduction. In order to accomplish this, the valve is formed in such a manner that it can be compressed to fit within a delivery system and secondarily ejected from the delivery system into the annulus of a target valve such as a mitral valve or tricuspid valve.

Methods for treating cardiovascular disorders that include administration of an ECM based composition to damaged cardiovascular tissue in conjunction with a treatment remedy, such as ventricular assistance and transmyocardial revascularization (TMR), which induces enhanced bioremodeling of the damaged cardiovascular tissue and regeneration of new cardiovascular tissue and associated structures with site-specific structural and functional properties.

A dry animal-derived collagen fiber tissue material and preparation method and bioprosthesis thereof are disclosed. The preparation method includes: 1) rinsing of an animal-derived collagen fiber tissue material that has been treated with a crosslinking agent; 2) immersion of the rinsed tissue material in a non-aqueous alcoholic solution for dehydration; 3) successive immersion of the tissue material that has been dehydrated with the non-aqueous alcoholic solution in saccharide solutions of different gradients of concentrations for gradient dehydration; 4) taking out and drying of the gradient dehydrated tissue material; and 5) hermetic packaging of the dried tissue material and sterilization. The preparation method is simple and allows the use of easily-available low-cost materials, resulting in lower costs. In addition, it can reduce the toxicity caused by a residue of the aldehyde crosslinking agent. The prepared biological tissue material is pliable and tough, less prone to bending or warping, has a water content that can be well controlled and better biocompatibility due to absence of polyhydric alcohol residues.

ECM based compositions including amniotic membrane and methods for employing same to treat cardiovascular disorders.

The present disclosure relates a modified SIS membrane for tissue repair, a preparation method therefor and a use thereof. Specifically provided are a composition comprising a fusion polypeptide-modified SIS membrane and an extracellular vesicle, as well as a preparation method for and a use of the composition. It is proved that the fusion polypeptide-mediated SIS membrane and the composition containing the SIS membrane and the extracellular vesicle have excellent biological functions, and provide a broad prospect for treating bone defects or facilitating tissue healing or bone regeneration.

The invention provides a decellularized tissue hydrogel cross-linked with a polyphenol, and a method of preparing a cross-linked decellularized tissue hydrogel, the method comprising the steps of: a) providing at least one decellularized tissue hydrogel; and b) cross-linking the at least one decellularized tissue hydrogel with a polyphenol.

A prosthetic atrioventricular tissue valve comprising a continuous tubular member formed from a first biocompatible material, the tubular member having proximal and distal ends, and at least one valve leaflet formed therein, the distal end of the tubular member including cardiovascular structure engagement means for connecting the tubular member to a cardiovascular structure, the cardiovascular structure engagement means comprising a plurality of elongated members that extend distally from the distal end of the tubular member.