The present invention provides recombinant adenoviral compositions and methods for their use in treating disorders associated with epithelial tissues.

The invention provides in certain embodiments, a method of generating a re-programmed differentiated epithelial cell comprising (a) contacting a non-stem somatic cell obtained from a subject with an effective amount of a de-differentiation agent to form a de-differentiated cell, and (b) transfecting the de-differentiated cell with an expression cassette comprising a promoter operably linked to a nucleic acid encoding a conversion agent to form a re-programmed differentiated cell. The invention also provides in certain embodiments, a method of generating a re-programmed differentiated epithelial cell comprising (a) contacting a non-stem somatic cell obtained from a subject with an effective amount of a de-differentiation agent to form a de-differentiated cell, and (b) contacting the de-differentiated cell with a conversion agent to form a re-programmed differentiated cell. The invention provides in certain embodiments, re-programmed differentiated epithelial cells, and methods of using these re-programmed differentiated epithelial cells to repair or re-generate tissue in vivo.

The present invention is directed to methods of inhibiting cancer cell growth or proliferation by contacting the cancer cell with an extracellular matrix (ECM) composition. Also provided are methods of delivering a chemotherapeutic agent to a cancer cell by contacting a cancer cell with an extracellular matrix composition containing a chemotherapeutic agent. Also provided are compositions containing ECM and a chemotherapeutic agent.

Systems and methods are provided including a housing configured to receive and engage a hollow tissue structure within a fluid chamber of the housing. A first pair of flow channels and a second pair of flow channels of the housing are fluidly coupled to the fluid chamber. The housing fluidly couples the first pair of flow channels and fluidly couples the second pair of flow channels via a second flow path such that a change in a fluid pressure differential between a first fluid in the first flow path and a second fluid in the second flow path deflects at least a portion of the hollow tissue structure causing a change in flow of the first fluid through the first pair of flow channels or a change in flow of the second fluid through the second pair of flow channels.

The present invention concerns a quasidystrophin (QD) having the structure CH1CH2H1R1R2R3H2R8R9 in its N-terminal part and advantageously further comprising the R16 and R17 rod domains, as well as the dual AAV vector system which allows producing it.

Provided herein are bovine cells that are adapted to grow in growth medium that contains low-serum or no serum and methods thereof. Also provided are food products made from bovine cells cultivated in vitro and methods for harvesting the cells.

The present disclosure provides solid collagen constructs and tissue compositions, wherein a polymerizable collagen solution or suspension is extruded in the presence or absence of cells to formed an aligned architecture comprising solid collagen constructs such as those made with fibrillar collagen. Methods of using and of manufacturing solid collagen constructs and tissue compositions, where the component collagen is solid fibrillar collagen and cells are preferentially aligned, are also provided.

A tissue graft for soft tissue repair or reconstruction comprising a sheet of a biopolymer-based matrix having a plurality of small perforations and a plurality of large perforations. The small perforations are sized to facilitate clotting and granulation tissue development within the perforations which, in turn, facilitates revascularization and cell repopulation in the patient. The large perforations are sized to reduce the occurrence of clotting and granulation tissue development within the perforations so that extravascular tissue fluids accumulating at the implant site can drain through the tissue graft. The large perforations enhance mammal tissue anchoring by permitting mammal tissue to compress into the perforations increasing mammal tissue contact area.

The present application relates to a use for cartilage regeneration and/or use for osteoarthritis treatment of a mesenchymal stem cell expressing TSG-6 protein. The present application provides a composition for cartilage regeneration and a pharmaceutical composition for osteoarthritis treatment, comprising a mesenchymal stem cell expressing TSG-6 protein as an active ingredient. The composition for cartilage regeneration and/or the pharmaceutical composition for osteoarthritis treatment provided by the present application can increase collagen expression of cartilage cells, reduce inflammation, and restore the cartilage structure.

Methods for generating human induced mesenchymal stem cells (iMSC) from human pluripotent stem cells, such as embryonic stem cells, are provided. Progenitors of iMSCs are first generated in a two-step protocol, with further differentiation to iMSCs accomplished by a third step culture. The iMSCs express mesenchymal surface markers and exhibit trilineage differentiation to adipocytes, osteocytes and chondrocytes. Culture media, methods of isolating extracellular vesicles from the iMSCs and kits are also provided.