Provided herein are methods of producing β cells and precursors thereof utilizing a Wnt signaling inhibitor or PKC activator, or both. Also provided herein are in vitro cultures comprising said cells, methods of treating a subject with a disease characterized by high blood sugar levels over a prolonged period of time by administering said cells, and devices for encapsulating said cells.

The present disclosure relates to compositions and methods for treating liver cancers, especially hepatocellular carcinoma, using antisense (AS) nucleic acids directed against Insulin-like Growth Factor 1 Receptor (IGF-1R). The AS may be administered to the patients systemically, or may be used to produce an autologous cancer cell vaccine. In embodiments, the AS are provided in an implantable irradiated biodiffusion chamber comprising tumor cells and an effective amount of the AS. The chambers are irradiated and implanted in the abdomen of subjects and stimulate an immune response that attacks tumors distally. The compositions and methods disclosed herein may be used to treat many different kinds of liver cancer.

The present invention relates to a pharmaceutical composition for preventing or treating liver diseases, comprising a bioimplant comprising mesenchymal stem cells, wherein the bioimplant comprising mesenchymal stem cells of the present invention can be inserted as a one-time subcutaneous or intraperitoneal implant in liver fibrosis animal models, to reduce the levels of AST and ALT, which are indicators of liver damage, as well as the ratio of an area occupied by collagen fibers in liver parenchyma, the number of degenerate hepatic cells, and the number of infiltrated inflammatory cells, and is effective in regenerating the liver, inhibiting liver fibrosis, and increasing the expression of growth factors, and thus can be beneficially used for preventing or treating liver diseases.

The present invention relates to methods for encapsulating pancreatic progenitors in a biocompatible semi-permeable encapsulating device. The present invention also relates to production of human insulin in a mammal in response to glucose stimulation.

Provided herein are methods of producing β cells and precursors thereof utilizing a Wnt signaling inhibitor or PKC activator, or both. Also provided herein are in vitro cultures comprising said cells, methods of treating a subject with a disease characterized by high blood sugar levels over a prolonged period of time by administering said cells, and devices for encapsulating said cells.

Provided herein are methods of producing β cells and precursors thereof utilizing a Wnt signaling inhibitor or PKC activator, or both. Also provided herein are in vitro cultures comprising said cells, methods of treating a subject with a disease characterized by high blood sugar levels over a prolonged period of time by administering said cells, and devices for encapsulating said cells.

A therapeutic composition comprising a purified fraction of adipose-derived mesenchymal stem cells encapsulated in a three-dimensional biocompatible gel matrix, and methods, and systems for preparing and using encapsulated adipose-derived mesenchymal stem cells. Hydrogel microbeads encapsulating stem cells maintain the viability and location of the stem cells for an extended period as compared to stem cells in suspension. The gel matrix allows the release of cellular factors from the encapsulated stem cells to surrounding tissues to achieve desired therapeutic results.

Biomedical devices for implantation with decreased pericapsular fibrotic overgrowth are disclosed. The device includes biocompatible materials and has specific characteristics that allow the device to elicit less of a fibrotic reaction after implantation than the same device lacking one or more of these characteristic that are present on the device. Biocompatible hydrogel capsules encapsulating mammalian cells having a diameter of greater than 1 mm, and optionally a cell free core, are disclosed which have reduced fibrotic overgrowth after implantation in a subject. Methods of treating a disease in a subject are also disclosed that involve administering a therapeutically effective amount of the disclosed encapsulated cells to the subject.

Implantable capsule comprising a cell receiving portion (2) comprising a porous membrane (5) surrounding a cell receiving chamber (13) for receiving immortalized cells in a liquid media therein for the secretion of therapeutic agents. The capsule further comprises a cell support matrix (7) inserted within the cell receiving chamber (13) configured for the arrangement of the immortalized cells within the cell receiving chamber.

Provided herein are methods of producing β cells and precursors thereof utilizing a Wnt signaling inhibitor or PKC activator, or both. Also provided herein are in vitro cultures comprising said cells, methods of treating a subject with a disease characterized by high blood sugar levels over a prolonged period of time by administering said cells, and devices for encapsulating said cells.