The present invention concerns methods and compositions for gene therapy, in particular in vivo gene therapy for delivery of bioactive glial derived neurotrophic factor (GDNF) for the treatment of Parkinson's Disease. The invention also concerns mammalian cells capable of producing GDNF in increased amounts as well as the use of these cells for recombinant production of bioactive GDNF and for therapeutic use. The invention also includes a device that may be implanted in the cochlear of a patient that is capable of secreting GDNF.

The present invention concerns methods and compositions for gene therapy, in particular in vivo gene therapy for delivery of bioactive glial derived neurotrophic factor (GDNF) for the treatment of Parkinson's Disease. The invention also concerns mammalian cells capable of producing GDNF in increased amounts as well as the use of these cells for recombinant production of bioactive GDNF and for therapeutic use. The invention also includes a device that may be implanted in the cochlear of a patient that is capable of secreting GDNF.

The present disclosure concerns a composition for an implantable pharmaceutical composition prepared from components consisting only of calcium sulfate α-hemihydrate in combination with two antibiotics, vancomycin and tobramycin, for the treatment of infection in bone and soft tissue.

The present disclosure concerns a composition for an implantable pharmaceutical composition prepared from components consisting only of calcium sulfate α-hemihydrate in combination with two antibiotics, vancomycin and tobramycin, for the treatment of infection in bone and soft tissue.

The present invention provides a composition comprising fetal cartilage tissue-derived cells and a fetal cartilage tissue-derived extracellular matrix as active ingredients for regenerating a growth plate. The composition for regenerating a growth plate can inhibit bone bridge formation in a growth plate injury region without a scaffold and differentiate to a growth plate cartilage tissue to effectively fill and regenerate the injured region therewith, whereby the regenerated growth plate tissue can recover growth ability. In addition, the composition is compatible with and safe to biological tissues and is characterized by high reproducibility and homogeneity.

The present invention provides a composition comprising fetal cartilage tissue-derived cells and a fetal cartilage tissue-derived extracellular matrix as active ingredients for regenerating a growth plate. The composition for regenerating a growth plate can inhibit bone bridge formation in a growth plate injury region without a scaffold and differentiate to a growth plate cartilage tissue to effectively fill and regenerate the injured region therewith, whereby the regenerated growth plate tissue can recover growth ability. In addition, the composition is compatible with and safe to biological tissues and is characterized by high reproducibility and homogeneity.

Realized is reliable fixation of a material in a fluid state containing a monovalent metal salt of alginic acid when the material is applied to a subject. A combination of compositions comprising a first material composition containing a monovalent metal salt of alginic acid and a second material composition containing a cross-linking agent having an action of cross-linking the monovalent metal salt of alginic acid, wherein the combination is to be used in such a way as to apply the first material composition to a subject in a fluid state and contact the second material composition with the first material composition applied to the subject to gel at least a part of the first material composition, wherein the first material composition further contains a coloring component so that a formation state of a gel coat on a surface of the first material composition applied to the subject can be evaluated.

The invention is directed to compositions comprising a modified dextran and to uses thereof for the treatment of wounds in a subject or for delivering a protein, an olignonucleotide, a pharmaceutical agent, or a mixture thereof to a subject. The modified dextran in the compositions can form hydrogels via crosslinking.

Provided herein are methods of making degradable, additive-blended polymeric materials using microwave radiation and catalysts. The methods can include incorporation of therapeutic materials into the polymeric materials. There also are provided polymeric materials made by the methods and medical devices comprising the polymeric materials made by the methods.

Provided herein are methods of making degradable, additive-blended polymeric materials using microwave radiation and catalysts. The methods can include incorporation of therapeutic materials into the polymeric materials. There also are provided polymeric materials made by the methods and medical devices comprising the polymeric materials made by the methods.