A method of producing a cardiomyocyte population, the method comprising culturing a cell population containing cardiomyocytes seeded at a cell density of 0.1×10.sup.5 to 5.0×10.sup.5 cells/cm.sup.2 in a culture solution to proliferate the cardiomyocytes.

Cells derived from postpartum tissue and methods for their isolation and induction to differentiate to cells of a chondrogenic or osteogenic phenotype are provided by the invention. The invention further provides cultures and compositions of the postpartum-derived cells and products such as lysates related thereto. The postpartum-derived cells of the invention and products related thereto have a plethora of uses, including but not limited to research, diagnostic, and therapeutic applications, for example, in the treatment of bone and cartilage conditions such as osteoarthritis.

Preparations comprising an enriched population of extracellular vesicles (nEVs) having a negatively charged surface, and that are CD81+ and CD9−, are provided. Improved processes and methods for producing an enriched population of nEVs from non-murine cells, especially human origin cells and/or tissues, are disclosed. Therapeutic methods for using the preparations, including for reducing brain inflammation and treatment of various pathologies associated with brain inflammation, such as by intravenous or intranasal administration, are also described. Methods and preparations for reducing brain inflammation associated with traumatic brain injury (TBI) are also disclosed. A method for treating a patient having suffered a mild traumatic injury (mTMI), or concussion, such as a sports-related head injury, is also disclosed. The nEVs are also demonstrated to reduce the expression level of IL-Iβ in brain tissue of an animal having had traumatic brain injury. Methods for improving cognitive function and performance in animals after a traumatic brain injury is also demonstrated using the preparations of nEVs disclosed herein.

The present disclosure discloses methods for culturing stem cells in three-dimensional methods. Said method is either a spheroid-based method or a microcarrier-based method. The process as described herein leads to the expansion of the stem cells to obtain an expanded population of the stem cells, and a stem cell derived-conditioned medium. The present disclosure also discloses an expanded population of the stem cells, and a stem cell derived-conditioned medium obtained from the process as described herein. Further, an exosome preparation obtained from the stem cell derived-conditioned medium is also disclosed herein. The present disclosure also discloses a composition comprising an expanded population of the stem cells, or a stem cell derived-conditioned medium, or an exosome preparation, or combinations thereof. Methods of treatment using the composition as described herein is also disclosed in the present disclosure.

A method for obtaining a fraction of a fetal cell culture supernatant, including the steps of obtaining a cell-containing sample of tissue (such as cartilage) or (cord-)blood or bone marrow from a non-human mammalian fetus, culturing the sample in a liquid cell culture medium, thereby obtaining a cell culture with a liquid supernatant, and isolating a fraction from the supernatant. Furthermore, a fraction obtainable by this method is provided. A pharmaceutical composition including this fraction is also provided, preferably for use in therapy, such as for use in a prevention or treatment of osteoarthritis, arthritis, tendinitis, tendinopathy, cartilage injury, tendon injury, rheumatoid arthritis, discospondylitis, meniscus injury, desmitis, desmopathy, intervertebral disc injuries, degenerative disease of intervertebral discs, reperfusion injury, wounds or inflammatory disease.

Cells derived from postpartum placenta and methods for their isolation are provided by the invention. The invention further provides cultures and compositions of the placenta-derived cells. The placenta-derived cells of the invention have a plethora of uses, including but not limited to research, diagnostic, and therapeutic applications.

The present invention provides culture mediums that are useful for the expression of ADAMTS proteins, such as ADAMTS13. Methods for the expression and purification of ADAMTS proteins are also provided. In some embodiments, the mediums and methods of the invention are useful for the expression of ADAMTS proteins having high specific activities. Also provided are ADAMTS, e.g., ADAMTS13, protein compositions with high specific activities, which are expressed and purified according to the methods provided herein.

The present invention provides culture mediums that are useful for the expression of ADAMTS proteins, such as ADAMTS13. Methods for the expression and purification of ADAMTS proteins are also provided. In some embodiments, the mediums and methods of the invention are useful for the expression of ADAMTS proteins having high specific activities. Also provided are ADAMTS, e.g., ADAMTS13, protein compositions with high specific activities, which are expressed and purified according to the methods provided herein.

The present disclosure relates to compositions of daclizumab suitable for subcutaneous administration and methods of manufacturing thereof.

Provided are methods and systems for an enriched production of high-quality extracellular vesicles (EVs) from a mammalian cell. In some cases, the methods may comprise culturing the cell in a chemically-defined protein-free (CDPF) medium with the addition of a lysosome inhibitor to increase production of EVs. In some cases, the CDPF medium is supplemented with additives.