A liquid pharmaceutical composition comprises methotrexate free acid and a buffer, wherein the pH of the composition is in the range of 6.5 to 8.2. Processes for preparation of the liquid pharmaceutical composition are also described. The liquid pharmaceutical composition is useful in therapy.

The invention provides methods for the ex-vivo expansion of CD4+CD25+ Tregs. The invention provides a method for producing ex vivo expanded Tregs that may be used to inhibit unwanted human immune responses against self-antigens or allergens. Additionally, the ex vivo expanded Tregs may provide treatment for inflammatory/autoimmune diseases.

The invention provides compositions comprising stem and/or progenitor cells that have been treated to enhance the therapeutic properties of the cells for treating ischemia. In particular, the present invention relates to the use of stem and/or progenitor cells having enhanced therapeutic properties to treat an ischemic tissue, a tissue damaged by ischemia, or at least one symptom associated with an ischemic tissue or a tissue damaged by ischemia.

The invention provides binding molecules, including antibody molecules which selectively bind to a cell surface antigen of a target cell, and wherein the binding molecules, on binding the cell surface antigen, induce cell death of the target cell. There is also provided methods of and pharmaceutical compositions for cell death induction and uses thereof.

Compounds of Formula I are described. They are useful as stimulators of sGC, particularly NO-independent, heme-dependent stimulators. These compounds may be useful for treating, preventing or managing various disorders that are herein disclosed.

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A variant of a parent polypeptide including an Fc region, which variant exhibits increased binding to FcRn as compared to the parent polypeptide and includes at least one amino acid modification in the Fc region.

The invention relates to the field of pharmaceutical formulations. More particularly, it is directed to homogeneous hydrogels comprising Fibroblast Growth Factor 18 (FGF-18) compound and to methods of producing such hydrogels. The hydrogels of the invention can be used, once formed in situ, for the treatment of cartilage disorders such as osteoarthritis or cartilage injury.

The invention provides methods for the ex-vivo expansion of CD4+CD25+ Tregs. The invention provides a method for producing ex vivo expanded Tregs that may be used to inhibit unwanted human immune responses against self-antigens or allergens. Additionally, the ex vivo expanded Tregs may provide treatment for inflammatory/autoimmune diseases.

The present application relates to CTLA4-Ig immunoadhesins that target CD80 and CD86, and their use, particularly for therapeutic purposes.

Described are methods of producing an autologous composition useful for treatment of damaged and/or injured connective tissues, chronic tendinosis, chronic muscle tears and/or chronic degenerative joint conditions and skin inflammatory disorders in a mammal. The method comprises preparing an anti-inflammatory/anti-catabolic component of the autologous composition comprising IL-1ra and TIMPs. An anti-inflammatory/anti-catabolic component is prepared comprising: collecting blood from the mammal; delivering the blood to a tube; incubating the blood at a temperature of from about 37° C. to about 39° C. for about 24 hours, preferably in the presence of sodium citrate; centrifuging the blood to separate the blood into a supernatant component and a cellular fraction; and collecting the supernatant component. The method further comprises preparing a regenerative component of the autologous composition comprising: collecting blood from the mammal; delivering the blood to a tube in the presence of about 4% citric acid; centrifuging the blood to separate a platelet-rich plasma component from a whole blood; collecting the platelet-rich plasma component; and mixing the supernatant component with the platelet-rich plasma component to provide the autologous composition. Also provided is a method of treating damaged and/or injured connective tissues, chronic tendinosis, chronic muscle tears and/or chronic degenerative joint conditions and skin inflammatory disorders in a subject with the autologous composition, an autologous composition for treating damaged and/or injured connective tissues, chronic tendinosis, chronic muscle tears and/or chronic degenerative joint conditions and skin inflammatory disorders in a mammal and the use of the autologous composition for the treatment of damaged and/or injured connective tissues, chronic tendinosis, chronic muscle tears and/or chronic degenerative joint conditions and skin inflammatory disorders in a mammal.