This invention concerns a process for making a lyophilized pharmaceutical formulation of a therapeutic protein, which comprises (a) providing a formulation of a bulk amount of the therapeutic protein, (b) measuring the concentration of the therapeutic protein in said bulk formulation, (c) adjusting the fill weight of the protein in said bulk formulation to achieve a fixed dose of the protein, and (d) lyophilizing the protein fill weight-adjusted formulation to achieve a final formulation in a container, wherein the product concentration post reconstitution with a fixed volume is within a predetermined acceptance range. The process is particularly suitable for formulations with low protein concentrations (e.g., 0.05 mg/mL to 20 mg/mL).

Myeloid function is enhanced by transplantation or infusion of allogeneic myeloid progenitor cells, including CMP, GMP, MEP and MKP cell subsets. Myeloid progenitors ameliorate sequelae of anemia and thrombocytopenia, and can prevent or treat gastrointestinal mucositis associated with chemotherapy, radiotherapy, and the like. The transplantation or infusion may be performed in the absence of HLA typing, and the cells may be mismatched at one or more Class I HLA loci. The transplantation may provide for treatment of ongoing disease, or prevention of disease in high risk patients.

Myeloid function is enhanced by transplantation or infusion of allogeneic myeloid progenitor cells, including CMP, GMP, MEP and MKP cell subsets. Myeloid progenitors ameliorate sequelae of anemia and thrombocytopenia, and can prevent or treat gastrointestinal mucositis associated with chemotherapy, radiotherapy, and the like. The transplantation or infusion may be performed in the absence of HLA typing, and the cells may be mismatched at one or more Class I HLA loci. The transplantation may provide for treatment of ongoing disease, or prevention of disease in high risk patients.

Methods and kits for mitigating lung injury in a subject treated with a targeted radiation therapy or otherwise exposed to radiation are described. In particular, an effective amount of a thrombopoietin mimetic, such as RWJ-800088 or romiplostim, is used to mitigate the radiation-induced lung injury.

The present invention relates to parenteral pharmaceutical compositions of suitable Hypoxia-Inducible Factor Prolyl Hydroxylase Inhibitor, particularly to Desidustat or suitable pharmaceutically acceptable salts thereof. The invention also relates to processes for preparing such compositions. The present invention also relates to the development of therapeutic compound for the treatment of radiation induced toxicity. Specifically, present invention relates to use of Desidustat or its pharmaceutically acceptable salt or oral and parenteral pharmaceutical composition thereof for the treatment of radiation induced toxicity.