The present invention relates to alpha-1-microglobulin for use in the treatment of a mitochondria-related disease.

This invention relates to an alpha-1-microglobulin for use in prevention of contras medium nephropathy.

Systems and methods for purification and concentration of autologous alpha-2-macroglobulin (A2M) from whole blood are provided. Also provided are diagnostic methods for identifying sites in the synovial joints, spine, tendons or ligaments for treatment of pain, degeneration, or inflammation with autologous A2M. Methods for utilizing autologous A2M in combination with other autologous treatments (e.g. platelets and other growth factors) are provided in addition to combinations with exogenous drugs or carriers. Also provided is a method of producing recombinant A2M wild type or variants thereof where the bait region was modified to enhance the inhibition characteristics of A2M and/or to prolong the half life of the protein in joints and spine disc or epidural space.

Provided is a method for promoting wound healing, which comprises: administering a haptoglobin subunit to a subject in need thereof. Also provided is a method for promoting wound healing, which comprises: administering a modified haptoglobin subunit to a subject in need thereof, the modified haptoglobin subunit comprising an amino acid sequence selected from one of SEQ ID NOs: 1-3.

Methods and compositions for promoting donor-specific tolerance and immunocompetence to a recipient of a solid organ transplant, by implanting an allogeneic solid organ in a recipient in need of a solid organ transplant and further comprising surgical implantation of a tissue-engineered allogeneic cultured postnatal thymus tissue product in the recipient of a solid organ from a donor.

The inventors have unexpectedly discovered that shock and/or potential multi-organ failure due to shock can be effectively treated by administration of liquid high-dose protease inhibitor formulations to a location upstream of where pancreatic proteases are introduced into the gastrointestinal tract. Most preferably, administration is directly to the stomach, for example, via nasogastric tube under a protocol effective to treat shock by such administration without the need of providing significant quantities of the protease inhibitor to the jejunum and/or ileum.

Methods and compositions for treating and/or preventing aging-related conditions are described. The compositions used in the methods include blood plasma and blood plasma fractions derived from blood plasma with efficacy in treating and/or preventing aging-related conditions such as cognitive disorders. The methods relate to a regimen of pulsed dosing of blood plasma or blood plasma fractions.

Disclosed are hemoglobin-based oxygen carriers (HBOCs) that comprise a polymer-functionalized polymerized hemoglobin, such as a polyalkylene oxide (PAO)-functionalized polymerized hemoglobin, as well as compositions comprising these HBOCs (e.g., dissolved or dispersed in an aqueous carrier) and methods of making and using thereof.

This invention relates to .sub.1-microglobulin (A1M) for use in the diagnosis or treatment of malignancies requiring radionuclide diagnostics (RD), radionuclide therapy (RNT) or radioimmunotherapy (RIT), respectively, wherein A1M is used as a co-treatment to RD, RNT or RIT.

The present invention relates, in general, to a method of treating patients undergoing enzyme replacement therapy (ERT) or other therapy involving the administration of a proteinaceous therapeutic agent as well gene replacement therapy with non-viral or viral vectors, or other therapeutic modality or modalities, used alone or in combination, which involve the administration of exogenous substances for potential therapeutic benefit, including, but not limited to DNA vaccines, siRNA, splice-site switching oligomers (SSOs) as well as RNA-based nanoparticles (RNPs) and nanovaccines. The invention further relates to compounds and compositions suitable for use in such methods.