The present invention relates to compositions and methods for the treatment of infection caused by Streptococcus pneumonia. In particular, the invention provides human hyperimmune globulin and compositions thereof for preventing or treating pneumococcal infection. The invention provides methods of producing hyperimmune globulin containing high titers of opsonophagocytic anti-pneumococcal antibodies, compositions containing same, and methods of using the compositions for the prevention and treatment of pneumococcal infection. The invention further provides methods of preventing or treating pneumococcal infection (e.g., upper respiratory infections (e.g., bronchitis, otitis, sinusitis, etc.)) in immunocompromised subjects via administration of hyperimmune globulin compositions of the invention (e.g., containing a high titer of opsonophagocytic anti-pneumococcal antibodies) to immunocompromised subjects.

The present disclosure relates to a pharmaceutical highly efficient anti-TFPI antibody composition including an anti-TFPI antibody for treating hemophilia, in which the content of HCP in a drug substance is less than 10.0 ng/mg, and the content of LPA in the drug substance or the drug product is less than 1.0 ng/mg. According to the present disclosure, a highly efficient anti-TFPI antibody composition having very low contents of HCP and LPA may be provided by providing a separation/purification process capable of minimizing anti-TFPI antibody polymer generation, and may be effectively used for the treatment of antibody-induced hemophilia patients and for the prevention of blood coagulation disease.

The present invention relates to immunoglobulin (Ig) binding proteins comprising one or more Ig binding domains with amino acids selected from the group consisting at least of 1I, 11A, 11E, 11I, 35R, 35I, and 42L. The invention further relates to affinity matrices comprising the Ig binding proteins of the invention. The invention also relates to a use of these Ig binding proteins or affinity matrices for affinity purification of immunoglobulins and to methods of affinity purification using the Ig binding proteins of the invention.

The present invention is directed to antigen binding proteins including, but not limited to, monoclonal antibodies and antigen binding fragments thereof, that specifically bind to and preferably neutralize human cytomegalovirus (CMV). The antigen binding proteins of the invention are useful as a prophylactic and/or therapeutic agent for preventing and/or treating CMV infections in a patient in need thereof. Also encompassed by the invention are pharmaceutical compositions comprising the antigen binding proteins of the invention and a pharmaceutically acceptable carrier. The invention further relates to methods of using the antigen binding proteins and pharmaceutical compositions of the invention for the prevention or treatment of CMV infection in patients in need thereof.

The present invention concerns compositions and methods of use of anti-HLA-DR antibodies or fragments thereof. In preferred embodiments, the antibodies are subcutaneously administered to a human patient with a hematologic cancer or autoimmune disease. The subcutaneously administered anti-HLA-DR antibody is effective to treat hematologic cancer or autoimmune disease in patients that have relapsed from or are refractory to standard therapies for hematologic cancer or autoimmune disease, such as administration of anti-CD20 antibodies, such as rituximab.

The present invention relates to the field of protein purification. In particular, the invention concerns methods for increasing the filtration capacity of virus filters, by combined use of endotoxin removal and cation-exchange media in the prefiltration process.

A method of operating a chromatography column is described. This method involves collecting column outlet signal and accumulated flow parameters at two or more intervals of at least one mobile phase transition front during operation of the chromatography column comprising column packing. A model gamma cumulative distribution curve is calculated based on the collected column outlet signal and accumulated flow parameters for the at least one mobile phase transition front. A height equivalent theoretical plate (HETP) value is calculated for the at least one mobile phase transition front using parameters of the model gamma cumulative distribution curve and the quality of the chromatography column packing is assessed based on the calculated HETP value.

Described are compositions and methods for removing one or more host cell proteins from a mixture. The composition comprises one or more peptides wherein each peptide in the composition has a greater binding affinity for the one or more host cell proteins than for one or more target biomolecules.

Methods for viral clearance using low pH hold based on a statistical design of experiment are provided. Several factors are evaluated to characterize the impacts of a low pH hold step for virus inactivation, including the factors of pH conditions, conductivity conditions, protein type, temperature, acid titrant, spike timing, and post-spike filtration. In addition to the effect of pH on virus inactivation, an increase in ionic strength through manipulating the conductivity can be a key component that influences virus inactivation kinetics.

The invention provides a method for controlling contaminants in biopharmaceutical purification processes by using light scattering and UV absorbance to establish a determinant. The invention makes use of multi-angle light scattering (MALS) and UV as a continuous monitoring system to provide information about the elution peak fractions in real-time instead of conventional pooling methods that rely on a predetermined percent UV peak max value to initiate the pooling process; regardless of product quality.