Methods of treating a tumor in a subject and methods of determining a treatment regimen for a subject with a tumor are provided herein. In exemplary aspects, the methods comprise measuring the level of expression of immunoglobulin, FCGR2B, a gene listed in Table 4, or a combination thereof. In exemplary aspects, the subject is a subject from which a sample was obtained, wherein the level of immunoglobulin, FCGR2B, a gene listed in Table 4, or a combination thereof, has been measured from the sample. Related kits, computer readable-storage media, systems, and methods implemented by a processor in a computer are further provided.

The present disclosure relates to an isolated anti-FcRN antibody, which is an antibody binding to FcRN (stands for neonatal Fc receptor, also called FcRP, FcRB or Brambell receptor) that is a receptor with a high affinity for IgG or a fragment thereof, a method of preparing thereof, a composition for treating autoimmune disease, which comprises the antibody, and a method of treating and diagnosing autoimmune diseases using the antibody. The FcRn-specific antibody according to the present disclosure binds to FcRn non-competitively with IgG to reduce serum pathogenic auto-antibody levels, and thus can be used for the treatment of autoimmune diseases.

The present invention relates to novel antibodies, in particular murine monoclonal antibodies, chimeric and humanized, that are able to block specifically the human IgG receptors FcγRIIIA (CD16A) and FcγRIIIB (CD16B) as well as the amino and nucleic acid sequences coding for such antibodies. The invention also comprises the use of such antibodies or of fragments thereof as a medicament for the preventive and/or therapeutic treatment of diseases involving CD16, like autoimmune diseases, inflammatory disorders, allergies and infections, without inducing any adverse effects. In particular, these antibodies and fragments can prevent or treat anti-drug idiopathic thrombocytopenic purpura (ITP), rheumatoid arthritis (RA) and autoimmune hemolytic anemia (ANA).

The present invention provides self-contained systems for performing an assay for determining a chemical state, the system including a stationary cartridge for performing the assay therein, at least one reagent adapted to react with a sample; and at least one reporter functionality adapted to report a reaction of the at least one reagent with said sample to report a result of the assay, wherein the at least one reagent, the sample and the at least one reporter functionality are contained within the cartridge.

An immunoassay for assisting in the diagnosis of sepsis or severe infection in a patient/subject, the assay comprising the steps of: (i) optionally contacting a test sample comprising neutrophils from the patient with an agent that permeabilises or solubilizes neutrophils; (ii) simultaneously with (i) or sequentially, contacting the sample with a binding agent that binds specifically to CD64 in the sample and forms a CD64-binding agent complex a; (iii) simultaneously with (i) and/or (ii) or sequentially, contacting the sample with a second binding agent that binds specifically to a neutrophil number marker (NNM) in the sample and forms a neutrophil marker-binding agent complex b; (iv) employ the amount of complex a and complex b to determine the relative level of CD46 and of NNM in the sample.

The present disclosure relates to an isolated anti-FcRn antibody, which is an antibody binding to FcRn (stands for neonatal Fc receptor, also called FcRP, FcRB or Brambell receptor) that is a receptor with a high affinity for IgG or a fragment thereof, a method of preparing thereof, a composition for treating autoimmune disease, which comprises the antibody, and a method of treating and diagnosing autoimmune diseases using the antibody. The FcRn-specific antibody according to the present disclosure binds to FcRn non-competitively with IgG to reduce serum pathogenic auto-antibody levels, and thus can be used for the treatment of autoimmune diseases.

The present invention relates to methods and kits to assess an absorbed dose of ionizing radiation and/or the severity of tissue injury from radiation in a patient. The invention also relates to algorithms used to calculate an absorbed dose of radiation based on biomarker measurements of a plurality of biomarkers that are altered relative to a normal control in the event of radiation exposure.

Disclosed are compositions and methods for measuring the likelihood of recovery of a recently thawed immune cell. Methods include assaying the level of an ADAM-17-cleaved surface receptor expressed on the immune cells, wherein the level of the surface receptor directly correlates with the likelihood of immune cell recovery (i.e., the greater the increase of the expression level an ADAM-17-cleaved surface receptor relative to a control, the greater the likelihood of recovery). The method can be used to determine if immune cells have sufficient viability to be used in immunotherapy before use.

The disclosure relates to antibodies specific to FcRn, formulations comprising the same, use of each in therapy, processes for expressing and optionally formulating said antibody, DNA encoding the antibodies and hosts comprising said DNA.

The invention provides methods of determining the neutrophil level in a sample by determining the level of CD16b, including the intracellular form of CD16b in a sample, such as a blood sample. The methods may further comprise the determination of lactate levels Also provided are associated diagnostic and therapeutic methods. Further provided are kits and devices for performing the methods, particularly lateral flow kits and devices.