Isolated antigen binding molecules that specifically bind to an anti-CD19 scFv comprising SEQ ID NO: 1 are provided. The antigen binding molecules can be used in the methods provided herein.

A lateral flow immunoassay for the detection of anti-drug antibodies against a biological drug includes a membrane having a capture area, a sample application area, a flow path from the sample application area to the capture area, and a conjugate area located in the flow path. The conjugate area has said biological drug detectably labeled and the capture area has said biological drug immobilized thereto.

The present invention provides antibodies and fragments thereof that specifically detect the complex of a specific cognate antigen-binding moiety, in particular antibodies, and its antigen. The antibodies of the present disclosure do not bind either said cognate antigen binding moiety or said antigen alone and this can be used e.g. to directly detect antigen-bound antigen-binding moieties. Further disclosed are methods for production and use of said antibodies and antibody fragments.

A carrier includes at least one take-up region based on a non-woven polyolefin containing dried-up capillary blood. The carrier is useful for semi-quantitatively, preferably quantitatively determining the concentration of an analyte in a blood sample. Further, a method is used for detecting an analyte in a blood sample and includes the steps of providing the carrier, applying a blood sample to the take-up region of the carrier, drying the carrier, contacting the carrier containing the dried-up capillary blood with a liquid which is suitable for taking up the analyte from the dried-up blood sample, and detecting the analyte in the liquid.

Isolated human monoclonal antibodies which bind to and inhibit human CD20, and related antibody-based compositions and molecules, are disclosed. The human antibodies can be produced by a transfectoma or in a non-human transgenic animal, e.g., a transgenic mouse, capable of producing multiple isotypes of human monoclonal antibodies by undergoing V-D-J recombination and isotype switching. Also disclosed are pharmaceutical compositions comprising the human antibodies, non-human transgenic animals and hybridomas which produce the human antibodies, and therapeutic and diagnostic methods for using the human antibodies.

Methods and reagents for multiplex detection of antibodies are disclosed. In particular, the invention relates to multiplex detection of antibodies using antigen-DNA and antibody-binding agent-DNA conjugates carrying DNA barcodes for identifying and quantitating disease-relevant antibody isotypes, such as those involved in allergic responses, autoimmune diseases, infections, and inflammation.

The present invention provides antibodies and fragments thereof that specifically detect the complex of a specific cognate antigen-binding moiety, in particular antibodies, and its antigen. The antibodies of the present disclosure do not bind either said cognate antigen binding moiety or said antigen alone and this can be used e.g. to directly detect antigen-bound antigen-binding moieties. Further disclosed are methods for production and use of said antibodies and antibody fragments.

Methods and kits for accurately detecting one or more analytes in a sample by removing non-specific binding signals utilizing capture and control microparticles. The capture microparticles can specifically bind to the analyte while the control microparticles do not specifically bind to the analyte but to the background molecules. Both capture and control microparticles are added to the sample under suitable conditions to allow binding between analytes and the microparticles. Detection agent is then added to bind to analytes and other substances captured by the microparticles. The microparticles are then run through a cytometry-based detection method, where detection signals from the capture and the control microparticles are distinguished. The differences between the detection signals from the capture and the control microparticles are obtained, which are then used to determine the presence and/or amounts of the analytes based on a previously determined relationship between such differences and known amount of the analyte.

Provided are methods for determining the presence or absence of donor specific antibodies in a biological sample. The methods include mixing a cellular sample from a donor with a biological sample from a recipient under conditions sufficient for recipient immune antibodies, if present, to bind to donor cell surface antigen (Ag) to form an immune antibody-Ag complex, contacting the mixture with beads comprising an antibody that specifically binds the immune antibody-Ag complex (e.g., the Ag or immune antibody) on a surface thereof, adding under lysis conditions a detectably-labeled antibody that specifically binds the immune antibody-Ag complex bound to the beads, and detecting the presence or absence of the detectably-labeled antibody bound to the immune antibody-Ag complex to determine the presence or absence of donor specific antibodies in the biological sample from the recipient. Systems and kits for practicing the subject methods are also provided.

In various embodiments methods are provided for identifying a mammal having an elevated risk for an adverse cardiac event (e.g. an MI) and/or determining the prognosis for the mammal. In certain embodiments the methods comprise determining, or causing to be determined, the presence and/or level of antibodies that bind a malondialdehyde acetaldehyde adduct (MAA adduct) in a biological sample from the mammal, where an elevated level of anti-MAA adduct antibodies, as compared to the level found in a normal healthy mammal is an indicator that that said mammal has one or more atherosclerotic lesions and/or is at elevated risk for a myocardial infarction.