Disclosed are an immunoassay method capable of highly sensitively measuring amyloid β in a blood sample, and a kit therefor. The immunoassay method for amyloid β is a method of immunoassay of amyloid β in a blood sample, wherein the immunoassay is carried out in the presence of an anionic polymer such as a dextran sulfate salt or a polystyrene sulfonic acid salt. The kit for immunoassay of amyloid β in a blood sample comprises: an anti-amyloid β antibody or an antigen-binding fragment thereof; and an anionic polymer.

Regardless of the type of specimen, such as a serum or heparinized plasma containing different anticoagulants, which are widely used in general, when a substance to be measured (for example, sIL-2R) in a biological sample is immunologically detected, a measuring method and a kit capable of stably obtaining with high accuracy, unaffected by interfering substances in the specimen, are provided. An immunocomplex between the substance to be measured and an antibody that specifically binds to the substance to be measured is formed in the presence of a sulfated polysaccharide. The kit comprises an antibody that specifically binds to the substance to be measured, and a buffer containing a sulfated polysaccharide.

The present invention relates to compounds and compositions that can be used in the treatment and diagnosis of anaemias, particularly haemolytic anaemias such as sickle cell anaemia. Methods of selecting such compounds and compositions are also provided.

The invention is directed to a competitive glucose binding affinity assay comprising a glucose receptor (typically mannan binding lectin) labeled with an assay fluorophore and a modified glucose analog (typically dextran) labeled with a reference fluorophore. In certain embodiments, the glucose analog is dextran and is coupled to both a reference fluorophore and a quencher dye (e.g. hexamethoxy crystalviolet-1). Optionally the reference fluorophore is blue shifted relative to the assay fluorophore.

The invention is directed to a competitive glucose binding affinity assay comprising a glucose receptor (typically mannan binding lectin) labeled with an assay fluorophore and a modified glucose analog (typically dextran) labeled with a reference fluorophore. In certain embodiments, the glucose analog is dextran and is coupled to both a reference fluorophore and a quencher dye (e.g. hexamethoxy crystalviolet-1). Optionally the reference fluorophore is blue shifted relative to the assay fluorophore.

The invention is directed to a competitive glucose binding affinity assay comprising a glucose receptor (typically mannan binding lectin) labeled with an assay fluorophore and a modified glucose analog (typically dextran) labeled with a reference fluorophore. In certain embodiments, the glucose analog is dextran and is coupled to both a reference fluorophore and a quencher dye (e.g. hexamethoxy crystalviolet-1). Optionally the reference fluorophore is blue shifted relative to the assay fluorophore.

The invention is directed to a competitive glucose binding affinity assay comprising a glucose receptor (typically mannan binding lectin) labeled with an assay fluorophore and a modified glucose analog (typically dextran) labeled with a reference fluorophore. In certain embodiments, the glucose analog is dextran and is coupled to both a reference fluorophore and a quencher dye (e.g. hexamethoxy crystalviolet-1). Optionally the reference fluorophore is blue shifted relative to the assay fluorophore.

A system and method of noise reduction in a blood panel testing comprising the steps of: drawing blood samples from a patient; and testing blood samples within a blood analyzer configured for noise reduction wherein the blood contacting surfaces of the blood panel testing platform have been activated and have been subsequently subject to wet chemistry treatment including enhancing the blood contacting surface of the blood analyzer with a wet chemistry treatment including an aqueous solution having a strong oxidizing agent; adding a positively charged spacer molecule to the blood contacting surface with a wet chemistry treatment including an aqueous solution having a cationic polymer; and covalently immobilizing heparin to the blood contacting surface of the blood analyzer with a wet chemistry treatment including heparin.

Methods, systems, compositions and kits are described for detecting cleaved glycans from a glycoconjugate. After labeling the glycan with a nucleic acid charged oligomer described herein, the labeled glycans can be separated under the influence of an electric field or based on their detectable tag and identified.

Regardless of the type of specimen, such as a serum or heparinized plasma containing different anticoagulants, which are widely used in general, when a substance to be measured (for example, sIL-2R) in a biological sample is immunologically detected, a measuring method and a kit capable of stably obtaining with high accuracy, unaffected by interfering substances in the specimen, are provided. An immunocomplex between the substance to be measured and an antibody that specifically binds to the substance to be measured is formed in the presence of a sulfated polysaccharide. The kit comprises an antibody that specifically binds to the substance to be measured, and a buffer containing a sulfated polysaccharide.