Bone Turnover Markers from IDS
Abacus dx would like to update you with the range of bone turnover markers available from IDS.
Abacus dx would like to update you with the range of bone turnover markers available from IDS.
The IDS Cortisol assay is a fully automated CLIA assay for the quantitative determination of cortisol in human serum and plasma samples. Results are to be used in conjunction with other clinical and laboratory data to assist clinicians in the diagnosis and treatment of disorders of the adrenal gland.
Abacus dx would like to update you on our complete growth panel offering fully automated chemiluminescence assays which measure hGH, IGF-1 and IGFBP-3 from a single sample tube.
Products are for professional/laboratory use only.
A Pioneer in Calcium Metabolism Measurement
Immunodiagnostic Systems Limited offer a fully automated portfolio on the IDS-iSYS Multi-Discipline Automated System, for accurate calcium metabolism testing.
Fully automated assay for the quantitative determination of 1,25-dihydroxyvitamin D [1,25(OH)2D] in human serum on the IDS-iSYS platform. The results are used in conjunction with other
An automated assay for the quantitative determination of 17-OH Progesterone in human serum or plasma.
An automated assay for the quantitative determination of free testosterone in human serum or plasma. Measurement of testosterone is used in the diagnosis and treatment of disorders involving the male sex hormones (androgens), including primary and secondary hypogonadism, delayed or precocious puberty, impotence in males; in females hirsutism (excessive hair) and virilisation (masculinisation) due to tumours, polycystic ovaries, and adrenogenital syndromes.
The Ostase® BAP EIA Immunoenzymetric Assay is an in vitro device indicated for the quantitative measurement of bone-specific alkaline phosphatase (BAP), an indicator of osteoblastic activity in human serum.
Immunodiagnostic Systems (IDS) has released the IDS-iSYS Salivary Cortisol assay for use on the IDS-iSYS Multi-Discipline Automated System family.