Adrenaline-Sensitive
Highly sensitive enzyme immunoassay for the quantitative determination of Adrenaline in urine, plasma, cell culture samples, tissue homogenates and other biological fluids
Procedure
Sample Preparation 2 hours (Extraction & Acylation), ELISA incubation over night (15 – 20 h)
Characteristics
Highly sensitive ELISA
Small sample volume only (1 – 500 µl)
Sample stabilizer included
For research use only
Catecholamine is the name of a group of aromatic amines (noradrenaline, adrenaline, dopamine, and their derivatives) which act as hormones and neurotransmitter, respectively. Adrenaline and noradrenaline are formed from dopamine. They act on the cardiac musculature and the metabolism (adrenaline) as well as on the peripheral circulation (noradrenaline) and help the body to cope with acute and chronic stress.
An increased production of catecholamines can be found with tumours of the chromaffine system (pheochromocytoma, neuroblastoma, ganglioneuroma). An increased or decreased concentration of the catecholamines can also be found with hypertension, degenerative cardiac diseases, schizophrenia and manic-depressive psychosis.
The assay kit provides materials for the quantitative measurement of adrenaline in low concentrated samples and for small sample volumes. Adrenaline is extracted using a cis-diol-specific affinity gel and acylated to N-acyladrenaline and then converted enzymatically into N-acylmetanephrine.
The competitive Adrenaline-Sensitive-ELISA kit uses the microtitre plate format. Adrenaline is bound to the solid phase of the microtiter plate. Acylated catecholamine from the sample and solid phase bound catecholamine compete for a fixed number of antiserum binding sites. When the system is in equilibrium, free antigen and free antigenantiserum complexes are removed by washing. The antibody bound to the solid phase catecholamine is detected by anti-rabbit IgG / peroxidase. The substrate TMB / peroxidase reaction is monitored at 450 nm. The amount of antibody bound to the solid phase catecholamine is inversely proportional to the catecholamine concentration of the sample.