Siemens DCA Vantage - A Multipurpose Point-of-care AnalyzerMay 16th, 2018
Most Blood Gas Analyzers Suitable for Point-of-care TestingMay 14th, 2018
MEDICA 2018 - World Forum for Medicine
Düsseldorf, GermanyBooth No.: 3/D35-2
AACC Annual Scientific Meeting and Clinical Lab Expo
ChicagoBooth No.: 3849
Medlab - The World’s Largest Expo
DubaiBooth No.: Z5 G 42
MEDICA 2017 - World Forum for Medicine
Düsseldorf, GermanyBooth No.: 3/D35-2
69th AACC Annual Meeting and Clinical Lab Expo - July 30 - August 3, 2017
SAN DIEGO, CA, USA
Thanks to Block Scientific, I was able to procure the re-certified Bayer DCA 2000+ without hassles and get the lab back in operation. The
device works perfectly and I look forward to doing more business with Block Scientific.
--- Mathew Anderson, New Jersey
An enzyme immunoassay for the quantitative in vitro diagnostic measurement of active free cortisol (hydrocortisone and hydroxycorticosterone) in saliva. Measurements of cortisol are used in the diagnosis and treatment of disorders of the adrenal gland.
The hormone Cortisol is vital for several functions of the human body. A strong correlation exists between stress related conditions and Cortisol levels (1–3) Cortisol is a steroid hormone made in the adrenal glands. Among its important functions in the body include roles in the regulation of blood pressure and cardiovascular function as well as regulation of the body's use of proteins, carbohydrates, and fats. Cortisol secretion increases in response to any stress in the body, whether physical (such as illness, trauma, surgery, or temperature extremes) or psychological. When cortisol is secreted, it causes a breakdown of muscle protein, leading to release of amino acids into the bloodstream.
These amino acids are then used by the liver to synthesize glucose for energy, in a process called gluconeogenesis. This process raises the blood sugar level so the brain will have more glucose for energy. Cortisol also leads to the release of so-called fatty acids, an energy
source from fat cells, for use by the muscles. Taken together, these energy-directing processes prepare the individual to deal with stressors and ensure that the brain receives adequate energy sources (4).
Cortisol is the most potent glucocorticoid produced by the human adrenal (5-7). It is synthesized from cholesterol and its production is stimulated by pituitary adrenocorticotropic hormone (ACTH) which is regulated by corticotropin releasing factor (CRF). ACTH and CRF secretions are inhibited by high cortisol levels in a negative feedback loop. Cortisol acts
through specific intracellular receptors and affects numerous physiologic systems including immune function, glucose counter regulation, vascular tone, and bone metabolism.
Elevated cortisol levels and lack of diurnal variation have been identified with Cushing’s disease (ACTH hypersecretion). Elevated circulating cortisol levels have also been identified in patients with adrenal tumors. Low cortisol levels are found in primary adrenal insufficiency (e.g. adrenal hypoplasia, Addison’s disease) and in ACTH deficiency. Due to the normal
circadian variation in cortisol levels (8), distinguishing normal from abnormally low cortisol levels can be difficult, therefore several daily collections are recommended.
Saliva is an excellent medium to measure steroids because it is a natural ultra-filtrate of blood, and steroids not bound by carrier proteins in the blood freely diffuse into saliva. Only about 1-10% of the steroids in blood are in the unbound or free form, and it is this fraction that diffuses into target tissues of the body, and into saliva (9, 10). The majority (90-99%) of
steroid hormones in the blood are bound to carrier proteins (cortisol binding globulin, sex-hormone binding globulin and albumin) and are unavailable to target tissues.
The process of passive diffusion of non-bound (free) steroid hormones occurs because these small molecules are of a low molecular weight (less than 400 daltons) and are relatively nonpolar,
thus enabling them to freely diffuse from blood to saliva. Bound steroids are too large to diffuse freely through the salivary cells into the salivary gland lumen. (11-14).