Beckman Access II - A Reliable Benchtop Immunoassay AnalyzerFebruary 21st, 2018
Siemens Healthineers awarded FDA Clearance for Point-of-Care TestsFebruary 19th, 2018
AACC Annual Scientific Meeting and Clinical Lab Expo
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
The DRG Estrone ELISA Kit provides materials for the quantitative determination of Estrone in serum and plasma. This assay is intended for in vitro diagnostic use only.
Estrone (3-hydroxy-1,3,5 (10)-estratrien–17-one) is beside estradiol and estriol one of the three major naturally occuring estrogens. The estrogens are involved in the development of female sex organs and secondary sex characteristics. Bioassay data indicate that the estrogenic activity of estrone is considerably lower in comparison to estradiol (1). However, the physiological role of endogenous estrone is not well defined.
Estrone is produced primarily from androstenedione. In premenopausal women, more than 50% of the estrone is secreted by the ovary. In prepubertal children, men and postmenopausal women, the major portion of estrone is derived from peripheral tissue conversion (2). During the follicular phase of the menstrual cycle the estrone level increases with a clear peak around day 13. The peak is of short duration and by day 16 of the cycle levels will be low again. A second peak during the luteal phase occurs around day 21 of the cycle. If fertilization does not occur, production of estrone decreases again.
These changes of estrone concentration are in parallel to that of estradiol (3). Until the 4th to 6th week of pregnancy, estrone originates primarily from maternal sources such as the ovaries, adrenals, or peripheral conversion thus remaining within the normal values (4). After the 6th to 10th week of pregnancy the values increase gradually due to placental secretion of estrone. After menopause, estrone levels do not decline as dramatically as estradiol levels. In postmenopausal women estrone is the major estrogen. In males the concentration of E1 has been reported to rise up with age inversely to that of 17-OH-progesterone (5). In premenopausal women excessive estrone levels can result from the conversion of large amounts of androstenedione produced in polycystic ovary syndrome (6) and ovarian tumors.