Assessment of the Androstenedione Assay on a Roche Analytical Platform and Comparison with Different Methods.

BACKGROUND: D4-androstenedione (D4ASD) is an intermediate hormone of androgen biosynthesis by the gonads and the adrenal glands. The interest in D4ASD concentration assessment resides in diagnostics of androgenic hyperproduction pathologies. Currently, many D4ASD quantification methods are available on the market including immunological methods that remain problematic due to the possible cross-reactivity with endogenous or exogenous steroids. METHODS: Recently Roche® launched a new fully automated instrument for the measurement of D4ASD concentration. In this paper, the criteria of analytical performance (repeatability and intermediate precision) of the D4ASD Roche® assay were assessed and compared with 2 different methods including a radioimmunoassay (RIA) as well as a liquid chromatography tandem mass spectrometry (LC-MS/MS) method. RESULTS: Repeatability and intermediate precision of the D4ASD Roche® were acceptable according to the prede-fined RICOS standard (CV ≤ 7.9%) and the assay showed a good correlation with other assays considering the 95% CI obtained for the slope and the y-intercept. CONCLUSIONS: This method demonstrates acceptable criteria of analytical performance with an intermediate imprecision and a trueness within the fixed acceptance limits.

Effects of disodium cromoglycate on cationic exchange of deoxygenated sickle cells.

In the present work, we explored the way in which cromoglycate, a drug used to treat allergies acts on ion movements in sickle cells. Cells were either slowly deoxygenated by overnight exposure to nitrogen or acutely deoxygenated by exposure to metabisulfite, a strong reducing agent which induces sickling of red blood sickle cells. Flushing the cells with nitrogen increased the intracellular concentration of Na(+) and decreased the intracellular concentration of K(+) and the sum of the concentrations of the two cations. One hundred nM cromoglycate inhibited the decrease of intracellular K(+) and the increase of intracellular Na(+) induced by deoxygenation (n=17). Metabisulfite (100mM) increased the intracellular concentration of Ca(2+) (measured by Fura Red) (n=15) and the shape of the cells (measured by light scattering) (n=9). One µM cromoglycate partially inhibited these two responses. In conclusion, cromoglycate partially inhibits abnormal K(+) loss, Ca(2+) entry pathways or Ca(2+) channels opened by cell deoxygenation and ensuing membrane modifications and prevents cell sickling.

In vitro inhibitory effects of disodium cromoglycate on ionic transports involved in sickle cell dehydration.

BACKGROUND: The antiallergic and antiasthmatic drug disodium cromoglycate (DSCG) has also demonstrated an activity against sickle cell disease, but the mechanism of this action still remains unknown. METHODS: Na(+) and K(+) fluxes were studied in red cells obtained from 9 patients affected with sickle cell disease in the absence or in the presence of 1 mM of DSCG and deoxygenated under an N(2) flow during up to 24 h. RESULTS: A significant inhibiting effect of DSCG on the intracellular K(+) exit and the Na(+) entry was observed. CONCLUSION: These results demonstrate that DSCG partially inhibits the abnormal K(+) loss which is implicated in the dehydration of the sickle cell and the stimulation of sickling.