In a randomized, crossover study single 200 and 800 mg doses of enoxacin were administered intravenously and orally to eight healthy normal volunteers. Plasma and urinary enoxacin concentrations and urinary concentrations of its oxo-metabolite were determined by high-performance liquid chromatography. At the end of a 1 h intravenous infusion period, mean enoxacin plasma concentrations were 1.8 and 6.6 mg/l for the 200 and 800 mg doses, respectively. Disappearance of enoxacin from the systemic circulation appeared to follow first order kinetics with harmonic mean elimination half lives of 3.3 and 4.7 h for the 200 and 800 mg dose groups, respectively. However, enoxacin kinetics were dose-dependent over the dose range tested. Total body clearance decreased and elimination half-life increased with increasing dose. The volume of distribution was large (2.8 l/kg) and independent of dose. Absorption of orally administered enoxacin was rapid, with mean peak plasma concentrations (1.0 and 3.8 mg/l) appearing one to two hours postdose. Absolute oral bioavailability averaged 89%, and was independent of the dose administered. Cumulative enoxacin urinary recovery accounted for 51-53% of the dose irrespective of dose or route of administration. Enoxacin renal clearance exceeded creatinine clearance indicating that urinary excretion of enoxacin involved both glomerular filtration and tubular secretion. Urinary excretion of the oxo-metabolite averaged 16% and 11% following the 200 and 800 mg dose, respectively. Evidence of dose dependent decrease in enoxacin renal clearance and formation of its oxo-metabolite was observed. Enoxacin was well tolerated during the course of the trial. The present study shows that enoxacin pharmacokinetics can be characterized by apparent first order elimination, large volume of distribution, and dose-dependent increase of half life. Oral absorption of enoxacin is complete over a wide dose range.
To examine the influence of intravenous steroid-treatment (IST) on serum levels of Cartilage oligomeric matrix protein (COMP) in patients with active rheumatoid arthritis (RA). Serum levels of COMP and C-reactive protein (CRP) were measured in 12 patients with highly active RA (Steinbrocker stages II-IV) and in 5 patients with highly active reactive arthritis (ReA) (positive testing for HLA-B27) before starting daily IST. Patients received a total steroid dosage between 100 and 500 mg of prednisolone. COMP was measured by a commercially available sandwich-type ELISA-kit developed by AnaMar Medical AB, Sweden. Statistical evaluation was calculated by paired t test. In the RA group, COMP levels ranged from 6.3 to 19.4 U/l (mean 12.9 U/l), CRP from 5 to 195 mg/l (mean 77.8 mg/l), the COMP levels of the ReA group ranged from 5.1 to 7.4 U/l (mean 7.9 U/l), the CRP levels from 13 to 126 mg/l (mean 49 mg/l). We found a significant difference between the initial COMP levels in RA+ and ReA patients (P<0.005). In contrast to the ReA group, serum-COMP levels of RA+ patients (P<0.004) and the VAS (P<0.0001) decreased significantly within 2-10 days after the first treatment with steroids. The CRP levels remained unchanged in both groups. Our results indicate that the intravenous treatment with steroids in patients with highly active RA leads to a significant decrease of cartilage degradation. COMP seems to be a valuable parameter not even as a prognostic factor, but as a marker for monitoring the therapy response in patients with RA.
Collagenase activity has been studied intensively in SF from OA and RA patients. Less is known about collagenolytic activity in PsA SF. Therefore we examined collagenolytic activity in crude and trypsin treated SF as well as the alpha 1-antitrypsin and alpha 2-macroglobulin concentrations in 50 patients suffering from OA (n = 13), RA (n = 17), and PsA (n = 20). Free collagenolytic activity was low in the crude OA SF (1.80 +/- 1.35 micrograms released collagen/min/ml SF) and almost equally low in RA SF (2.35 +/- 1.80 micrograms released collagen/min/ml SF; P > 0.3). The PsA SF, however, exhibited a significantly higher free collagenolytic activity (5.63 +/- 5.69 micrograms released collagen/min/ml SF; P < 0.05 in comparison to OA and RA SF). The treatment of the SF with trypsin further activated collagenolytic activity in each group (OA 2.17 +/- 1.35 micrograms released collagen/min/ml SF; RA 6.48 +/- 6.73 micrograms released collagen/min/ml SF; PsA 11.24 +/- 5.02 micrograms released collagen/min/ml SF) and yielded significant differences between OA and RA, OA and PsA, and RA and PsA SF (P < 0.05). Concomitantly with the collagenolytic activity, the alpha 1-antitrypsin and alpha 2-macroglobulin concentrations of the SF were measured. In SF from patients with PsA (172.9 +/- 69.4 mg/100 ml) and RA (190.6 +/- 64.7 mg/100 ml) the alpha 1-antitrypsin was significantly higher than in those from OA SF (106.1 +/- 39.2 mg/100 ml).(ABSTRACT TRUNCATED AT 250 WORDS)
Typing for HLA-B27 is routinely performed in patients with seronegative spondarthritides. Besides the microlymphocytotoxic test (MLCT), other serological techniques have been developed such as enzyme immunoassays (EIA) using serum or plasma as a source for the determination of soluble HLA-B27 (sHLA-B27) and flow cytometric (FC) methods. The aim of the present study was to check the accuracy and reliability of the EIA for sHLA-B27 in comparison to the MLCT using antibodies against HLA-B27 and cross-reacting specificities (CRS), as well as an FC method and a molecular biological method. Any discrepant results should be typed with the MLCT using a complete panel of anti-HLA-class I antibodies, with FC and with a molecular biological technique. The EIA should also be repeated in those patients, using serum and plasma from a new venipuncture. In 81 patients with rheumatic disorders, the EIA and the MLCT using antibodies against HLA-B27 and CRS were performed. Based on the MLCT with a complete panel of anti-HLA-class I antibodies as a standard, discrepant test results were obtained for 9 out of 81 patients with the MLCT using antibodies against HLA-B27 and CRS and with the EIA. The following wrong results occurred: in the MLCT with anti-HLA-B27 and CRS, there were two false-negative results; in the EIA there were four false-negative and one false-positive results; one sample was undeterminable. In comparison with the MLCT, including the complete panel of HLA-class I antibodies, as well as with a molecular biological technique, typing with FC showed a complete concordance. Our investigations demonstrated that for routine typing for HLA-B27 the MLCT cannot be replaced by EIA because of a significant number of mistypings. The MLCT performed only with antibodies against HLA-B27 and CRS may also lead to typing errors. No errors were detected using flow cytometry. If only serological methods can be performed in a laboratory a combination of flow cytometry and MLCT could therefore enhance the safety of HLA-B27 typing.
Additional key phrase: inflammatory rheumatic diseasesSerological typing of HLA-B27 is routinely done by the microlymphocytotoxicity test (MLCT).l This method is easy and allows a daily typing of a relatively large number of samples. Nevertheless, the interpretation requires some experience in the exclusion of false-positive typing results caused by cross-reactions. A significant disadvantage of the MLCT is the subjective microscopic evaluation of the percentage of killed and viable lymphocytes. In order to overcome the difficulties with the MLCT, other serological methods such as flow cytometry (FC)2 or enzyme immunoassay (EIA)3 have been developed. Recently molecular biological methods have also been introduced.v? The aim of our study was to compare the accuracy of FC and EIA with MLCT for HLA-B27 typing. MATERIALS AND METHODS PatientsEighty-one patients, 35 women and 46 men (aged between 19 and 89 years) with a suspected diagnosis of inflammatory disorders (ankylosing spondylitis, seronegative rheumatoid arthritis, reactive arthritis, psoriatic arthritis, psoriasis vulgaris and other unclassified rheumatic disorders) were included in the study. Determination of HLA-B27 was by MLCT, ElA and occasionally (if discrepant typing results were obtained) by Fe. In addition 20 healthy probands were typed for HLA-B27 by FC only in order to obtain appropriate values for
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