Disposition of rocuronium was similar under stable N2O-fentanyl and N2O-sevoflurane anesthesia. Sevoflurane reduced rocuronium requirements as well as decreased EC50 relevant to inhibition of T1 and rocuronium transfer to effect compartment. Therefore, the potentiating effect of sevoflurane seems to be mainly of PD origin, probably due to an increased sensitivity of the neuromuscular junction.
The relatively simple liquid-liquid extraction LC-MS/MS method using a UPLC column for measurement of digoxin concentrations both in medium and human plasma is described. Digitoxin was used as internal standard. The developed method possesses satisfactory accuracy, precision, and repeatability, and is economical and not time-consuming. It is the first method for precise measurement of digoxin concentrations in human plasma using combined HPLC equipment and UPLC column with a low limit of quantitation equal to 0.1 ng ml -1 as verified in more than 1500 samples analyzed in a GCP GLP bioequivalence study. The developed method was successfully used in digoxin bioequivalence studies in which 26 volunteers were enrolled.
Methods for determination of albendazole (ALB), albendazole sulfoxide (SOX) and albendazole sulfone (SON) in turkey blood plasma, using high-performance liquid chromatography (HPLC) with fluorescence detection, were developed. Moreover, comparison of HPLC columns with ultra-performance liquid chromatography (UPLC) columns was performed. Albendazol was administered orally in 5-week-old birds (n = 18) at a dose of 25 mg/kg b.w. Accuracy and precision of the developed method were satisfactory and stability studies showed acceptable variation (below 15%) in ALB, SOX and SON concentrations when the samples were stored at -75°C for 15 days. UPLC(®) columns gave higher peaks from typical HPLC columns retaining high quality of analysis. Pharmacokinetic analysis indicated quick elimination of ALB from turkey blood plasma. The mean residence time of SON was at least two times longer than that of SOX and four times longer than that of ALB. The elimination half-lives for ALB, SOX and SON were 0.7 ± 0.27, 5.37 ± 6.03, 9.17 ± 5.12 h, respectively. The obtained results indicate that the described method allows for precise determination of albendazole and its metabolites in turkey plasma. Moreover, using UPLC columns in HPLC apparatus results in higher sensitivity as compared with the classical HPLC columns.
A HPLC/mass spectrometry method for the estimation of itraconazole (CAS 84625-61-6, ITR) and its active metabolite hydroxyitraconazole (CAS 112559-91-8, HOX) in human plasma was developed. Terconazole (CAS 67915-31-5) was used as an internal standard. The analytical method was fully validated according to FDA and EMEA requirements. The accuracy and precision of the developed method was satisfactory and stability studies showed an acceptable variation (below 15%) of ITR and HOX concentrations when the samples were stored frozen at -75 degrees C for 95 days. The developed method was successfully used for a comparative 2 x 2 period, crossover bioequivalence study of two preparations of ITR (Itrakonazol Genexo 100 mg as the test drug) performed on 36 healthy volunteers.
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