Pharmacokinetics of desflurane uptake and disposition in piglets.

Introduction: Many respiratory but few arterial blood pharmacokinetics of desflurane uptake and disposition have been investigated. We explored the pharmacokinetic parameters in piglets by comparing inspiratory, end-tidal, arterial blood, and mixed venous blood concentrations of desflurane. Methods: Seven piglets were administered inspiratory 6% desflurane by inhalation over 2 h, followed by a 2-h disposition phase. Inspiratory and end-tidal concentrations were detected using an infrared analyzer. Femoral arterial blood and pulmonary artery mixed venous blood were sampled to determine desflurane concentrations by gas chromatography at 1, 3, 5, 10, 20, 30, 40, 50, 60, 80, 100, and 120 min during each uptake and disposition phase. Respiratory and hemodynamic parameters were measured simultaneously. Body uptake and disposition rates were calculated by multiplying the difference between the arterial and pulmonary artery blood concentrations by the cardiac output. Results: The rates of desflurane body uptake increased considerably in the initial 5 min (79.8 ml.min-1) and then declined slowly until 120 min (27.0 ml.min-1). Similar characteristics of washout were noted during the subsequent disposition phase. Concentration-time curves of end-tidal, arterial, and pulmonary artery blood concentrations fitted well to zero-order input and first-order disposition kinetics. Arterial and pulmonary artery blood concentrations were best fitted using a two-compartment model. After 2 h, only 21.9% of the desflurane administered had been eliminated from the body. Conclusion: Under a fixed inspiratory concentration, desflurane body uptake in piglets corresponded to constant zero-order infusion, and the 2-h disposition pattern followed first-order kinetics and best fitted to a two-compartment model.

Precisely adjusting the hepatic clearance of highly extracted drugs using the modified well-stirred model.

Hepatic clearance has been widely studied for over 50 yr. Many models have been developed using either theoretical or empirical tests to predict drug metabolism. The well-stirred, parallel-tube, and dispersion metabolic models have been extensively discussed. However, to our knowledge, these models cannot fully describe all relevant scenarios in hepatic clearance. We addressed this issue using the isolated perfused rat liver technique with minor modifications. Diazepam was selected to illustrate different levels of drug plasma-protein binding by changing the added concentration of human serum albumin. The free fractions of diazepam at different albumin concentrations were assayed by rapid equilibrium dialysis. The experimental data provide new insights concerning an accepted formula used to describe hepatic clearance. Regarding drug concentrations passing through the liver, the driving force concentration (CH,ss) in terms of Cin (influx in the liver) or Cout (efflux from the liver) needs to be carefully considered when determining drug hepatic and intrinsic clearances. The newly established model, termed the modified well-stirred model, which was derived from the original formula, successfully estimated hepatic drug metabolism. Using the modified well-stirred model, a theoretical driving force concentration of diazepam passing through the liver was evaluated. The model was further used to assess the predictability of in vitro to in vivo extrapolation. This study was not intended to refute the existing models, but rather to augment them using experimental data. The results stress the importance of proper calculation of dose when the drug clearance deviates from the prediction of the well-stirred model.

Commonly used excipients modulate UDP-glucuronosyltransferase 2b7 activity to improve nalbuphine oral bioavailability in humans.

PURPOSE: Nalbuphine (NAL) is a potent opioid analgesic, but can only be administered by injection. The major aim of this study was to develop an oral NAL formulation employing known excipients as UDP-glucuronosyltransferase 2B7 (UGT2B7) inhibitors to improve its oral bioavailability. METHODS: Twenty commonly used pharmaceutical excipients were screened in vitro by using liver microsomes to identify inhibitors of UGT2B7, the major NAL metabolic enzyme. Tween 20 and PEG 400 were potent UGT2B7 inhibitors and both were co-administered (Tween-PEG) with NAL to rats and humans for pharmacokinetic and/or pharmacodynamic analyses. RESULTS: In animal studies, oral Tween-PEG (4 mg/kg of each) significantly increased the area under the plasma NAL concentration-time curve (AUC) and the maximal plasma concentration (Cmax) by 4- and 5-fold, respectively. The results of the pharmacodynamic analysis were in agreement with those of the pharmacokinetic analysis, and showed that Tween-PEG significantly enhanced the analgesic effects of orally administered NAL. In humans, oral Tween-PEG (240 mg of each) also increased NAL Cmax 2.5-fold, and AUC by 1.6-fold. CONCLUSIONS: Tween-PEG successfully improved oral NAL bioavailability and could formulate a useful oral dosage form for patient's convenience.

Dietary flavonoids modulate CYP2C to improve drug oral bioavailability and their qualitative/quantitative structure-activity relationship.

This study aims to improve the drug oral bioavailability by co-administration with flavonoid inhibitors of the CYP2C isozyme and to establish qualitative and quantitative (QSAR) structure-activity relationships (SAR) between flavonoids and CYP2C. A total of 40 naturally occurring flavonoids were screened in vitro for CYP2C inhibition. Enzyme activity was determined by measuring conversion of tolbutamide to 4-hydroxytolbutamide by rat liver microsomes. The percent inhibition and IC50 of each flavonoid were calculated and used to develop SAR and QSAR. The most effective flavonoid was orally co-administered in vivo with a cholesterol-reducing drug, fluvastatin, which is normally metabolized by CYP2C. The most potent CYP2C inhibitor identified in vitro was tamarixetin (IC50 = 1.4 µM). This flavonoid enhanced the oral bioavailability of fluvastatin in vivo, producing a >2-fold increase in the area under the concentration-time curve and in the peak plasma concentration. SAR analysis indicated that the presence of a 2,3-double bond in the C ring, hydroxylation at positions 5, 6, and 7, and glycosylation had important effects on flavonoid-CYP2C interactions. These findings should prove useful for predicting the inhibition of CYP2C activity by other untested flavonoid-like compounds. In the present study, tamarixetin significantly inhibited CYP2C activity in vitro and in vivo. Thus, the use of tamarixetin could improve the therapeutic efficacy of drugs with low bioavailability.

Genetic polymorphisms of metabolic enzymes and the pharmacokinetics of indapamide in Taiwanese subjects.

To understand the genetic makeup and impact on pharmacokinetics (PK) in the Taiwanese population, we analyzed the pharmacogenetic (PG) profile and demonstrated its effects on enzyme metabolism using indapamide as an example. A multiplex mass spectrometry method was used to examine the single nucleotide polymorphism (SNP) profile of eight major phases I and II metabolic enzymes in 1,038 Taiwanese subjects. A PG/PK study was conducted in 24 healthy subjects to investigate the possible effects of 28 SNPs on drug biotransformation. Among the genetic profile analyzed, eight SNPs from CYP2A6, CYP2C19, CYP2D6, CYP2E1, CYP3A5, and UGT2B7 showed higher variant frequencies than those previously reported in Caucasians or Africans. For instance, we observed 14.7% frequency of the SNP rs5031016 (I471T) from CYP2A6 in Taiwanese, whereas 0% variation was reported in Caucasians and Africans. The PG/PK study of indapamide demonstrated that the polymorphic SNPs CYP2C9 rs4918758 and CYP2C19 rs4244285 appeared to confer lowered enzyme activity, as indicated by increased C max (25% ∼ 64%), increased area under the plasma level-time curves (30~76%), increased area under the time infinity (43% ∼ 80%), and lower apparent clearance values than PK for wild-type indapamide. Our results reinforce the biochemical support of CYP2C19 in indapamide metabolism and identify a possible new participating enzyme CYP2C9. The PG/PK approach contributed toward understanding the genetic makeup of different ethnic groups and associations of enzymes in drug metabolism. It could be used to identify two genetic markers that enable to differentiate subjects with varied PK outcomes of indapamide.

Selected pharmaceutical excipient prevent isoniazid and rifampicin induced hepatotoxicity.

BACKGROUND & AIMS: The incidence of isoniazid (INH)- and rifampicin (RIF)-induced abnormal liver enzyme activity is 27% but only 19% with INH alone. Cytochrome P450 2E1 (CYP2E1) is thought to contribute to the synergistic effects of RIF and INH. Pharmaceutical excipients are inactive ingredients that are added to a pharmaceutical compound. The purpose of this study was to screen excipients for CYP2E1 inhibition and identify whether the screened excipients prevented INH/RIF-induced hepatotoxicity. METHODS: Fifty-five known pharmaceutical excipients were screened for CYP2E1 inhibition. The hepatotoxic doses of INH and RIF were 50 and 100 mg/kg/day, respectively. Hepatotoxicity was assessed by the galactose single point (GSP) method (a US Food and Drug Administration (FDA) recommended quantitative liver function test), liver histopathology, malondialdehyde (MDA) assay, and measurement of aspartate aminotransferase (AST) and alanine aminotransferase (ALT) activity. We chose the CYP2E1-specific substrate chlorzoxazone to assess CYP2E1 activity in animal and human. RESULTS: Mannitol inhibited CYP2E1 activity by 54% in mice with INH/RIF-induced hepatotoxicity (p < 0.005). Serum AST, ALT and GSP levels were significantly increased 3.8- to 7.8-fold in these mice (p < 0.005), and these levels could be lowered by mannitol. Mannitol significantly alleviated the depletion of hepatic glutathione (GSH) and partially reversed the increase in MDA formation in mice treated with INH/RIF (p < 0.005). Mannitol also decreased CYP2E1 activity by 58% in humans (p < 0.005). Furthermore, an antituberculosis (TB) efficacy assay revealed that mannitol did not affect the anti-TB effects of INH/RIF. CONCLUSIONS: Mannitol, an FDA-approved excipient, was found to be a CYP2E1 inhibitor. Mannitol may be a useful adjuvant for drugs that induce hepatotoxicity through CYP2E1, such as INH and RIF.

Validated liquid chromatography-tandem mass spectrometry method for determination of totally nine probe metabolites of cytochrome P450 enzymes and UDP-glucuronosyltransferases.

A simplified, rapid, and selective liquid chromatography-tandem mass spectrometry method for the determination of the activities of cytochrome P450 (CYP) enzymes and UDP-glucuronosyltransferases (UGTs) in two separate settings was developed and successfully applied to 8 CYP isoenzymes and UGT2B7 enzyme activities in rat liver microsomes. The triple-quadrupole mass spectrometric detection was operated in positive mode for the probe metabolites: CYP1A2 (resorufin), CYP2B6 (hydroxybupropion), CYP2C19 (5-hydroxyomeprazole), CYP2D6 (dextrophan), CYP3A4 (6ß-hydroxytestosterone), and UGT2B7 (morphine-3-glucuronide); also in negative mode for CYP2C9 (4-hydroxytolbutamide), CYP2E1 (6-hydroxychloroxazone), and CYP4A (hydroxylauric acid). The metabolic reactions were terminated with acetonitrile, containing metoprolol and acetaminophen as the internal standard for positive and negative ion electrospray ionization, respectively. The method was validated over the concentration range of 25-2500 ng/mL for 5-hydroxyomeprazole, dextrophan, hydroxylauric acid, and morphine-3-glucuronide; 5-500 ng/mL for resorufin; 3-300 ng/mL for hydroxybupropion; 10-1000 ng/mL for 4-hydroxytolbutamide; 40-4000 ng/mL for 6-hydroxychloroxazone; and 63-6300 ng/mL for 6ß-hydroxytestosterone. All of the extraction recoveries of these analytes were greater than 85%, except for hydroxylauric acid at mid-concentration with a recovery of 83.2% ± 3.2%. The matrix effects were between 85.8% and 119.9%; the respective within- and between-run precisions were 0.9-12.0% and 2.0-13.9%; and the within- and between-run accuracy levels were 0.6-17.2% and 0.1-15.1%, respectively, for all these analytes. All of the analytes were stable during the assay and storage in the liver microsomes of Sprague-Dawley rats. The measurement activity of multiple enzymes was feasible using a cocktail approach. This method proved to be a robust, fast, accurate, specific and sensitive assay, and was successfully used to investigate in vivo enzyme activities of 8 major CYP isoenzymes and UGT2B7 in Sprague-Dawley rats with fatty livers. By the end of the eighth week, the CD-fed induced fatty liver rats showed a significant decrease in the activities of CYP1A2 and UGT2B7 as compared to the standard diet group.

Simultaneous determination of nalbuphine and its prodrug sebacoly dinalbuphine ester in human plasma by ultra-performance liquid chromatography-tandem mass spectrometry and its application to pharmacokinetic study in humans.

A rapid, simple, sensitive and selective ultraperformance liquid chromatography-tandem spectrometry (UPLC-MS/MS) method for the determination of nalbuphine and its prodrug sebacoly dinalbuphine ester (SDE) was developed and validated in human plasma. The sample pretreatment involves basification and iterative liquid-liquid extraction with ethyl-ether-dichloromethane (7:3, v/v) solution, followed by LC separation and positive electrospray ionization (ESI) API-3000 mass spectrometry detection. The chromatography was on a Waters Acquity UPLC BEH HILIC column (2.1 × 100 mm, 1.7 µm). The mobile phase was composed of acetonitrile and water (83:17, v/v) that contained 0.2% formic acid and 4 mm ammonium formate at a flow rate of 0.25 mL/min. Ethylmorphine and naloxine were selected as the SDE and nalbuphine internal standard (IS), respectively. The calibration curve for both was linear over the range from 0.05 to 20 ng/mL, with correlation coefficients ≥0.995. The lower limit of quantification was set at 0.05 ng/mL. The intra- and inter-day precision values for nalbuphine and SDE were acceptable as per FDA guidelines. The method was applied successfully to determine nalbuphine concentration in human plasma samples obtained from four Taiwanese volunteers receiving intramuscularly administration of sebacoyl dinalbuphine ester. The method is sensitive, selective and directly applicable to human pharmacokinetic studies involving nalbuphine.

The NAT2 tag SNP rs1495741 correlates with the susceptibility of antituberculosis drug-induced hepatotoxicity.

BACKGROUND: Earlier studies have demonstrated an association between N-acetyltransferase 2 (NAT2) catalytic activity and the genotype of a recently published tag single nucleotide polymorphism (SNP), rs1495741. There have been no reports on the relationship between the rs1495741 genotype and antituberculosis drug-induced hepatotoxicity (ATDIH) to date. OBJECTIVE: The aim of the present study was to determine the frequency of the NAT2 tag SNP (rs1495741) in the Taiwanese and its relation to the incidence of ATDIH. MATERIALS AND METHODS: A total of 348 tuberculosis patients were enrolled to determine the frequency of NAT2 tag SNP rs1495741 and its relation to the incidence of ATDIH. The conventional NAT2 variants alleles have also been investigated. Furthermore, to evaluate the correlation of NAT2 activity and rs1495741 genotypes, a pharmacokinetic study of isoniazid was also conducted in healthy volunteers. RESULTS: Among the 348 tuberculosis patients, 20 (5.7%) were diagnosed with ATDIH. The frequencies of the three rs1495741 genotypes, viz., AA, AG, and GG, were 24.7, 52.3, and 23.0%, respectively. Significant differences among rs1495741 genotypes and susceptibility to hepatotoxicity were noted (odds ratio=14.068, P<0.05). Moreover, the rs1495741 genotypes showed an association with the isoniazid dosage required for induction of hepatotoxicity. In the pharmacokinetic study, NAT2 activity was strongly associated with genotype categories (P<0.001). CONCLUSION: The present study demonstrated that the three genotypes according to rs1495741 were in good accordance with conventional NAT2 alleles-inferred phenotypes and the tag SNP could be used as a proxy to determine the susceptibility to ATDIH.

A new approach to facilitate diagnosis of nonalcoholic fatty liver disease through a galactose single point method in rats with fatty liver.

BACKGROUND: Liver biopsy reliably diagnoses nonalcoholic fatty liver disease, but its invasiveness and inter- and intra-observer errors limit its usefulness in monitoring. AIMS: Use a galactose single point method or combined biochemical parameters to improve assessments of nonalcoholic fatty liver disease in a rat model. METHODS: Three nonalcoholic fatty liver disease severities were generated in 50 rats: a control group (n=18) on a standard diet, and 2 study groups on a choline-deficient diet (n=18), with and without treatment with silymarin (n=14). At weeks 4, 8, and 18, a galactose solution (0.5 g/kg/body weight) was rapidly injected intravenously. Sixty minutes later, internal artery blood was taken for biochemical analyses, including galactose. The livers were then removed for haematoxylin-eosin staining and to measure the hepatic lipid content. RESULTS: Alkaline phosphatase, alanine aminotransferase, aspartate aminotransferase, albumin, and total protein were each significantly correlated with nonalcoholic fatty liver disease severity. Regarding logistic regression, galactose single point method and total protein were significantly predictive. The optimal alanine aminotransferase cutoff point for nonalcoholic fatty liver disease prediction from the receiver-operating characteristic curve had 72.4% sensitivity and 52.4% specificity; galactose single point method alone had 82.8% and 72.4%, whereas galactose single point method+total protein showed 82.8% and 81.0%. CONCLUSIONS: Both galactose single point method and galactose single point method+total protein had greater diagnostic sensitivity and specificity for nonalcoholic fatty liver disease than traditional biochemical tests.

Simultaneous quantification of triazolam and its metabolites in human urine by liquid chromatography-tandem mass spectrometry.

A simple, simultaneous, sensitive and selective liquid chromatography-tandem mass spectrometry (LC-MS-MS) method for the determination of triazolam and its metabolites, α-hydroxytriazolam (α-OHTRZ) and 4-hydroxytriazolam (4-OHTRZ), in human urine was developed and validated. Triazolam-d4 was used as the internal standard (IS). This analysis was carried out on a Thermo(®) C(18) column, and the mobile phase was composed of acetonitrile/H(2)O/formic acid (35:65:0.2, v/v/v). Detection was performed on a triple-quadrupole tandem MS using positive ion mode electrospray ionization, and quantification was performed by multiple reaction monitoring mode. The MS-MS ion transitions monitored were m/z 343.1 → 308.3, 359.0 → 331.0, 359.0 → 111.2, and 347.0 → 312.0 for triazolam, α-OHTRZ, 4-OHTRZ, and triazolam-d(4), respectively. The lower limits of quantification of the analytical method were 0.5 ng/mL for triazolam, 5 ng/mL for α-OHTRZ, and 0.5 ng/mL for 4-OHTRZ. The within- and between-run precisions were less than 15%, and accuracy was -12.33% to 9.76%. The method was proved to be accurate and specific, and it was applied to a urinary excretion study of triazolam in healthy Chinese volunteers.

Simultaneous determination of triazolam and its metabolites in human plasma by liquid chromatography-tandem mass spectrometry.

A sensitive and selective liquid chromatography-tandem mass spectrometry (LC-MS/MS) method for the determination of triazolam and its metabolites, alpha-hydroxytriazolam (alpha-OHTRZ) and 4-hydroxytriazolam (4-OHTRZ), was developed and validated. Triazolam-D4 was used as the internal standard (IS). This analysis was carried out on a Thermo C(18) column and the mobile phase was composed of acetonitrile:H(2)O:formic acid (35:65:0.2, v/v/v). Detection was performed on a triple-quadrupole tandem mass spectrometer using positive ion mode electrospray ionization (ESI) and quantification was performed by multiple reaction monitoring (MRM) mode. The MS/MS ion transitions monitored were m/z 343.1-->308.3, 359.0-->308.3, 359.0-->111.2 and 347.0-->312.0 for triazolam, alpha-OHTRZ, 4-OHTRZ and triazolam-D4, respectively. LLOQ of the analytical method was 0.05 ng/mL for triazolam and 0.1 ng/mL for alpha-OHTRZ and 4-OHTRZ. The within- and between-run precisions were less than 15.26% and accuracy was -8.08% to 13.33%. The method proved to be accurate and specific, and was applied to the pharmacokinetic study of triazolam in healthy Chinese volunteers.

Association of galactose single-point test levels and phenytoin metabolic polymorphisms with gingival hyperplasia in patients receiving long-term phenytoin therapy.

STUDY OBJECTIVE: To evaluate whether the occurrence or severity of gingival hyperplasia is associated with liver function test results or phenytoin metabolism. DESIGN: Prospective analysis. SETTING: University-affiliated medical center in Taipei, Taiwan. PATIENTS: Sixty-six patients (mean age 37.9 yrs) with epilepsy who were receiving phenytoin for more than 1 year. Intervention. Four blood samples were drawn from each patient for liver function testing, concentrations of phenytoin and its metabolites R-5-(4'-hydroxyphenyl)-5-phenylhydantoin (R-HPPH) and S-HPPH, and genotyping of cytochrome P450 (CYP) 2C9 and 2C19. MEASUREMENTS AND MAIN RESULTS: Plasma concentrations of phenytoin and its metabolites were determined by a high-performance liquid chromatography method. The CYP2C9 and CYP2C19 genotypes were analyzed by polymerase chain reaction-restriction fragment length polymorphism analysis. Conventional liver function assays and a quantitative liver function test--galactose single-point (GSP) measurement--were performed. Statistical analyses were performed to evaluate the association between liver function test results as well as metabolic phenotype and the occurrence and severity of gingival hyperplasia. Among liver function tests, only GSP levels showed a significant difference between patients with and those without gingival hyperplasia. Patients with an elevated GSP level (> or = 280 microg/ml) had a significantly higher odds ratio (OR 4.51) for the occurrence of gingival hyperplasia. In addition, increased R-HPPH (OR 1.02) and phenytoin (OR 1.09) concentrations were associated with an increased occurrence of gingival hyperplasia. However, only increased GSP and R-HPPH concentrations had significantly higher ORs (2.84 and 1.02, respectively) associated with the severity of gingival hyperplasia. Although mean +/- SD plasma R-HPPH concentration was significantly lower in CYP2C19 poor metabolizers compared with CYP2C9 and CYP2C19 extensive metabolizers and CYP2C9 poor metabolizers (30.38 +/- 16.73 vs 68.22 +/- 44.75 and 78.95 +/- 51.67 microg/ml, respectively), no significant association between genotype and gingival hyperplasia was found. CONCLUSION: Increased GSP, phenytoin, and R-HPPH concentrations were associated with increased occurrence of phenytoin-induced gingival hyperplasia; only increased GSP and R-HPPH concentrations were associated with increased severity of this adverse effect.

Effects of hyperglycemia on quantitative liver functions by the galactose load test in diabetic rats.

Blood galactose clearance after an intravenous galactose load has been widely used as a quantitative liver function test. We have developed a novel quantitative rat liver function test, the galactose single point (GSP) method, to assess residual liver function with various injuries by measuring single time point galactose concentration in blood after an intravenous bolus injection of galactose. The goal of this study was to evaluate the influence of nonhepatic factors such as hyperglycemia on GSP and galactose elimination capacity (GEC) in rats. Four groups of animal studies were carried out, as follows: (1) normal control (NC), (2) streptozotocin-induced diabetes (DM), (3) carbon tetrachloride-induced hepatotoxicity (CCl(4)), and (4) streptozotocin-induced diabetes with CCl(4)-induced hepatotoxicity (DM + CCl(4)). The serum glucose levels in the diabetic groups (DM and DM + CCl(4)) were significantly increased compared with the NC and CCl(4) groups (P < .001). A significant increase in hepatic activities of aspartate aminotransferase and alanine aminotransferase was observed in the CCl(4)-treated groups (CCl(4) and DM + CCl(4)) compared with the NC and DM groups (P < .001). In comparison with the NC group, the values of GSP and GEC in the diabetic groups (DM and DM + CCl(4)) were significantly reduced (P < .001) and increased (P < .01), respectively. Galactose single point had highly significant correlations with GEC (P < .001). These results suggest that galactose metabolism tests-as quantitative parameters of liver function-should be interpreted with caution in the condition of a significant hyperglycemia.

Pharmacokinetics of oral rosiglitazone in Taiwanese and post hoc comparisons with Caucasian, Japanese, Korean, and mainland Chinese subjects.

PURPOSE: Rosiglitazone, an insulin-sensitizing thiazolidinedione, acts as a ligand for the y-subtype of the peroxisome proliferator-activated receptor in the regulation of glucose homeostasis and lipid metabolism. The aims of this study were to determine the pharmacokinetics of oral rosiglitazone in Taiwanese and to post hoc compare the ethnic differences among Caucasian, Japanese, Korean, and Mainland Chinese. METHODS: Twelve Taiwanese healthy male subjects received 4 and 8 mg of rosiglitazone. Similar protocols were used in the previously unpublished studies conducted in 25 Caucasian, 32 Japanese, 8 Korean, and 12 Mainland Chinese healthy male subjects. The 4 mg dose data were used for ethnicity comparisons. RESULTS: The respective pharmacokinetic properties of Taiwanese, Caucasian, Japanese, Korean and Mainland Chinese are: terminal half-life (hr): 4.18 +/- 0.43, 3.96 +/- 1.31, 3.83 +/- 0.78, 4.70 +/- 1.19 and 4.37 +/- 0.63; Cmax (ng/ml): 384.1 +/- 59.3, 260.2 +/- 75.7, 401.9 +/- 102.3, 345.3 +/- 60.6, and 406.2 +/- 52.0; AUC0-inf (h*ng/ml): 2078 +/- 433, 1249 +/- 566, 1901 +/- 397, 1938 +/- 534, and 2158 +/- 498. The Cmax and AUC0-inf of Caucasian were significantly (p = 0.002, 0.008) lower and CL/F and V/F were significantly (p = 0.000, 0.003) higher than those of other races. These differences of Cmax, AUC0-inf, CL/F and V/F between Caucasian and other races became insignificant after normalized by dose and weight. CONCLUSIONS: In a given dose by body weight, ethnicity had no significant impact on the pharmacokinetics of rosiglitazone in normal healthy volunteers.

In vitro and in vivo evaluation of the metabolism and pharmacokinetics of sebacoyl dinalbuphine.

A diester prodrug of nalbuphine, sebacoyl dinalbuphine (SDN), and its long-acting formulation are currently being developed to prolong the duration of nalbuphine. A comparative in vitro hydrolysis study was conducted for SDN in rat, rabbit, dog, and human blood. Both SDN and nalbuphine in blood or plasma were measured by high-performance liquid chromatography. The hydrolysis rates of SDN in blood were ranked as follows: rat > rabbit > human > dog. The rapid formation of nalbuphine in the blood accounted for almost 100% of the prodrug, which supported the contention that nalbuphine is the major metabolite after SDN hydrolysis. The hydrolysis profiles of SDN were similar both in plasma and in red blood cells when compared in the blood. In vitro release results of SDN long-acting formulation showed that the rate-limited step of SDN hydrolysis to nalbuphine in blood is the penetration of SDN from oil into the blood. After intravenous administration of SDN in sesame oil into rats, nalbuphine quickly appeared in plasma and, thereafter, exhibited monoexponential decay. Pharmaceutical dosage forms affecting the drug disposition kinetics were demonstrated after intravenous administration. The AUC of nalbuphine was significantly higher and clearance was significantly lower, without changes in the t(1/2) of nalbuphine after intravenous dosing of SDN in sesame oil when compared with that of intravenous dosing with nalbuphine HCl in rats. Overall, these results suggest that SDN fulfilled the original pro-soft drug design in which the prodrug can rapidly metabolize to nalbuphine, and no other unexpected compounds were apparent in the blood.

Pharmacokinetics and bioequivalence study of a generic desloratadine tablet formulation in healthy male volunteers.

The pharmacokinetic profiles and relative bioavailability of desloratadine (CAS 100643-71-8, Denosin as test and another commercially available preparation as reference) tablets from two different pharmaceutical manufacturers were carried out. A single oral dose (10 mg/2 tablets) of desloratadine was administered to 8 healthy young Chinese males in a completely double-blind cross-over design with a two-week washout period between each dose. Plasma samples were obtained before and at various appropriate intervals after dosing up to 120 h. The plasma concentrations were then analyzed by a liquid chromatography/tandem mass spectrometric (LC/MS/MS) method. The limit of quantitation of this LC/MS/MS method was 0.05 ng/mL. The coefficients of variation of the within-day and between-day calibration curves (n = 6) range from 0.05 ng/mL to 10 ng/mL and were less than 10%. The accuracy of this method was verified. Values for the area under the plasma concentration-time curve (AUC), peak concentration (Cmax), time to peak concentration (Tmax), elimination rate constant, half-life, oral clearance were estimated and compared for each preparation. By ANOVA, 90% confidence interval, Mann-Whitney test, and paired t-test, the two desloratadine products can be considered bioequivalent for both the extent and the rate of absorption.

Single-point plasma or urine dextromethorphan method for determining CYP3A activity.

Dextromethorphan is used widely in vivo to phenotype the polymorphically expressed cytochrome P450 (CYP) 2D6. Also dextromethorphan is N-demethylated in vivo to 3-methoxymorphinan by human CYP3A4/5. The metabolic ratio (MR) of dextromethorphan/3-methoxymorphinan in plasma, saliva and urinary were examined as a possible in vivo probe of CYP3A activity. In limited previous studies, 4 h urinary samples were collected for determining the MR. To evaluate the repeatability and validity of previously reported and other potential phenotyping methods, the MR from urine samples (at various intervals), from plasma and from saliva (at varying time points) were determined after repetitive single doses of immediate-release or repetitive multiple doses of controlled-release dextromethorphan preparations. For the single-dose study, each of 12 subjects received 15 mg of immediate-release dextromethorphan in periods II and I, respectively, with a 1 week washout period. For the multiple dose study, each of 16 subjects received 60 mg controlled release dextromethorphan twice daily for 5 days in periods I and II, respectively, with a 2 week washout period. Dextromethorphan and 3-methoxymorphinan are assayed by high-performance liquid chromatography. In the single-dose study, all of the urine MR revealed good repeatabilities for the periods (paired t-test). The urine MR at any time interval of 0-6 h, 0-8 h and 0-12 h correlated significantly with the MR from 0-24 h urine (r>0.8, p<0.05). In the multiple-dose study, all MR revealed good repeatabilities for the two periods (paired t-test). The plasma MR at any time between 0.5 h and 12 h, the saliva MR at 12 h and the urine MR at any interval between 0-2 h, 0-4 h, 0-6 h, 0-8 h, 0-12 h and 0-24 h could predict the MR from AUCtau(ss). In conclusion, the urine sample as 0-6 h, 0-8 h or 0-12 h in the single immediate-release dose (15 mg) or in the multiple controlled-release dose (60 mg) procedure, the saliva sample at 12 h, the urine sample at 0-2 h, 0-4 h, 0-6 h, 0-8 h, 0-12 h, 0-24 h or all plasma-sampling points 0.5-12 h could be used as the dextromethorphan MR for determining the CYP3A activity.

Novel inhibition of cis/trans retinoic acid interconversion in biological fluids--an accurate method for determination of trans and 13-cis retinoic acid in biological fluids.

All-trans retinoic acid (tRA, or tretinoin) can be metabolized through stereoisomerization to 13-cis retinoic acid (13-cRA) in vivo. We have developed a simple, sensitive and accurate method for analyzing tRA and 13-cRA in plasma with the addition of N-ethylmaleimide (NEM) and Vitamin C (Vit. C) to prevent the interconversion of cis/trans retinoic acid. All-trans RA, 9-cRA, and 13-cRA were well separated from each other in plasma by using a C18 precolumn and a column with a gradient solvent system of mobile phases A and B at a flow rate of 1.0 ml/min. In addition, thermal stability of tRA and cRA in plasma during the sample preparation under the temperature of 0 and 25 degrees C were studied. Our results showed that (1) the interconversion ratios (%) (cRA/tRA and tRA/cRA) were decreased with the addition of NEM and Vit. C and the minimum concentrations of NEM and Vit. C to inhibit the interconversion were 50 and 150 microM, respectively, (2) higher concentrations of NEM and Vit. C were required to prevent the interconversion at higher temperature, (3) the precision and accuracy of calibration curve with various concentration of tRA (1-1000 ng/ml) and 13-cRA (5-800 ng/ml) in plasma showed good linearity (r(2)=0.9992 and 0.9994), and between-day errors expressed by coefficient of variation (CV, %) for tRA and 13-cRA which were both less than 5.6%, (4) the mean recovery of the analytes were 78-94% for tRA and 80-92% for 13-cRA at concentration range from 1 to 1000 ng/ml and 5 to 800 ng/ml, respectively, and (5) the limit of quantitation of tRA and 13-cRA were 1 and 5 ng/ml, respectively. In addition, the HPLC method had been successfully applied to the tRA pharmacokinetic study in two hepatoma patients after receiving 45 mg/m(2) per day orally. Thus, our results suggest that the HPLC method for analyzing tRA and 13-cRA in plasma with the addition of NEM and Vit. C is a simple, sensitive and accurate method.