Pharmacokinetics of ciprofloxacin in eels by high-performance liquid chromatography with fluorescence detection

The plasma kinetics of ciprofloxacin (CF) were investigated in the eels after administration by oral gavage and bath treatment. Plasma concentrations of CF were determined by high-performance liquid chromatography with fluorescence detection. The mean concentration time data after oral gavage of a single dose (10.0 mg/kg CF) and after bath treatment by exposure (10 microg/ml CF) to medicated water for 48 h were both best fitted by a one-compartment model. After oral gavage in eels, the half-time of absorption (T1/2Ka) was 0.10 h, the half-time of elimination (T1/2Ke) was 51.87 h, and the maximum plasma concentration (Cmax) was 0.4552 microg/ml at Tmax 0.88 h. After bath treatment, the (T1/2Ka) was 0.02 h, the (T1/2Ke) was 15.46 h, and the Cmax was 0.1175 microg/mL at Tmax 0.22 h.     

Pharmacokinetics of sulfadimethoxine in cats

Pharmacokinetic parameters which describe distribution and elimination of sulfadimethoxine were determined in cats. Following intravenous administration of a single dose (55 mg/kg), disposition of the drug was described in terms of the biexponential expression: Cp = Ae-alphat + Be-betat. Based on total (free and bound) sulfonamide levels in the plasma, pseudodistribution equilibrium was slowly attained and the half-time of elimination (half-life) was 10.16 h +/- 2.50 (S.D., n = 6). Body clearance, which is the sum of all clearance processes, was 18.8 +/- 4.6 ml kg-1 h-1. Plasma protein binding, measured by equilibrium dialysis at sulfonamide concentration of 50 microgram/ml, was extensive (87.5% +/- 6.3, n =10). Computer-generated curves for an animal representative of the group, based on individual rate constants associated with the two-compartment open model, showed that 12% and 5% of the dose were present in the central and peripheral compartments, respectively, 24 h after administering the drug. A satisfactory dosage regimen might consist of a priming dose (55 mg/kg) and maintenance dosage (27.5 mg/kg at 24 h dosage intervals). Predicted plasma sulfadimethoxine concentrations would oscillate between 125 and 25 microgram/ml during the steady state. Influence of bacterial disease and febrile states on predicted levels remains to be verified experimentally.     

Comparative plasma pharmacokinetics of meloxicam in sheep and goats following intravenous administration

Meloxicam, a novel cyclooxygenase-2 selective nonsteroidal anti-inflammatory drug (NSAID), has been used extensively in humans and recently in some domestic animal species. Although it is an attractive NSAID for use in small ruminants, meloxicam pharmacokinetics have not been investigated in sheep and goats and this information is essential for rational therapeutic use of the drug in these species. In this investigation, comparative pharmacokinetic properties of meloxicam were studied in sheep and goats after a single intravenous dose of 0.5 mg kg(-1) body mass. Blood samples were collected via jugular venepuncture into heparinised tubes at predetermined times after drug administration. Plasma concentrations of meloxicam were determined by reversed-phase high performance liquid chromatography. The plasma concentrations of meloxicam were detectable in sheep and goats up to 72 and 48 h, respectively. The plasma concentration versus time data of meloxicam in both sheep and goats were adequately described by a two-compartment open model. The values obtained for sheep and goats for distribution half-life, volume of distribution at steady state and volume of the central compartment were almost similar in sheep and goats. The elimination half-life (t(1/2beta)), area under the plasma concentration-time curve (AUC), mean residence time (MRT) and total systemic clearance (Cl(B)) in sheep were significantly different from those of goats. The mean+/-S.E. values of t(1/2beta), MRT, AUC and Cl(B) in sheep were 10.85+/-1.21 h, 15.13+/-1.67 h, 31.88+/-2.97 microg h mL(-1) and 0.016+/-0.002 L h(-1) kg(-1), respectively whereas the respective values in goats were 6.73+/-0.58 h, 9.37+/-0.83 h, 19.23+/-2.23 microg h mL(-1) and 0.03+/-0.01 L h(-1) kg(-1). The results indicate that elimination kinetics of meloxicam differ significantly between sheep and goats and the elimination of the drug tends to be faster in goats compared to sheep.     

不同水温下氟甲砜霉素在斑点叉尾鮰体内的药代动力学研究

研究不同水温(18℃和28℃)条件下,单剂量(10mg/kgb·w)强饲氟甲砜霉素,在斑点叉尾鮰(Ictaluruspunc-tatus)体内药代动力学特征.采用高效液相色谱紫外检测法可以同时检测血浆中氟甲砜霉素及其代谢物氟甲砜霉素的浓度.用3p97药代动力学软件处理药时数据.结果表明:在不同水温条件下氟甲砜霉素在斑点叉尾鮰体内的药时数据均符合一室开放式模型.药时规律符合理论方程C血浆=71921(e-0.036t-e-0.18t)和C血浆=91061(e-0.081t-e-0.301t).18℃和28℃的条件下,主要药代动力学参数:吸收半衰期T1/2ka分别为31845h和21301h,消除半衰期T1/2ke分别为191118h和81519h,达峰时间Tpeak分别为111136h和51953h,最大血药浓度Cmax分别为41074μg/mL和41226μg/mL,曲线下面积AUC分别为1741547(μg/mL)/h和811279(μg/mL)/h,平均驻留时间MRT分别为271581h和121290h,相对表观分布容积V/F(c)分别为11580L/kg和115121L/kg.采用氟甲砜霉素防治斑点叉尾鮰细菌性疾病,建议在18℃左右口服10mg/kg体重剂量的氟甲砜霉素,2d给药1次;在28℃左右口服10mg/kg体重剂量的氟甲砜霉素,1d给药1次.试验过程中在斑点叉尾鮰血浆样品中未检测到氟甲砜霉素的主要代谢物氟甲砜霉素胺.       

达氟沙星在史氏鲟体内药物代谢动力学比较研究

采用高效液相色谱法测定以10mg/kg体重剂量静脉注射和口服给药后史氏鲟血浆中达氟沙星的浓度。该法采用C18色谱柱,流动相为乙腈-水相(15∶85),荧光激发波长和发射波长分别为280nm和450nm,样品用甲醇沉淀蛋白,离心取上清液进样。达氟沙星在0.005-1.0μg/mL范围内线性关系良好,本方法的最低检测限为0.005μg/mL。健康鱼单剂量静注达氟沙星(10mg/kg),其药时数据符合无吸收的三室开放模型,方程为C=5.830-5.582t+4.162-1.157t+0.852-0.029t,主要动力学参数如下:t1/2α0.552h;t1/2β22.186h;AUC34.226mg/(L.h);V 10.922L/kg;Vb10.144L/kg;ke 10.317h.Ah感染组的V1减小至0.290L/kg,静注感染组鱼体内达氟沙星的消除没有显著的改变。健康口服组数据结果符合一级吸收二室开放模型,血药浓度和时间方程为C=1.278e-0.073t+0.177e-0.089t-1.455e-0.329t。药动学常数分别为:t1/2ka9.491h,t1/2β78.267h,Tmax6.284h,Cmax0.791mg/mL;α0.073h。但Ah感染改变达氟沙星口服给药后在史氏鲟体内的吸收、分布和消除。分布速率常数降低为0.050/h。消除减慢,消除半哀期延长为93.988h,达峰时间延长为至9.060h,峰浓度降低为0.585mg/mL。口服达氟沙星水溶液,健康及感染组史氏鲟对达氟沙星生物利用度分别为96.503%和94.435%。本实验结果表明达氟沙星在健康史氏鲟体内分布广泛、吸收较完全。感染Ah对达氟沙星在史氏鲟体内的吸收、分布及消除规律均有不同程度的影响,其中口服给药的影响更为显著。达氟沙星可用于史氏鲟感染Ah的治疗。       

Pharmacokinetics of methyl parathion: a comparison following single intravenous,oral or dermal administration

Assessment of the risks posed by the residential use of methyl parathion requires an understanding of its pharmacokinetics after different routes of exposure. Thus, studies were performed using adult female rats to define the pharmacokinetic parameters for methyl parathion after intravenous injection and to apply the described model to an examination of its pharmacokinetics after single oral or dermal exposure. The pharmacokinetics of methyl parathion after intravenous administration (1.5 mg/kg) were best described by a three-compartment model; the apparent volume of the central compartment was 1.45 liters/kg, clearance was 1.85 liters/h/kg and the terminal half-life was 6.6 h with an elimination constant of 0.50 h(-1). The apparent oral absorption coefficient for methyl parathion (1.5 mg/kg) was 1.24 h(-1), and its oral bioavailability was approximately 20%. The latter likely includes a significant first pass effect. Concentrations of methyl parathion increased during the initial 10-60 min and then declined during the next 15-36 h. After dermal administration (6.25-25 mg/kg), methyl parathion concentrations peaked within 12-26 h and then declined dose dependently. The apparent dermal absorption coefficient was approximately 0.41 h(-1), and only two pharmacokinetic compartments could be distinguished. In conclusion, the pharmacokinetics of methyl parathion are complex and route dependent. Also, dermal exposure, because of sustained methyl parathion concentrations, may pose the greatest risk.     

Intracellular potassium compartments in Nitella axillaris

Three intracellular compartments for potassium exchange have been observed in intact cells of the giant-celled alga, Nitella axillaris. These compartments have been compared with the exchange properties of isolated subcellular structures. The smallest and fastest compartment (apparent half-time, 23 seconds) appears to involve passive absorption on the cell wall. The next largest (apparent half-time, 5 hours) may represent exchange with the cytoplasmic layer through the plasma membrane, the chloroplasts being in rapid equilibrium with the surrounding cytoplasm. The largest and slowest compartment (apparent half-time, 40 days) has been identified with the central vacuole. The vacuolar membrane and the plasma membrane have similar properties with respect to K permeability. Thus, the experimental data from the whole cell can be accounted for by a structural model of the compartments. Cyanide in concentrations up to 10(-3)M causes no net loss of K. The fastest compartment in Nitella and in higher plants is compared, and the ecological significance of the slow rate of potassium transport in Nitella is discussed.     

A pharmacokinetic model for the concentration of 10B in blood after boronophenylalanine-fructose administration in humans

An open two-compartment model has been developed for predicting (10)B concentrations in blood after intravenous infusion of the l-p-boronophenylalanine-fructose complex (BPA-F) in humans and derived from studies of pharmacokinetics in 24 patients in the Harvard-MIT Phase I clinical trials of BNCT. The (10)B concentration profile in blood exhibits a characteristic rise during the infusion to a peak of approximately 32 microg/g (for infusion of 350 mg/kg over 90 min) followed by a biphasic exponential clearance profile with half-lives of 0.34 +/- 0.12 and 9.0 +/- 2.7 h, due to redistribution and primarily renal elimination, respectively. The model rate constants k(1), k(2) and k(3) are 0.0227 +/- 0.0064, 0.0099 +/- 0.0027 and 0.0052 +/- 0.0016 min(-1), respectively, and the central compartment volume of distribution, V(1), is 0.235 +/- 0.042 kg/kg. The validity of this model was demonstrated by successfully predicting the average pharmacokinetic response for a cohort of patients who were administered BPA-F using an infusion schedule different from those used to derive the parameters of the model. Furthermore, the mean parameters of the model do not differ for cohorts of patients infused using different schedules.     

Influence of time of day on propofol pharmacokinetics and pharmacodynamics in rabbits

This study evaluates the administration time-of-day effects on propofol pharmacokinetics and sedative response in rabbits. Nine rabbits were sedated with 5?mg/kg propofol at three local clock times: 10:00, 16:00, and 22:00?h. Each rabbit served as its own control by being given a single infusion at the three different times of day on three separate occasions. Ten arterial blood samples were collected during each clock-time experiment for propofol assay. A two-compartment model was used to describe propofol pharmacokinetics, and the pedal withdrawal reflex was used as the sedation pharmacodynamic response. The categorical data comprising the presence or absence of pedal withdrawal reflex was described by a logistic model. The typical volume of the central compartment equaled 7.67?L and depended on rabbit body weight. The elimination rate constant depended on drug administration time; it was lowest at 10:00?h, highest at 16:00?h, and intermediate at 22:00?h. Delay of the anesthetic effect, with respect to plasma concentrations, was described by the effect compartment, with the rate constant for the distribution to the effector compartment equal to 0.335?min(-1). Drug concentration had a large effect on the probability of anesthesia. The degree of anesthesia was largest at 10:00?h, lowest at 16:00?h, and intermediate at 22:00?h. In summary, both the pharmacokinetics and pharmacodynamics of propofol in rabbits depended on administration time. The developed population approach may be used to assess chronopharmacokinetics and chronopharmacodynamics of medications in animals and humans.     

Pharmacokinetic study of ellagic acid in rat after oral administration of pomegranate leaf extract

Quantification of ellagic acid, the principal bioactive component of pomegranate leaf extract, in rats plasma following oral administration of pomegranate leaf extract was achieved by using a high-performance liquid chromatographic method. The calibration curve for ellagic acid was linear (r2=0.9998) ver the concentration range 0.026-1.3 microg/ml. The intra- and inter-day assays of ellagic acid from rat plasma were less than 6.52% at concentration range from 26 to 1300 ng/ml and good overall recoveries (94.5-102.4%) were found on same concentrations. The concentration-time profile was fitted with an open two-compartment system with lag time and its max concentration of ellagic acid in plasma was 213 ng/ml only 0.55 h after oral administration extract 0.8 g/kg. The pharmacokinetic profile indicates that ellagic acid has poor absorption and rapid elimination after oral administration pomegranate leaf extract, and part of it was absorbed from stomach.     

Population PK/PD Model of Homocysteine Concentrations after High-Dose Methotrexate Treatment in Patients with Acute Lymphoblastic Leukemia

Elevated homocysteine concentrations have been associated with methotrexate-induced neurotoxicity. Based on methotrexate and homocysteine plasma concentrations of 494 children with acute lymphoblastic leukemia treated with high-dose methotrexate in the TOTAL XV study, a pharmacokinetic/pharmacodynamic (PK/PD) model was built with NONMEM. Several compartment and indirect response models were investigated. The pharmacokinetic disposition of methotrexate was best described by a two-compartment model. Homocysteine concentrations were included by an indirect response model where methotrexate inhibition of the homocysteine elimination rate was described by an E_max model. The homocysteine baseline level was found to be age-dependent. Simulations revealed that folinate rescue therapy does not affect peak concentrations of homocysteine but leads to a modestly reduced homocysteine exposure. In conclusion, our PK/PD model describes the increase of methotrexate-induced HCY concentrations with satisfactory precision and can be applied to assess the effect of folinate regimens on the HCY concentration-time course.     

Kinetics of Intravenously Administered Lactose in Cows

Four adult Norwegian Red cows were employed in an experiment designed to study the kinetics of lactose. The cows were given 50 g or 60 g of lactose by rapid intravenous injection of a 10 % lactose solution. Blood samples were taken at different intervals after injection, and lactose concentrations in the samples determined by an enzymatic/spectrophotometric method. The mean half-time for lactose elimination was 85.7 min, and for distribution 8.4 min. The mean apparent volume of distribution was calculated to be 0.189 1/kg, and total body clearance 1.55 ml min−1 kg−1. There was evidence to suggest that lactose mainly is eliminated renally from its distribution volume by glomerular filtration in the cow.     

Pharmacokinetics of meloxicam in rabbits after single and repeat oral dosing

We evaluated the pharmacokinetic profile of meloxicam (0.3 and 1.5 mg/kg) given as single and repeated (once daily for 5 d) oral doses to female rabbits (n = 5/group) to define the optimal dose and dosing interval for clinical use. Clinical signs, body weight, and serum chemistry parameters (sodium, potassium, chloride, total protein, urea, creatinine, glucose, alkaline phosphatase, gamma glutamyl transferase, and alanine aminotransferase) were evaluated before and 5 d after dosing to monitor safety at the 2 dose levels in both studies. Plasma samples were collected serially, and concentrations were determined by high performance liquid chromatography. After single oral dosing at 0.3 or 1.5 mg/kg, maximal plasma concentrations of meloxicam were achieved at 6 to 8 h and were 0.14 and 0.3 microg/ml, respectively. Plasma drug levels decreased rapidly to near-undetectable levels by 24 h. There was moderate interindividual variability in plasma meloxicam concentrations with less than proportional increases in peak plasma concentration and area under the concentration curve values at the higher dose after the single and repeat dosing. The elimination half-life was approximately 8 h at both dose levels, suggesting that metabolism was not saturated. Oral clearance of meloxicam is high in rabbits, indicating rapid metabolism and elimination. There was no accumulation of meloxicam when given at 0.3 or 1.5 mg/kg for 5 d, and meloxicam was rapidly eliminated after discontinuation of dosing. Rabbits may require a dose exceeding 0.3 mg/kg given once daily to achieve optimal plasma levels of meloxicam over a 24-h interval.     

Kinetic Analyses of Calcium Movements in HeLa Cell Cultures : II. Calcium efflux

Calcium efflux was studied in monolayers of HeLa cells. The fast phase of exchange was studied in an open system by continuous washout. Its half-time was 1.58 min which is practically identical to the fast phase of calcium influx previously found to be 1.54 min. This suggests that the fast component of efflux represents calcium exchange from an extracellular compartment probably from calcium bound to the cell membrane surface. Dinitrophenol (DNP) and iodoacetate (IAA) do not inhibit calcium efflux from this compartment. The slow phase of calcium exchange was studied in a closed three compartment system. The half-time of calcium efflux measured under these conditions is almost identical to that obtained previously in studies of calcium influx: 33.0 and 37.0 min, respectively. This slow compartment is likely to be the intracellular exchangeable calcium pool. DNP and IAA inhibit calcium efflux from this compartment, lengthening the half-time from 33 min to 55.0 and 216 min, respectively. This suggests that calcium extrusion from the cell is an active process. Since calcium influx is not affected by metabolic inhibitors, the cellular calcium concentration increases as would be predicted under these conditions. Calcium efflux is also markedly depressed by lowering the temperature.     

Ketamine kinetics: decerebrate vs. intact cats.

Pharmacokinetic parameters of a ketamine (10 mg/kg, iv) bolus in decerebrate and intact cats were compared. A two-compartment open model best described the data in both groups. The apparent volume of distribution of the peripheral compartment, the apparent volume of distribution of the drug in the body, and the half-life of the postdistributive phase were significantly less (p less than 0.05) in the decerebrate animals. These results emphasize the importance of correlating behavior and neuronal activity with plasma or blood concentrations of drug in animals rather than assuming that, for a given drug dose, blood (and thus tissue) levels of the agent will be similar regardless of how the animal is prepared for study.     

Kinetics of radiolabelled (99mTc) heparin and low molecular weight heparin fractions CY 216, CY 222 in patients with uncomplicated myocardial infarction

Kinetics of plasmatic disappearance of radiolabelled (99mTc) heparin (Choay, Mr mean 15,000) and low molecular weight heparin (LMWH) fraction CY 216 (Choay, Mr mean 5,000) and CY 222 (Choay, Mr mean 4,000) was compared in 2 women and 8 men (aged 50-71, mean 65 years) with uncomplicated myocardial infarction. The three technetiated heparins were consecutively injected intravenously (67 nanomoles) to each of 10 patients, at intervals of 3-5 days, 14-28 days after acute cardiac onset. The plasma radioactivity was counted in blood samples collected within a period of 5 h. Radiolabelled heparin and LMWH fractions CY 216, CY 222 disappeared from plasma following a biexponential clearance curve with a fast and slow component reflecting the biodistribution (alpha) and elimination (beta) phase. The bioavailability values (AUC, t0.5 alpha, t0.5 beta) as well as distribution and elimination rates were similar for all three technetiated heparins. The bulk of injected 99mTc-heparin or LMWH fraction was rapidly distributed to the tissular compartment (t0.5 alpha = 13 min), whereas the radiocomplex remaining in the circulation was slowly eliminated with a half-time (t0.5 beta) of an average 320 min. Radioactivity eliminated from plasma was only partially (30-50%) excreted in the urine. The results indicate that after a low-dose intravenous administration LMWH fractions CY 216 and CY 222 maintain the pharmacokinetics properties of standard heparin, especially the rapid distribution to the tissular compartment.     

Influence of Time of Day on Propofol Pharmacokinetics and Pharmacodynamics in Rabbits

This study evaluates the administration time-of-day effects on propofol pharmacokinetics and sedative response in rabbits. Nine rabbits were sedated with 5?mg/kg propofol at three local clock times: 10:00, 16:00, and 22:00?h. Each rabbit served as its own control by being given a single infusion at the three different times of day on three separate occasions. Ten arterial blood samples were collected during each clock-time experiment for propofol assay. A two-compartment model was used to describe propofol pharmacokinetics, and the pedal withdrawal reflex was used as the sedation pharmacodynamic response. The categorical data comprising the presence or absence of pedal withdrawal reflex was described by a logistic model. The typical volume of the central compartment equaled 7.67?L and depended on rabbit body weight. The elimination rate constant depended on drug administration time; it was lowest at 10:00?h, highest at 16:00?h, and intermediate at 22:00?h. Delay of the anesthetic effect, with respect to plasma concentrations, was described by the effect compartment, with the rate constant for the distribution to the effector compartment equal to 0.335?min^?1. Drug concentration had a large effect on the probability of anesthesia. The degree of anesthesia was largest at 10:00?h, lowest at 16:00?h, and intermediate at 22:00?h. In summary, both the pharmacokinetics and pharmacodynamics of propofol in rabbits depended on administration time. The developed population approach may be used to assess chronopharmacokinetics and chronopharmacodynamics of medications in animals and humans. (Author correspondence: agnbienert@op.pl)     

Population Pharmacokinetics of an Indian F(ab')2 Snake Antivenom in Patients with Russell's Viper (Daboia russelii) Bites

Background

There is limited information on antivenom pharmacokinetics. This study aimed to investigate the pharmacokinetics of an Indian snake antivenom in humans with Russell’s viper bites.

Methods/Principal Findings

Patient data and serial blood samples were collected from patients with Russell’s viper (Daboia russelii) envenoming in Sri Lanka. All patients received Indian F(ab’)₂ snake antivenom manufactured by VINS Bioproducts Ltd. Antivenom concentrations were measured with sandwich enzyme immunoassays. Timed antivenom concentrations were analysed using MONOLIXvs4.2. One, two and three compartment models with zero order input and first order elimination kinetics were assessed. Models were parameterized with clearance(CL), intercompartmental clearance(Q), central compartment volume(V) and peripheral compartment volume(V_P). Between-subject-variability (BSV) on relative bioavailability (F) was included to account for dose variations. Covariates effects (age, sex, weight, antivenom batch, pre-antivenom concentrations) were explored by visual inspection and in model building. There were 75 patients, median age 57 years (40-70y) and 64 (85%) were male. 411 antivenom concentration data points were analysed. A two compartment model with zero order input, linear elimination kinetics and a combined error model best described the data. Inclusion of BSV on F and weight as a covariate on V improved the model. Inclusion of pre-antivenom concentrations or different batches on BSV of F did not. Final model parameter estimates were CL,0.078 Lh^-1, V,2.2L, Q,0.178Lh^-1 and V_P,8.33L. The median half-life of distribution was 4.6h (10-90%iles:2.6-7.1h) and half-life of elimination, 140h (10^th-90^th percentilesx:95-223h).

Conclusion

Indian F(ab’)₂ snake antivenom displayed biexponential disposition pharmacokinetics, with a rapid distribution half-life and more prolonged elimination half-life.     

Metabolism of bisphenol A in zebrafish (Danio rerio) and rainbow trout (Oncorhynchus mykiss) in relation to estrogenic response

The kinetics of bisphenol A (BPA) were investigated in zebrafish (Danio rerio) exposed to 100 microg BPA/l. BPA uptake was measured during a 7-day period followed by an elimination phase of similar duration. After 2, 6, 12, 24, 48, 72, 120 and 168 h of uptake/elimination, fish were analysed for their content of BPA, bisphenol A glucuronic acid (BPAGA) and bisphenol A sulfate (BPAS). Within the first 24 h steady state levels of BPA, BPAGA and BPAS were reached and the total body concentrations were calculated to be 569, 12,600 and 39.9 ng/g fish, respectively. Elimination rates of the three compounds in zebrafish were estimated by fitting the data to a compartment model. An initial rapid elimination phase was observed for BPA and BPAS with total body half lives (T(1/2)) of <1.1 h and 30 min, followed by a slower second elimination phase with T(1/2) values of 139 and 71 h, respectively. Excretion of BPAGA occurred from a single compartment with a T(1/2) of 35 h. The steady state concentration of BPA and its metabolites were investigated in rainbow trout (Oncorhynchus mykiss) exposed to 100 microg BPA/l. The toxicokinetic parameters from zebrafish and rainbow trout were compared; including previously published data on the rainbow trout. The data indicate that the smaller estrogenic sensitivity observed for the zebrafish may be caused by a more rapid metabolism of BPA in the zebrafish liver.     

Development and validation of a LC-ESI-MS/MS method for the determination of swertiamarin in rat plasma and its application in pharmacokinetics

A new LC-ESI-MS/MS assay method has been developed and validated for the quantification of swertiamarin, a representative bioactive substance of Swertia plants, in rat plasma using gentiopicroside, an analog of swertiamarin on chemical structure and chromatographic action, as the internal standard (IS). The swertiamarin and IS were extracted from rat plasma using solid-phase extraction (SPE) as the sample clean-up procedure, and they were chromatographed on a narrow internal diameter column (Agilent ZORBAX ECLIPSE XDB-C(18) 100 mm × 2.1 mm, 1.8 μm) with the mobile phase consisting of methanol and water containing 0.1% acetic acid (25:75, v/v) at a flow rate of 0.2 mL/min. The detection was performed on an Agilent G6410B tandem mass spectrometer by negative ion electrospray ionisation in multiple-reaction monitoring mode while monitoring the transitions of m/z 433 [M+CH(3)COO](-)→179 and m/z 415 [M+CH(3)COO](-)→179 for swertiamarin and IS, respectively. The lower limit of quantification (LLOQ) was 5 ng/mL within a linear range of 5-1000 ng/mL (n=7, r(2)≥0.994), and the limit of detection (LOD) was demonstrated as 1.25 ng/mL (S/N≥3). The method also afforded satisfactory results in terms of sensitivity, specificity, precision (intra- and inter-day), accuracy, recovery, freeze/thaw, long-time stability and dilution integrity. This method was successfully applied to determination of the pharmacokinetic properties of swertiamarin in rats after oral administration at a dose of 20 mg/kg. The following pharmacokinetic parameters were obtained (mean): maximum plasma concentration, 1920.1 ng/mL; time to reach maximum plasma concentration, 0.945 h; elimination half-time, 1.10h; apparent total clearance, 5.638 L/h/kg; and apparent volume of distribution, 9.637 L/kg.