A fast ultra-performance liquid chromatography method for simultaneous quantification of mycophenolic acid and its phenol- and acyl-glucuronides in human plasma.

Several studies have demonstrated a close relationship between mycophenolic acid (MPA) exposure and the risk for graft rejection or side effects. Measurements of MPA and its metabolites plasma levels are therefore recommended. A new chromatographic method has been developed using ultra-performance liquid chromatography (UPLC) to improve both analytical throughput and sensitivity. MPA and its phenol-glucuronide and acyl-glucuronide were extracted from plasma using Isolute C2 solid phase extraction (SPE) cartridges (100 mg, 3 mL). UPLC separations were performed with a Waters BEH C18 column (50 x 2.1 mm, 1.7 microm) maintained at 65 degrees C on a Waters Acquity instrument equipped with a photodiode array detector. The total UPLC run time was 3.5 minutes. The method was linear in the range of 0.1-40 microg/mL for MPA and acyl-glucuronide, and 1-400 microg/mL for phenol-glucuronide. Relative standard error and mean relative prediction error were <15% for all tested quality controls (in-house and external proficiency panels). UPLC performances are characterized by a dramatic reduction in retention times together with an improvement of the sensitivity without affecting peak resolution. Further validations have been obtained by analyzing routine and clinical trial patients' samples. Significant improvement of the analytical throughput (reduction of run time from >10 to 3.5 minutes) was obtained using UPLC for MPA analyses. This retention time reduction was accompanied by an improvement of other analytical performances such as sensitivity.

Quantification of 8 HIV-protease inhibitors and 2 nonnucleoside reverse transcriptase inhibitors by ultra-performance liquid chromatography with diode array detection.

BACKGROUND: Most HPLC-UV methods for therapeutic drug monitoring of anti-HIV drugs have long run times, which reduce their applicability for high-throughput analysis. We developed an ultra-performance liquid chromatography (UPLC)-diode array detection method for the simultaneous quantification of the HIV-protease inhibitors (PIs) amprenavir, atazanavir, indinavir, lopinavir, nelfinavir, ritonavir, saquinavir, and tipranavir (TPV), and the nonnucleoside reverse transcriptase inhibitors (NNRTIs) efavirenz and nevirapine. METHODS: Solid-phase extraction of 1 mL plasma was performed with Waters HLB cartridges. After 3 wash steps, we eluted the drugs with methanol, evaporated the alcohol, and reconstituted the residue with 50 microL methanol. We injected a 4-microL volume into the UPLC system (Waters ACQUITY UPLC BEH C8 column maintained at 60 degrees C) and used a linear gradient of 50 mmol/L ammonium acetate and 50 mmol/L formic acid in water versus acetonitrile to achieve chromatographic separation of the drugs and internal standard (A-86093). Three wavelengths (215, 240, and 260 nm) were monitored. RESULTS: All drugs were eluted within 15 min. Calibration curves with concentrations of 0.025-10 mg/L (1.875-75 mg/L for TPV) showed coefficients of determination (r(2)) between 0.993 and 0.999. The lower limits of quantification were well below the trough concentrations reported in the literature. Inter- and intraassay CVs and the deviations between the nominal and measured concentrations were <15%. The method was validated by successful participation in an international interlaboratory QC program. CONCLUSIONS: This method allows fast and simultaneous quantification of all commercially available PIs and NNRTIs for therapeutic drug monitoring.

Validation of a liquid chromatography-mass spectrometric assay for tacrolimus in liver biopsies after hepatic transplantation: correlation with histopathologic staging of rejection.

The aims of this work were both to validate a sensitive and specific method to quantify tacrolimus (TAC) in liver biopsies after hepatic transplantation and to evaluate the predictive value of either tissue or blood TAC concentrations for rejection in 146 adult patients under a TAC-based immunosuppression. Trough blood levels were monitored daily during the hospital stay by immunoassay. Liver biopsies were routinely performed at day 7 posttransplantation. The tissue assay was developed by liquid chromatography-mass spectrometry. The limit of quantification was 5 pg/mg, with intra- and interassay precision ranging from 3.9% to 14.3% and 4.7% to 15.9%, respectively. The extraction efficiency was approximately 80%. TAC found in liver biopsies ranged from less than 5 up to 387 pg/mg. Blood TAC levels ranged from 2.7 to 19.3 ng/mL. Tissue levels displayed excellent correlation with liver histopathologic BANFF rejection score, whereas blood levels did not. Clinically significant rejections (BANFF scores > or = 6) were characterized by mean TAC tissue and blood concentration of 13.1 pg/mg and 7.6 ng/mL, respectively, whereas these mean values became, respectively, 74.9 pg/mg (P < 0.05) and 7.1 ng/mL (not significant) for nonclinically significant rejection episodes (BANFF < 6). In this study, hepatic tissue TAC concentrations were distributed in a wider range and displayed a significantly better correlation with the severity of the organ rejection than predose blood levels. A tissue TAC concentration less than 30 pg/mg is 89% sensitive and 98% specific to discriminate clinically significant cellular rejection. Further studies are required to better understand the factors affecting TAC distribution within liver tissue (such as carrier proteins and cytochrome genetic polymorphism, liver function, age, hepatic blood flow, type of organ transplanted, time posttransplantation) and to define its value in the treatment of liver allograft rejection.

Prolonged unconsciousness in a patient on automated peritoneal dialysis.

A 79-year-old man with end-stage renal disease treated by automated peritoneal dialysis was referred to the emergency department for altered consciousness. The first investigations, including toxicology screening, failed to reveal the precise etiology. The patient was treated for a possible seizure. After the progression of central nervous system depression with bradypnea, the patient was intubated and mechanically ventilated. It appeared later on that he had ingested by mistake one of his wife's medications, baclofen. Baclofen was detected in the blood sampled on admission at a level above the therapeutic range. Baclofen is mainly excreted by the kidney. A short-term administration of low-dose of baclofen is not effectively removed by peritoneal dialysis and may result in prolonged but reversible coma.

Permeability of 13 different gloves to 13 cytotoxic agents under controlled dynamic conditions.

PURPOSE: The permeability of 13 different gloves to 13 cytotoxic agents under controlled dynamic conditions is described. METHODS: Thirteen cytotoxic agents were prepared at the highest concentrations normally encountered by pharmacy personnel. Four glove types--neoprene, natural rubber latex, nitrile, and vinyl--were exposed to the cytotoxic agents for 15, 30, and 60 minutes. Tests were conducted using the middle finger of each glove. Linearity, reproducibility, and sensitivity were evaluated for each drug tested. Assays were run using liquid chromatographic tandem mass spectrometry (LC/MS/MS) and high-performance liquid chromatography with ultraviolet light (HPLC-UV). Permeability testing was conducted using an original system designed to evaluate dynamic constraints, such as rubbing, stretching, and tension. RESULTS: Linearity by LC/MS/MS and HPLC-UV was confirmed at concentrations up to 1000 ng/mL for all drugs. Most glove materials were permeable at rates below ASTM recommendations over the one-hour testing period. Vinyl was the most permeable material. Carmustine permeated the widest variety of materials. Due to the high sensitivity of the analytic methods, all materials displayed low but significant permeability for at least one drug after one hour. Higher resistance to permeation was recorded for all neoprene, some natural rubber latex, and one nitrile glove. CONCLUSION: Neoprene, natural rubber latex, and nitrile gloves displayed the highest resistance to permeation of the 13 cytotoxic agents studied. Additional factors, such as duration of exposure, glove thickness, and drug liposolubility and molecular weight, also affected permeability.

Alfentanil-induced miosis clearance as a liver CYP3A4 and 3A5 activity measure in healthy volunteers: improvement of experimental conditions.

The aims of this study were to demonstrate the correlation between alfentanil-induced miosis evaluation and alfentanil pharmacokinetics (PK) as a CYP3A4 and 3A5 activity probe in volunteers and to explain the variability in pupilar response and in alfentanil PK. In ambient light, the miosis kinetic parameters were significantly correlated with PK (CLs: r = 0.9, P = .00; AUCs: r = 0.8, P = .01). In dark, a similar correlation was observed between miosis and alfentanil clearances (r = 0.85, P = .03). In 6 volunteers, the sigmoid E(max) model was applicable (average E(max) = 2.5 +/- 0.7 mm, gamma = 2.5 +/- 1.6 and EC(50) = 76.8 +/- 22.3 ng/mL), and in 3, the simple E(max) model was applicable (average E(max) = 2.8 +/- 0.3 mm and EC(50) = 19.9 +/- 8.5 ng/mL). There was a large interindividual variability in PK parameters (coefficient of variation = 19.7%-31.2%). Free drug fraction concentrations were negatively correlated with plasma alpha(1)-AGP (r = -0.9, P = .04) and albumin levels (r = -0.94, P = .02). Alfentanil-induced miosis clearance as a noninvasive CYP3A4 and 3A5 activity measure can be done in both ambient and dark conditions. Drug free fraction may be responsible for large intersubject variability in alfentanil PK.

Fomepizole alone for severe infant ethylene glycol poisoning.

OBJECTIVE: To report a case of a massive ingestion of ethylene glycol in an infant successfully treated by fomepizole without hemodialysis. DESIGN: Descriptive case report. SETTING: Pediatric intensive care unit. PATIENT: A 5-mo-old boy who ingested 200 mL of an antifreeze solution. INTERVENTIONS: Antidotal therapy with a total of seven doses of fomepizole administered intravenously with an interval of 12 hrs (15 mg/kg as loading dose, then 10 mg/kg). Hemodialysis was not performed. MEASUREMENTS AND MAIN RESULTS: Iterative determination of ethylene glycol concentration was obtained in blood and urine. Kinetics were calculated for ethylene glycol and fomepizole elimination. The infant made a complete recovery with no change in renal function. CONCLUSIONS: Although not yet approved for this indication in the child, fomepizole seemed safe and effective in a case of severe ethylene glycol poisoning, without the need for hemodialysis.

Plasma and tissue determination of 4-methylpyrazole for pharmacokinetic analysis in acute adult and pediatric methanol/ethylene glycol poisoning.

Methanol and ethylene glycol poisoning may result in severe intoxication. The inhibition of alcohol dehydrogenase by ethanol or 4-methylpyrazole (4-MP, fomepizole) is fundamental to their treatment. 4-MP presents several advantages over ethanol therapy and has been recently approved as a specific antidote for both intoxications. The authors have developed a simple gas chromatographic method to determine blood and tissue 4-MP concentrations. This method has been validated for its reproducibility (between-day CV < 6.3%), sensitivity (LOD 0.2 microg/mL), and linearity. It has been used in 4 adult patients intoxicated by methanol and 1 child accidentally intoxicated by ethylene glycol. 4-MP was used for each patient, and its blood levels were monitored every 4 hours over 2-3 days for pharmacokinetics purposes. In the population studied, after repeated administration of 10 mg/kg fomepizole, plasma 4-MP concentrations ranged from 1.4 to 21.6 microg/mL, always above the active level of 0.8 microg/mL. The mean peak concentration observed in the 4 adult patients was 18.5 +/- 2.6 microg/mL and in the child was 18.9 +/- 2.2 microg/mL. Even though 4-MP is characterized by a dose-dependent kinetic profile, under our conditions of dosage and blood sampling, its elimination better fitted a first-order kinetic model. At steady state and without any concomitant therapies, the mean apparent elimination half-life was 14.5 +/- 3 hours. Elimination seemed faster in the child. A trend toward a progessive enhancement of the 4-MP elimination rate is suggested in the pediatric case, with the duration of the treatment resulting in a t(1/2) below 5 hours after 48 hours. One patient died, and samples of blood and hepatic tissue were removed simultaneously during autopsy for 4-MP analysis. Interestingly, when the plasma concentration was subtherapeutic (<1 microg/mL) the tissue concentration observed was still significant with 12 microg/g, supporting an intermittent scheme of administration.

High-throughput liquid chromatography-tandem mass spectrometric analysis of sirolimus in whole blood.

Sirolimus appears as a new potent immunosuppressive agent taking advantage of therapeutic drug monitoring to optimize its use in organ transplantation. In the absence of any available commercial immunoassay it was mandatory to develop chromatographic assays. Some methods have already been proposed to quantify sirolimus in whole blood, based either on HPLC-UV, liquid chromatography-mass spectrometry (LC-MS) or liquid chromatography-tandem mass spectrometry (LC-MS/MS). We have developed a new faster and simpler LC-MS/MS method to quantify sirolimus in blood using ascomycin as an internal standard and multiple reaction monitoring (MRM) acquisition mode. This method displays a limit of detection of 0.3 microg/l, and the intra-assay reproducibility ranges from 4.1-7.9%. The pre-analytical preparation steps are quite similar to those required for semi-automated immunoassays. Ascomycin and sirolimus present retention times of 0.89 and 0.93 min, respectively, and the turnaround time for a result (2.5 min) is also similar to that observed using a clinical analyzer. The comparison performed between HPLC-UV and LC-MS/MS displays good correlation (r = 0.949). The LC-MS/MS method described above has been used routinely for more than 2000 patient blood specimens and may present several advantages over existing methods, e.g., specificity with sufficient sensitivity, rapidity, and small blood sampling (10 microl), making it particularly adapted for routine clinical use.

Determination of ethylene glycol tissue content after fatal oral poisoning and pathologic findings.

A 23-year-old comatose man who had drunk an unknown amount of ethylene glycol was admitted to the hospital 5 hours after ingestion. The initial plasma ethylene glycol concentration was 116.2 mg/100 ml. A severe metabolic acidosis was present. Despite aggressive therapy with ethanol, hemodialysis, and intensive care support, the patient died 27 hours after poisoning. The plasma ethylene glycol concentration immediately before death was 35.9 mg/100 ml. Brain edema and acute renal tubular necrosis were evident at postmortem examination. Oxalate crystals were identified in both organs. Ethylene glycol content or concentration was determined in tissues and biologic fluids.