Martin H.J. Wiesen

The role of sex and weight on rituximab clearance and serum elimination half-life in elderly patients with DLBCL

Pharmacokinetics of 8 doses of rituximab (375 mg/m(2)) given in combination with 2-week cyclophosphamide, hydroxydaunorubicin, vincristine, and prednisone/prednisolone (CHOP-14) was determined by ELISA in 20 elderly patients with diffuse large B-cell lymphoma (DLBCL) 10 minutes before and after each infusion and 1 week and 1, 2, 3, 6, and 9 months after the last infusion. Population pharmacokinetic modeling was performed with nonlinear mixed-effect modeling software (NONMEM VI). Concentration-time data were fitted into an open 2-compartment model and total clearance, central compartment volume, intercompartment clearance, and volume of distribution at steady-state (Vd(ss)) were investigated. Total clearance was 9.43 mL/h and Vd(ss) was 9.61 l. Rituximab clearance was reduced (8.21 mL/h vs 12.68 mL/h; P = .003) and elimination half-life was prolonged in women compared with men (t(1/2β) = 30.7 vs 24.7 days; P = .003). Body weight also affected Vd(ss) (0.1 l increase of Vd(ss) per kilogram above median of 75 kg). A sex-dependent effect and the higher weight of males contribute to their faster rituximab clearance, which might explain why elderly males benefit less from the addition of rituximab to CHOP than females. This trial was registered on www.clinicaltrials.gov as numbers NCT00052936, EU-20243 (RICOVER-60 Trial), EU-20534, and NCT00726700 (Pegfilgrastim Trial).

Suboptimal dosing of rituximab in male and female patients with DLBCL

To determine the effect of gender on outcome, the male hazard ratio for progression-free survival (HRPFS-male) was determined in patients with diffuse large B-cell lymphoma (DLBCL). In young patients (MapThera International Trial study), HRPFS-male was 1.3 (P = .092) without and 1.1 (P = .660) with rituximab. In elderly patients (RICOVER-60 study), HRPFS-male was 1.1 (P = .348) with CHOP but increased to 1.6 (P = .004) with R-CHOP. The similar improvements of outcome in young patients were associated with similar rituximab clearances in young males and females (9.89 vs 10.38 mL/h; P = .238), whereas the greater benefit for elderly females was associated with a slower rituximab clearance (8.47 vs 10.59 mL/h; P = .005) and hence higher serum levels and longer exposure times, attributable to an age-dependent (P = .004) decrease of rituximab clearance in females but not males. Compared with elderly females, all other subgroups had significantly faster rituximab clearances and hence appear to be suboptimally dosed when rituximab is given at 375 mg/m(2). Although early results of pharmacokinetic-based prospective trials designed to exploit the full therapeutic potential of rituximab suggest that increased doses and/or prolonged exposure times can improve the outcome of elderly males with DLBCL, further studies are warranted that address the optimization of rituximab dose and schedule in all subgroups of DLBCL patients.

Optimization of Rituximab for the Treatment of Diffuse Large B-Cell Lymphoma (II): Extended Rituximab Exposure Time in the SMARTE-R-CHOP-14 Trial of the German High-Grade Non-Hodgkin Lymphoma Study Group

PURPOSE To study pharmacokinetics, toxicity, and efficacy of prolonged rituximab exposure in elderly patients with diffuse large B-cell lymphoma (DLBCL). PATIENTS AND METHODS In the SMARTE-R-CHOP-14 trial, rituximab 375 mg/m(2) was administered, together with six cycles of rituximab plus cyclophosphamide, doxorubicin, vincristine, and prednisone on a 14-day schedule (6×R-CHOP-14), on days -4, 0, 10, 29, 57, 99, 155, and 239. Pharmacokinetics and outcome were to be compared with those of patients who had received 6×R-CHOP-14 in combination with eight 2-week applications of rituximab in the RICOVER-60 (Rituximab With CHOP Over Age 60 Years) trial. RESULTS The complete response (CR)/unconfirmed CR rate was 85% in 189 evaluable patients, 90% for 90 good-prognosis patients (International Prognostic Index [IPI], 1 or 2), and 81% for 99 poor-prognosis patients (IPI, 3 to 5); 3-year event-free survival (EFS) was 71%, 75%, and 67%, respectively; and 3-year overall survival (OS) was 84%, 88%, and 80%, respectively, with no differences between men and women. The preplanned historical comparison with 306 RICOVER-60 patients (good prognosis, n = 183; poor prognosis, n = 123) revealed no outcome differences for all and good-prognosis patients; however, the longer exposure time in SMARTE-R-CHOP-14 compared with RICOVER-60 was associated with better 3-year EFS (67% v 54%) and OS (80% v 67%) in poor-prognosis patients. CONCLUSION Extended rituximab exposure compared with eight 2-week applications in combination with 6×R-CHOP-14 significantly improved outcome of elderly poor-prognosis patients without increasing toxicity. To our knowledge, results obtained with the SMARTE-R-CHOP-14 rituximab schedule are the best reported for elderly patients with DLBCL to date. In the subgroup of poor-prognosis patients treated with extended rituximab exposure, the outcome seemed superior to that of a similar historical cohort of patients treated with 6×R-CHOP-14 plus 2-week rituximab, with similar toxicity. A randomized comparison of the two schedules is warranted.

Liquid chromatography-tandem mass spectrometry method for the quantification of mycophenolic acid and its phenolic glucuronide in saliva and plasma using a standardized saliva collection device.

A liquid chromatography-tandem mass spectrometry (LC-MS/MS) method was developed for simultaneous quantification of mycophenolic acid (MPA) and its phenolic glucuronide (MPAG) in saliva and plasma. Saliva was collected and processed using a standardized commercially available collection device. Sample preparation comprised of protein precipitation with acetonitrile and subsequent centrifugation, followed by evaporation and reconstitution with mobile phase. A labeled isotope of MPA was used as internal standard, and chromatographic separation was achieved on a C18 column with an isocratic flow. LC-MS/MS detection was performed using a triple-stage quadrupole mass spectrometer working in selected reaction monitoring mode with positive electrospray ionization (ESI). The analytes were quantified in a single run within 2 min. For saliva, linearity was demonstrated over the concentration range of 5.0 to 400.0 ng/ml for both MPA and MPAG, and from 0.08 to 20.00 μg/ml for MPA and 0.4 to 100.0 μg/ml for MPAG in plasma. The lower limits of quantification for MPA and MPAG were 0.07 and 0.80 ng/ml in saliva, and 0.002 and 0.009 μg/ml in plasma, respectively. Inter- and intra-day precisions expressed as relative standard deviation (RSD) and accuracies were less than 15%. The recoveries for MPA and MPAG from the collection devices swab were higher than 90%. Sample stability was confirmed for bench times up to 24 h at room temperature. The method was validated according to International Conference on Harmonization (ICH) guidelines Q2 (R1) Validation of Analytical Procedures. The applicability of the method was tested in a renal pediatric patient. Based on a limited sampling strategy, MPA saliva and plasma concentrations were found in good agreement with each other. We suggest that the described method is suitable to analyze saliva and plasma samples of small volumes for therapeutic drug monitoring (TDM) and pharmacokinetic studies in pediatric patients.

Multi-analyte analysis of non-vitamin K antagonist oral anticoagulants in human plasma using tandem mass spectrometry

Abstract Background: The non-vitamin K antagonist oral anticoagulants (NOACs) apixaban, dabigatran, and rivaroxaban are being administered in fixed doses without routine monitoring of anticoagulant activities. Despite this key advantage over vitamin K antagonists (VKAs), assessment of anticoagulant intensities is required in various clinical circumstances. We developed a multi-analyte approach for mass spectrometric analysis of NOACs in human plasma. Methods: Plasma samples were precipitated with acetonitrile. Separation was achieved by liquid chromatography using a C18 column and a gradient elution within a run time of 2.5 min. Positive electrospray ionization was used and ion transitions monitored by a triple quadrupole mass spectrometer. Stable-isotope-labeled analogues of analytes were employed as internal standards for quantitative analysis. Certified external quality control samples were obtained for external validation. Results: For all analytes, linearity could be demonstrated over the concentration range of 1–500 μg/L (R2>0.999), and the calculated limits of quantification were <1 μg/L. Results for inter- and intra-day assay precision and trueness were obtained using internal quality control samples and remained within the acceptance criterion of ±15%. External quality control samples were measured at the specified nominal values with inter- and intra-day precisions <14%. Matrix effects were fully compensated by co-eluting internal standards, which in turn did not relevantly influence ionization efficiency. Conclusions: The method enables rapid and reliable simultaneous determination of NOAC concentrations in human plasma. It was successfully introduced into clinical practice; a case with rivaroxaban overdose is presented to exemplify the method’s applicability.

The Direct Factor Xa Inhibitor Rivaroxaban Passes Into Human Breast Milk

Thromboembolic disorders frequently require antithrombotic treatment during pregnancy and lactation. Vitamin K antagonists and heparins are the treatment options of choice in breastfeeding women. Factors including the route of administration, discomfort during treatment, and fetal and neonatal safety affect womens choices about anticoagulant therapy. Direct-acting oral anticoagulants (DOACs) have emerged as alternatives to these agents and may offer advantages compared with vitamin K antagonists. As breastfeeding women were excluded from clinical trials evaluating DOACs, no safety and efficacy data are available for these special patients and, crucially, estimates for infant exposure are lacking. Therefore, the manufacturer recommends against using DOACs during the lactation period. We present the case of a patient who stopped breastfeeding owing to a diagnosis of postpartum cardiomyopathy. Anticoagulation with enoxaparin that commenced after the diagnosis of postpartum pulmonary embolism was switched to rivaroxaban. At that time, breast milk samples were collected and rivaroxaban concentrations were determined by liquid chromatography tandem-mass spectrometry. Rivaroxaban appears in human breast milk in comparatively small amounts; its safety has not been determined.

Structural and biophysical determinants of single CaV3.1 and CaV3.2 T-type calcium channel inhibition by N2O

We investigated the biophysical mechanism of inhibition of recombinant T-type calcium channels Ca(V)3.1 and Ca(V)3.2 by nitrous oxide (N(2)O). To identify functionally important channel structures, chimeras with reciprocal exchange of the N-terminal domains I and II and C-terminal domains III and IV were examined. In whole-cell recordings N(2)O significantly inhibited Ca(V)3.2, and - less pronounced - Ca(V)3.1. A Ca(V)3.2-prevalent inhibition of peak currents was also detected in cell-attached multi-channel patches. In cell-attached patches containing < or = 3 channels N(2)O reduced average peak current of Ca(V)3.2 by decreasing open probability and open time duration. Effects on Ca(V)3.1 were smaller and mediated by a reduced fraction of sweeps containing channel activity. Without drug, single Ca(V)3.1 channels were significantly less active than Ca(V)3.2. Chimeras revealed that domains III and IV control basal gating properties. Domains I and II, in particular a histidine residue within Ca(V)3.2 (H191), are responsible for the subtype-prevalent N(2)O inhibition. Our study demonstrates the biophysical (open times, open probability) and structural (domains I and II) basis of action of N(2)O on Ca(V)3.2. Such a fingerprint of single channels can help identifying the molecular nature of native channels. This is exemplified by a characterization of single channels expressed in human hMTC cells as functional homologues of recombinant Ca(V)3.1.

Paramagnetic micro-particles as a tool for rapid quantification of apixaban, dabigatran, edoxaban and rivaroxaban in human plasma by UHPLC-MS/MS

Abstract Background: Assessment of the anticoagulant activity of direct oral anticoagulants (DOACs) is justified in special clinical situations. Here, we evaluated two independent extraction methods and developed a multi-analyte ultra-high performance liquid chromatography tandem mass (UHPLC-MS/MS) method for the quantification of apixaban, dabigatran, edoxaban and rivaroxaban in human plasma. Methods: Routine extraction based on protein precipitation with acetonitrile and subsequent centrifugation was compared to sample clean-up using commercial paramagnetic micro-particles and subsequent magnetic depletion. Stable isotope-labeled analogs of all analytes were employed as internal standards. The method was validated according to international guidelines in terms of linearity, precision, trueness, sensitivity, recovery and matrix effects. The performances of both extraction methods were assessed in clinical samples obtained from patients treated with either apixaban or rivaroxaban. Additionally, we report on a patient with nonadherence to rivaroxaban treatment and fulminant pulmonary embolism. Results: The method was linear from 2 to 500 ng/mL for all analytes, and quantification of DOACs was established within a run time of 2.0 min. Based on MS/MS analyte responses, relative matrix effects were better controlled for dabigatran after extraction with paramagnetic micro-particles. Internal standards fully compensated for recovery and matrix effects in all assays, yielding equivalent results for both methods. Apixaban and rivaroxaban concentrations determined in clinical samples after extraction with both methods were in good agreement (R2=0.990). Conclusions: A rapid and accurate multi-component UHPLC-MS/MS method for the quantification of four DOACs in human plasma was established. Paramagnetic micro-particles appear suitable for clean-up of plasma samples for LC-MS/MS-based therapeutic drug monitoring purposes.

Therapeutisches Drug Monitoring (TDM) von Antiinfektiva in der Intensivmedizin

Therapeutic Drug Monitoring (TDM) is based on drug-level control in biological matrices and serves as a diagnostic approach for individualization of pharmacotherapy and drug safety. Drug levels of antibiotics are distinctly influenced by comorbidity, physiological changes and various concomitant drugs in patients on intensive care units. Several factors should be taken into account for calculation of relevant pharmacokinetic parameters (elimination half-life, bioavailability, and clearance) to deduce a recommendation for dosage. TDM is a diagnostic standard for the individualization of polypharmcotherapy based on validated analytical methods (in particular LC-MS/MS and HPLC-methods) in order to optimize dosing and drug safety.

Intracellular concentrations of anidulafungin in different compartments of the peripheral blood.

Pharmacokinetic studies usually focus on serum concentrations, hence little is known about intracellular drug concentrations. In this study, we determined the concentration of anidulafungin within different cellular compartments of the peripheral blood. Blood samples (n=17) from patients receiving anidulafungin were collected and separated by double-discontinuous Ficoll-Hypaque density gradient centrifugation. Intracellular concentrations within the obtained cells, i.e. peripheral blood mononuclear cells (PBMCs), polymorphonuclear leucocytes (PMNs) and red blood cells (RBCs), were determined by liquid chromatography tandem mass spectrometry (LC-MS/MS). Within the PBMCs and PMNs, the intracellular concentration of anidulafungin was significantly increased compared with the plasma concentration (P<0.001). However, the concentration within RBCs did not significantly differ from the plasma concentration. Anidulafungin reaches high concentrations in human PBMCs and PMNs and is present in RBCs. In vitro data showed that intracellular uptake of anidulafungin by PBMCs depends on the albumin concentration of the surrounding medium, but only at low, i.e. non-physiological, protein concentrations.