Quantitation using HRMS: A new tool for rapid, specific and sensitive determination of catecholamines and deconjugated methanephrines metanephrines in urine.

Urinary catecholamines and their methylated metabolites are biochemical indicators of pheochromocytoma, paraganglioma and neuroblastoma. A rapid and precise analytical method based on solid-phase extraction (SPE) and liquid chromatography separation coupled to high-resolution mass spectrometry (LC-HRMS) was developed and validated to measure urinary catecholamines (epinephrine (E), norepinephrine (NorE), dopamine (D)) and total methylated metabolites (normetanephrine (NorMN), metanephrine(MN) and 3-methoxytyramine (3-MT)) in a clinical setting. Results of 51 urine specimens measured using this LC-HRMS method were compared with a liquid chromatography assay with electrochemical detection (LC-EC). Urine samples (200 µL) were spiked with an internal standard solution followed by SPE purification. In the case of total methylated metabolites, urine was hydrolyzed before SPE purification. Separation was achieved on an Acclaim Mixed Mode WCX column, with an 8.5 min runtime. All compounds were detected in electrospray positive ionization mode with a parallel reaction monitoring acquisition and quantified with a linear regression (r2 > 0.998) between 2 and 200 µg/L (10.9-1090; 11.8-1182 nmol/L) for E and NorE respectively and between 10 and 1000 µg/L for others (65.2-6520; 50.7-5070; 54.5-5450 ; 59.8-5980 nmol/L for D, M, NorMN and 3-MT, respectively). Overall imprecision and bias did not exceed 15%. No significant matrix effect was observed. Correlation between the two assays was good except for epinephrine. Epinephrine concentrations measured by LC-EC method were slightly higher than values obtained with LC-HRMS method but without impact on clinical decision. This LC-HRMS assay provides a new tool for simultaneous quantitative catecholamine determination and was successfully applied in routine for the screening or follow up of pheochromocytoma, paraganglioma and neuroblastoma. LC-HRMS method offers significant advantages compared to LC-EC with good sensitivity, an unambiguous analyte determination and high sample throughput.

Leflunomide for BKvirus: Report of Seven Kidney-Transplanted Children.

BACKGROUND: Leflunomide is an immunosuppressive agent commercialized for treatment of rheumatoid arthritis. Because of its immunosuppressive and possible antiviral properties, leflunomide has been evaluated in some case series of BKVAN with favorable results, mostly in adult patients. Leflunomide targeted levels are usually between 50 and 100 mg/L in kidney transplant adult patients. Data in pediatric population are scarce. OBJECTIVE: To assess the effect of leflunomide on BKvirus in kidney-transplanted children. METHODS: Therapeutic drug monitoring of leflunomide is routinely performed by measuring its active metabolite, teriflunomide, using a simple HPLC-UV method. Pediatric kidney transplant patients with at least one teriflunomide sample between 2010 and 2017 were retrospectively included in this study. Viremia control was defined as undetectable BK viremia or a decrease of more than 1 log in the viral load from the baseline after two months of treatment. Adverse events were recorded. RESULTS: A total of 7 patients from 3 centers was included. 6 were only kidney transplant recipients; 1 was a lung-kidney transplant recipient with cystic fibrosis. All patients reported high load BK viremia but none developed BKVAN. For 67% of the patients, complete BK viral clearance was observed during leflunomide treatment with drastic immunosuppressive therapy reduction. Mycophenolate was indeed discontinued in almost all patients. Of note, leflunomide concentrations were significantly higher when viremia was controlled. Only 33% of the observed concentrations were >40 mg/L. The patient with cystic fibrosis had lower concentrations with higher drug doses. No hepatotoxicity was observed in this study and no patient experienced graft rejection. Leflunomide was suspected to cause hemolytic anemia and one patient experienced biological pancreatitis. CONCLUSION: This study evidenced the wide interindividual variability of the exposure and supported the routine practice of leflunomide with a suggested target level of 30-40 mg/L in pediatric kidney transplanted patient. However, because of the very limited number of patients in our series, further investigations are needed to validate this suggestion.

Voriconazole and squamous cell carcinoma after lung transplantation: A multicenter study.

This study evaluated the independent contribution of voriconazole to the development of squamous cell carcinoma (SCC) in lung transplant recipients, by attempting to account for important confounding factors, particularly immunosuppression. This international, multicenter, retrospective, cohort study included adult patients who underwent lung transplantation during 2005-2008. Cox regression analysis was used to assess the effects of voriconazole and other azoles, analyzed as time-dependent variables, on the risk of developing biopsy-confirmed SCC. Nine hundred lung transplant recipients were included. Median follow-up time from transplantation to end of follow-up was 3.51 years. In a Cox regression model, exposure to voriconazole alone (adjusted hazard ratio 2.39, 95% confidence interval 1.31-4.37) and exposure to voriconazole and other azole(s) (adjusted hazard ratio 3.45, 95% confidence interval 1.07-11.06) were associated with SCC compared with those unexposed after controlling for important confounders including immunosuppressants. Exposure to voriconazole was associated with increased risk of SCC of the skin in lung transplant recipients. Residual confounding could not be ruled out because of the use of proxy variables to control for some confounders. Benefits of voriconazole use when prescribed to lung transplant recipients should be carefully weighed versus the potential risk of SCC. EU PAS registration number: EUPAS5269.

A simple ultra-high-performance liquid chromatography-high resolution mass spectrometry assay for the simultaneous quantification of 15 antibiotics in plasma.

Antibiotic (ATB) treatment of critically ill patients with pathophysiological injuries remains a challenge due to the constant increase in antimicrobial resistance. Therapeutic drug monitoring (TDM) is advised for ATB dose adjustments to avoid suboptimal concentrations and dose-related adverse effects. Therefore, a single and reliable analytical method for a broad selection of ATBs was developed using a high-resolution mass spectrometry (HRMS) platform for frequent use in intensive care units. An UHPLC assay coupled to high resolution accurate mass acquisition has been developed for the quantification of penicillins (amoxicillin, oxacillin, piperacillin, and ticarcillin), cephalosporines (cefepime, cefotaxime, ceftazidime, and ceftriaxone), carbapenems (ertapenem, imipenem, and meropenem), lincosamide (clindamycin), quinolones (ofloxacin and ciprofloxacin) and tazobactam. Plasma samples (100µL) were spiked with an internal standard solution followed by protein precipitation. Separation was achieved on an Accucore C18 column, which enabled sample analysis every 9min. All compounds were detected in electrospray positive ion mode and quantified with a linear regression between 0.5 and 32mg/L (r2>0.998). Overall precision and accuracy did not exceed 15%. No significant matrix effect was observed for the studied ATBs. Stored stock solutions at -20°C were stable for 6 months, except for amoxicillin and imipenem. Analytes in plasma were stable for 24h under ambient conditions as well as in post-preparation in an autosampler, except for amoxicillin and imipenem. This HRMS assay provides the simultaneous quantification of 15 ATB; it fulfills the usual quality criteria and was successfully applied for routine TDM of ATBs. The method is based on a full scan acquisition, and it would be easy to add other compounds to the present panel in the future, as this assay has already been proven to be efficient for different classes of compounds.

Pharmacokinetics of antifungal agents in neonates and young infants.

The prevention and treatment of pediatric fungal infections are limited by the fact that not all antifungal drugs are approved for the pediatric age and appropriate dosages have not been established for each age group. The management of neonates and infants with invasive fungal infection is becoming more complex with an increasing number of antifungal agents available. Dosing information, is not available for newer antifungals and is limited with older antifungal agents. Insufficient neonatal studies have been performed with newer agents and there are numerous differences between neonates, children and adults with invasive fungal infection. Kinetic parameters such as the half-life [t(½)], clearance [CL], and volume of distribution [Vd] change with development, therefore the kinetics of antifungals need to be studied in order to optimize therapy with these drugs. A reasonable aim of pediatric dosing is to ensure levels of drug exposure which are comparable to those achievable in adults and which approximate those for which antifungal efficacy has been established. Therefore it will be of clinical relevance to ascertain the dosages of antifungals which produce an equivalent magnitude of exposure to that observed in adults. Drug therapy, studies on prescription and dosing should consider differences between neonates, infants and toddlers, children and adolescents in terms of drug disposition: absorption, metabolism and elimination/excretion. Determining the safety and pharmacokinetics of antifungals in neonates addresses an unfulfilled medical need given that data are sparse in neonates; at present, reports of antifungal pharmacokinetics in the treatment of neonatal fungal infections are limited to case series. The aim of this article is to review the pharmacokinetics of old and new antifungal drugs in neonates and young infants in a single article in order to provide a critical analysis of the literature. It will be important to evaluate all newly developed antifungals in neonates and infants to assure their maximum efficacy and safety. More pharmacokinetic data are required to ensure that the dose recommended for the treatment of fungal infections in the neonate achieves evidence based medicine.

Therapeutic drug monitoring in de novo kidney transplant receiving the modified-release once-daily tacrolimus.

INTRODUCTION: Advagraf (AVF) a new formulation of tacrolimus (TRL), allows once-daily administration while showing similar efficacy and safety to the conventional Prograf (PGF), which is prescribed twice daily. Our study sought to compare short-term therapeutic drug monitoring (TDM) of AVF and PGF in de novo kidney transplants. PATIENTS AND METHODS: We retrospectively collected results of TDM performed on blood trough samples (C0) using an LC- MS/MS assay to quantify TRL exposure in the two groups. Twelve subjects received initial immunosuppression with AVF associated with mycophenolic acid, steroids, and immunoglobulins. We compared median doses and C0 levels with those obtained in 18 cases receiving an equivalent dose of PGF during the same period. RESULTS AND DISCUSSION: Although both groups showed similar mean C0, the median dose in the AVF group tended to be higher than the PGF group-respectively, 9.8 and 7.9 mg/d-which may be attributed to the once-daily regimen, which inevitably results in lower C0 levels compared to the twice-a-day regimen, while overall exposure appeared similar in terms of area under the curve (AUC). This observation occurred especially during the first weeks despite the extended release formulation. In fact, one patient who showed a low C0 (5.9 ng/mL) while receiving high doses of AVF (0.28 mg/kg), the AUC of 356 and 211 ng.h/mL performed on days 12 and 18 respectively showed exposure consistent with efficacy. CONCLUSION: In conclusion, it seemed to be necessary to use higher doses (25%) of Advagraf to reach the targeted C0 levels during the first weeks posttransplant. For patients who do not reach the targeted C0 despite high doses, TRL exposure should be assessed by AUC or peak levels (C4h).

Sublingual tacrolimus as an alternative to intravenous route in patients with thoracic transplant: a retrospective study.

Tacrolimus (TRL) is an immunosuppressive drug characterized by a narrow therapeutic index, low bioavailability, and pharmacokinetic variability. Intravenous (i.v.) TRL may be needed whenever the oral route is unavailable. The small amount of infusion formulation (5 mg/mL) results in a large dilution and need for careful technical management of the infusion. This study addressed the feasibility to provide sublingual (SL) as an alternative to i.v.. TRL for transplanted patients. In a substudy, we performed a retrospective analysis of 17 lung and heart transplant patients using SL TRL. It included therapeutic drug monitoring and 4 area under curve (AUC) measurements. Patients received SL TRL on a dose-to-dose basis from the oral formulation. The mean age of the subjects (14 male, 3 female) was 35.3 ± 15.6 years; 146 trough (C(0)) samples were collected during the SL period (15.8 ± 20.6 days) showing a conformity level of 90.4%. Mean dose, C(0), and AUC of SL tacrolimus were 0.116 ± 0.096 mg/kg, 12.9 ± 5 ng/mL, and 230 ± 74 ng·h/mL, respectively, with an average 1 hour time to peak concentration. Acute rejection episodes, renal toxicity, and drug interactions were not observed. This study supported the convenience of short-term SL TRL administration, even in unconscious patients. Further investigations are needed to validate the dose range of the SL route.

Valganciclovir prophylaxis for cytomegalovirus infection in thoracic transplant patients: retrospective study of efficacy, safety, and drug exposure.

Oral ganciclovir (GCV) was replaced by prodrug valganciclovir (vGCV) for cytomegalovirus (CMV) prophylaxis. We assessed retrospectively (2005-2007) vGCV effectiveness and safety during prophylaxis and 4 months after, in heart (HTx) and lung transplantation (LTx), including lung transplant for cystic fibrosis (CFTx). Patients with stable renal function received vGCV 900 mg daily during 3-6 and 8-12 months in HTx and LTx. Effectiveness was assessed by antigenemia (pp65Ag) and a GCV therapeutic drug monitoring to document exposure. A total of 32 patients (11 HTx, 7 LTx, and 14 CFTx) received vGCV for 106+/-67 days in HTx versus 270+/-85 days in LTx and CFTx. Doses were 700+/-225, 915+/-60, and 820+/-150 mg/24 h in HTx, LTx, and CFTx showing acceptable mean trough GCV 0.75+/-0.5 mg/L. Two of 9 cases of neutropenia were attributable to vGCV. Three CMV donor-positive/recipient-negative CFTx patients presented positive pp65Ag; 2 developed CMV disease (6%). We found that vGCV 900 mg, adapted to renal function, was effective and safe for long CMV prophylaxis together with efficient exposure in thoracic transplantation.

Management of metabolic cytochrome P450 3A4 drug-drug interaction between everolimus and azole antifungals in a renal transplant patient.

We report a case of a 54-year-old male renal transplant patient who received antifungal azole treatment in combination with the recently introduced immunosuppressant agent everolimus to prevent post-transplantation aspergillosis reactivation. Voriconazole was withdrawn after 1 month because of elevated concentrations (5 mg/L trough plasma determination) and hepatotoxicity, and substituted by several months of treatment with posaconazole (observed concentration range 1-2 mg/L). We observed pharmacokinetic drug interactions between both voriconazole and posaconazole, and everolimus cytochrome P450 3A4 metabolism, resulting in 7.5- and 3.8-fold increase, respectively, in everolimus blood trough concentrations. Combined therapeutic drug monitoring (TDM) of both everolimus and azole inhibitors allowed for safe and convenient modification of everolimus dosage, which was tapered to maintain a target range of 5-15 ng/mL during and after antifungal treatments. While significant in their effects, these drug interactions were able to be managed safely through a careful approach to management and use of individual TDM.

Voriconazole pharmacokinetic variability in cystic fibrosis lung transplant patients.

BACKGROUND: Aspergillosis is a high-risk complication in cystic fibrosis (CF) lung transplant patients. Azole antifungal drugs inhibit CYP3A4, resulting in significant metabolic drug-drug interactions. Voriconazole (VRZ) was marketed without therapeutic drug monitoring (TDM) recommendations, consistent with favorable pharmacokinetics, but regular determinations of plasma VRZ concentration were introduced in our center to manage interactions with calcineurin inhibitors and to document the achievement of therapeutic levels. METHODS: VRZ TDM data analysis for trough concentration (C0) and peak concentration (C2) was carried out, using validated liquid chromatography assay with ultraviolet detection, for 35 CF lung transplant patients (mean age 25 years, mean weight 47 kg, balanced sex ratio) since 2003. Therapeutic range (C0: 1.5 +/- 0.5 - C2 : 4.0 +/- 1.0 mg/L) was expressed relative to pivotal pharmacokinetic trial data. RESULTS: The duration of VRZ treatment ranged from 9 days to 22 months. The recommended standard dose of VRZ (200 mg twice a day, following the loading dose) resulted in significant plasma concentrations (>0.5 mg/L) in 20% of CF lung transplant patients. Therapeutic concentrations were obtained using higher doses (average 570 +/- 160 mg/day, +43%, P<0.01). Despite adaptation, C0 remained <0.5 mg/L (11%), even when the drug was administered intravenously, highlighting the variability of VRZ pharmacokinetics, possibly enhanced by CYP2C19 polymorphism. The risk of inefficacy during periods of underdosage was overcome by treatment with antifungal drug combinations (caspofungin, n=10). The therapeutic index was limited by neurologic effects (14%) and hepatic abnormalities (30%). VRZ concentrations correlated significantly (P<0.01) with aspartate aminotransferase levels but not with bilirubin levels. VRZ acted as a metabolic inhibitor of tacrolimus (C0 to dose ratio 5.8 +/- 2.6, n=31/VRZ versus 1.7 +/- 0.9 alone, P<0.001). Large changes in azole concentration affected the magnitude of the drug-drug interactions and adjustment requirements. CONCLUSIONS: TDM is required because VRZ levels are often undetectable in treated CF lung transplant patients, supporting the use of antifungal drug combinations until achievement of VRZ C0 at a steady state between 1 and 2 mg/L. Plasma VRZ concentrations should be determined for the quantitative, individualized management of drug-drug interactions in lung transplant patients, in particular immunosuppressant such as tacrolimus, considering VRZ to be both a target and an inhibitor of CYP3A4.

Neuromuscular painful disorders: a rare side effect of voriconazole in lung transplant patients under tacrolimus.

Voriconazole is an anti-fungal agent active against Aspergillus infection that is used for prophylaxis and curative treatment in lung transplant patients. We present nine cases of painful neuromuscular disorders, an unusual and rare side effect of high-dose voriconazole in association with tacrolimus.

Simultaneous determination of the acid/base antihypertensive drugs celiprolol, bisoprolol and irbesartan in human plasma by liquid chromatography.

A simple, rapid method for the simultaneous determination of cardiovascular drugs: celiprolol, bisoprolol and irbesartan in human plasma is described. The two main features of the proposed method deal first, with a simultaneous solid phase extraction of weakly basic beta-blockers derivatives and irbesartan which exhibit weak acidic properties; second with an absorbance monitoring using diode array detection in order to insure an improved selectivity. The separation is performed on a C(18) Kromasil 4.6 mm x 150 mm column using a linear gradient to achieve an entire separation of the four species in less than 20 min. The full analytical validation is performed according to guidance for industry for bioanalytical method validation. Linearity of the response was demonstrated for each drug for a range fulfilling the reported plasma levels, that is 10-500, 5-250 and 20-1000 ng l(-1) for celiprolol, bisoprolol and irbesartan respectively. Intra- and inter-day relative standard deviations for all compounds were, in any case, lower than 11% and the method exhibits a convenient accuracy (percentage of relative error lower than 6% for each drug). In each case, the LOD were sufficient to detect post dose trough concentrations for checking patient's observance. Moreover, selectivity towards either endogenous species or co-administered drugs was demonstrated by combination of the use of the solid phase extraction process, gradient elution and diode array detection facilities, making thus, the proposed technique especially suitable for routine drug monitoring of resistant hypertensive patients.

[Therapeutic drug monitoring (TDM): definitions--vocabulary and concepts]. / Suivi Thérapeutique Pharmacologique (STP): définitions--vocabulaire et concepts.

The French group 'Suivi Therapeutique Pharmacologique' (STP) has tried to define the best translation of the English term Therapeutic Drug Monitoring (TDM). The TDM concept was initiated with the development of Pharmacokinetics and Analytical Chemistry. At first, the aim was the adaptation to target concentrations of efficacy and toxicity. Then, monitoring became more individualized and took into account the patient, the indication and the coprescriptions. TDM participated in the improvement of knowledge of actors (physicians and biologists), the tools and the drugs concerned. The most recent developments have been the population approach, the Target Concentration Intervention (TCI) and the Randomised Concentration Controlled Trials (RCCT). TDM today is an individualized intervention that aims to achieve the best benefit/risk ratio, in the context of the patient and his/her entire environment.

Clinical pharmacology of immunosuppressive drugs: year 2000--time for alternatives.

Perspectives in immunosuppressive drug therapy have changed rapidly in the past few years with the appearance on the market of several new entities. Used for organ transplantation, bone-marrow transplantation and more recently in some auto-immune diseases, the usual classical scheme consisting of corticoids, azathioprine (1970) and cyclosporin (1980), with or without an induction period with antilymphocyte antibodies, has varied little except for the monoclonal antibody OKT3. The considerable evolution due to the introduction of cyclosporin almost twenty years ago has reached its limits. The new perspectives offer two aspects: (1) on one hand, the specificity of each compound: tacrolimus, Prograf, Fujisawa; mycophenolate mofetyl (MMF), CellCept, Roche; cyclosporin, Neoral, Novartis; basiliximab, Simulect, Novartis; and dacliximab, Zenapax, Roche; monoclonal humanized antibodies, rapamycine or sirolimus, Rapamune, Wyeth; or its derived form RAD Novartis; (2) on the other hand, all these products represent alternatives to the present scheme in a field where coprescription is the rule. These alternatives encounter one main difficulty: the evaluation and the organization of the different possible combinations have to be done within a small series of patients. It is essential to note that the market authorizations have been given on the basis of a precise scheme of dosage regimen from the pivotal studies and that extrapolation from these conditions, in particular choice of the doses, has required thorough reflection. These recent developments need optimization between an improvement of immunosuppression and a higher risk for infection and malignancy.

[Immunosuppression: a case of mucoviscidosis]. / Immunosuppression: cas particulier de la mucoviscidose.

Cystic fibrosis is a recessive disease that causes changes in mucus secretions, affecting different systems: respiratory, digestive, pancreatic, hepatic; resulting in obstructions and secondary infections. Transplantation may be used for the most severe forms and is then complicated by the pediatric context, the existence of malabsorption and secondary infections and the type of transplantation (pulmonary and/or hepatic). The follow-up is characterized by pulmonary infections and pulmonary chronic rejection. In our experience, the initiation of the immunosuppressive treatment must avoid corticoids in the early post-transplantation days and have recourse to intravenous cyclosporin (CyA) 2 mg/kg/day, given on average for one month in an oral form. In case of persistent acute rejection, tacrolimus (FK 506) is instituted. Oral CyA (10-12 mg/kg/day) seems more sensitive to malabsorption syndrome than FK 506 (0.2 mg/kg/day). In both cases, the development of an inhibitory metabolic interaction in the presence of itraconazole must be taken into account: used against aspergillosis, itraconazole is metabolized as CyA and FK 506 by Cyt P450 3A4. The intensity of the interaction is twofold for CyA versus fivefold for FK 506. The strategy for the use of other recently available immunosuppressives such as mycophenolate is under evaluation.

Inhibition of angiotensin converting enzyme with enalapril maleate in infants with congestive heart failure.

We studied the inhibition of angiotensin converting enzyme (ACE) in eight infants with congestive heart failure (CHF) poorly controlled with digoxin and diuretics, treated orally with 0.25 mg kg-1 enalapril maleate once a day. Baseline ACE activities were compared between these infants and control children without CHF or ACE inhibitor. Except for one infant who vomited, inhibition of ACE activity was 75.5 +/- 12.2%, 75.5 +/- 10.5% and 51.7 +/- 12.2%, at 4, 12 and 24 h after drug intake respectively. There was no correlation between postnatal age and inhibition of ACE activity. In infants with CHF, mean baseline ACE activity was significantly higher than in control infants (36.4 +/- 7.2 mu ml-1 vs 26.9 +/- 6.9 mu ml-1, P < 0.05). These results were very similar to those seen in adults.

[Absence of labetalol interference on urine metanephrine determination in hypertensive patients]. / Absence d'interférence du labétalol sur la détermination des métanéphrines urinaires chez l'hypertendu.

The dosage of urinary catecholamines and their metabolites is a main element of diagnosis in the research of a pheochromocytoma in patients with high blood pressure. The literature reports high values of these compounds in patients treated with labetalol (an alpha/beta-blocker). An analytical interference has been evoked to explain these misleading results, which have not been observed with other beta-blockers. The goal of this work was to look for this eventual analytical interference in the dosage of urinary metanephrine by reversed phase liquid chromatography coupled with electrochemical detection, in patients with high blood pressure. Eighteen hypertensive patients, 52 +/- 14 years old, were included in the study. In 8 patients, a dosage of metanephrine, normetanephrine and creatinine on a 24 hours urine sample was performed before (D1) and 24 hours after (D3) the prescription of labetalol (200 mg twice a day). In the other group, labetalol was not prescribed but dosage was made in the same conditions. Urinary excretion of these compounds (metanephrine+normetanephrine) divided by urinary creatinine was not modified in the treated group (0.16 +/- 0.08 vs 0.14 +/- 0.04), nor in the reference group (0.17 +/- 0.08 vs 0.17 +/- 0.08). This study shows that administration of labetalol in patients with essential hypertension does not interfere with urinary metanephrine and normetanephrine determination after 48 hours of treatment. This implies that research for a pheochromocytoma is possible in patients with hypertension and receiving labetalol, by using reversed phase liquid chromatography coupled with an electrochemical detector for the dosage of urinary metanephrine and normetanephrine.