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Examining therapeutic equivalence between branded and generic warfarin in Brazil: The WARFA crossover randomized controlled trial.
Gomes Freitas, C, Walsh, M, Coutinho, EL, Vincenzo de Paola, AA, Atallah, ÁN
PloS one. 2021;(4):e0248567
Abstract
OBJECTIVES To determine whether the generic and branded warfarins used as anticoagulants in Brazil are therapeutic equivalents based on their international normalized ratio (INR) results. METHODS This crossover randomized controlled trial had four periods. We used the branded Marevan and two generic versions of warfarin sodium tablets, manufactured by União Química and Teuto laboratories, all purchased from retail drugstores. Eligible participants were outpatients from an anticoagulation clinic at a university hospital in São Paulo, Brazil. They had atrial fibrillation or flutter and had been using warfarin for at least 2 months with an INR therapeutic range of 2.0-3.0. Randomization was by numbered, opaque, sealed envelopes. Healthcare personnel and outcome assessors were blinded to treatments, but patients were not. The primary outcome was the variability in the INR (ΔINR) and secondary outcomes included mean INR. We accepted formulations as equivalent if the 95% confidence interval (CI) of the comparison of ΔINR between branded and generic formulations was within the limit of ±0.49. RESULTS One hundred patients were recruited and randomized to six sequences of treatment (four sequences with n = 17 and two sequences with n = 16). União Química generic warfarin had equivalent variability in the INR to Marevan (ΔINR +0.09 [95% CI -0.29 to +0.46], n = 84). Comparison between Teuto generic warfarin and Marevan was inconclusive (ΔINR +0.29 [95% CI -0.09 to +0.68], n = 84). CONCLUSIONS Marevan and União Química warfarin had equivalent therapeutic effectiveness and both could be confidently used for anticoagulation. The comparison between Marevan and TW was inconclusive and does not warrant a statement of equivalence. Our methods are especially important for comparing generic and branded drugs that raise concerns and may be subject of future investigations by regulatory agents. TRIAL REGISTRATION ClinicalTrials.gov NCT02017197.
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Safety and disease monitoring biomarkers in Duchenne muscular dystrophy: results from a Phase II trial.
Wagner, KR, Guglieri, M, Ramaiah, SK, Charnas, L, Marraffino, S, Binks, M, Vaidya, VS, Palmer, J, Goldstein, R, Muntoni, F
Biomarkers in medicine. 2021;(15):1389-1396
Abstract
Aim: Evaluate the utility of glutamate dehydrogenase (GLDH) and cardiac troponin I as safety biomarkers, and creatine kinase and muscle injury panel as muscle health biomarkers in Duchenne muscular dystrophy. Patients & methods: Data were collected during a Phase II trial of domagrozumab. Results: GLDH was a more specific biomarker for liver injury than alanine aminotransferase. Cardiac troponin I elevations were variable and not sustained, limiting its applicability as a biomarker. Muscle injury panel biomarkers were no more informative than creatine kinase as a muscle health biomarker. Conclusion: Results support the use of GLDH as a specific biomarker for liver injury in patients with Duchenne muscular dystrophy. Clinical trial registration: ClinicalTrials.gov, NCT02310763.
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Study of the safety of oral Triphala aqueous extract on healthy volunteers.
Phetkate, P, Kummalue, T, Rinthong, PO, Kietinun, S, Sriyakul, K
Journal of integrative medicine. 2020;(1):35-40
Abstract
BACKGROUND Triphala extract is a well known medicinal herbal formula which is usually prescribed by Thai traditional doctors to adjust the physiological functions of the body. Previous studies have reported that Triphala has antioxidant, anti-inflammatory, antihypercholesterolemia and anticancer properties. Though this herbal recipe is commonly used in Thailand, its human safety, especially in the oral form, has not been studied. We therefore conducted a clinical trial (Phase I). OBJECTIVE This study evaluated the safety of administering the aqueous extract of Triphala to healthy volunteers at 2500 mg/d. DESIGN, SETTING, PARTICIPANTS AND INTERVENTIONS An open-label, single-arm trial was conducted at Chulabhorn International College of Medicine, Thammasat University, Pathum Thani, Thailand, between July 2017 and July 2018. The study enrolled 10 male and 10 female healthy volunteers; all were given Triphala (water extract; five capsules of 500 mg each) orally, once a day, at bedtime, for four consecutive weeks. MAIN OUTCOME MEASURES Signs and symptoms, physical examinations, hematology and blood chemistry were assessed at the beginning of the trial and every week thereafter, for four consecutive weeks. After finishing the trial, on day 28, all volunteers were invited to a follow-up session on day 35 to evaluate the safety of the herbal recipe using the same measurements. RESULTS At the oral dose of 2500 mg/d, Triphala had no serious adverse effects in healthy volunteers. Moreover, it was found to have significantly improved the volunteers' high-density lipoprotein cholesterol (HDL-C) levels on day 35 and also reduced their blood sugar levels on days 14 and 35. CONCLUSIONS We conclude that aqueous extract of Triphala is safe for healthy volunteers and that it elevates HDL-C levels and lowers blood sugar. Further clinical study should investigate its effects on HDL-C and blood sugar levels among the dyslipidemic and prediabetic groups. TRIAL REGISTRATION This trial was registered in the Thai Clinical Trial Registry with the identifier TCTR20180423002.
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Selenoprotein P as Biomarker of Selenium Status in Clinical Trials with Therapeutic Dosages of Selenite.
Brodin, O, Hackler, J, Misra, S, Wendt, S, Sun, Q, Laaf, E, Stoppe, C, Björnstedt, M, Schomburg, L
Nutrients. 2020;(4)
Abstract
Selenoprotein P (SELENOP) is an established biomarker of selenium (Se) status. Serum SELENOP becomes saturated with increasing Se intake, reaching maximal concentrations of 5-7 mg SELENOP/L at intakes of ca. 100-150 µg Se/d. A biomarker for higher Se intake is missing. We hypothesized that SELENOP may also reflect Se status in clinical applications of therapeutic dosages of selenite. To this end, blood samples from two supplementation studies employing intravenous application of selenite at dosages >1 mg/d were analyzed. Total Se was quantified by spectroscopy, and SELENOP by a validated ELISA. The high dosage selenite infusions increased SELENOP in parallel to elevated Se concentrations relatively fast to final values partly exceeding 10 mg SELENOP/L. Age or sex were not related to the SELENOP increase. Western blot analyses of SELENOP verified the results obtained by ELISA, and indicated an unchanged pattern of immunoreactive protein isoforms. We conclude that the saturation of SELENOP concentrations observed in prior studies with moderate Se dosages (<400 µg/d) may reflect an intermediate plateau of expression, rather than an absolute upper limit. Circulating SELENOP seems to be a suitable biomarker for therapeutic applications of selenite exceeding the recommended upper intake levels. Whether SELENOP is also capable of reflecting other supplemental selenocompounds in high dosage therapeutic applications remains to be investigated.
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Diagnostic Accuracy of a Novel Chromogenic Direct Thrombin Inhibitor Assay: Clinical Experiences for Dabigatran Monitoring.
Poli, S, Härtig, F, Spencer, C, Ebner, M, Birschmann, I, Kuhn, J, Faix, S, Ziemann, U, Häring, HU, Lehmann, R, et al
Thrombosis and haemostasis. 2017;(12):2369-2375
Abstract
Background Direct oral anticoagulants (DOACs) are increasingly replacing vitamin K antagonists (VKA) for clinical indications requiring long-term oral anticoagulation. In contrast to VKA, treatment with DOAC including dabigatran—the only direct thrombin inhibitor amongst them—does not require therapeutic drug monitoring. However, in case of treatment complications (e.g., major haemorrhage) and conditions requiring urgent surgery or thrombolytic therapy, information about actual DOAC plasma levels is needed to guide treatment decisions. Due to short reagent stability, limited accuracy at low dabigatran levels and high heparin sensitivity, the applicability of the widely used Hemoclot thrombin inhibitor (HTI) coagulation assay is limited in the emergency setting. Methods Dabigatran concentrations of 288 citrated plasma samples taken from 48 dabigatran-treated patients with drug concentrations of up to 300 ng/mL were measured with the chromogenic anti-IIa Biophen direct thrombin inhibitor (BDTI) assay and results compared with HTI using ultra performance liquid chromatography—tandem mass spectrometry as the reference method for measuring dabigatran plasma concentrations. Results BDTI results showed a very strong correlation with dabigatran concentrations (r = 0.965, p < 0.0001) as well as a low intra- and inter-assay variation of <5%. Compared with HTI, BDTI provides an improved on-board reagent stability of 72 hours, rapid turnaround times comparable to routine coagulation assays, high accuracy at low drug levels and reduced heparin sensitivity. Conclusion The BDTI is an ideal coagulation assay for the around-the-clock determination of dabigatran plasma levels in clinical routine including emergency situations.
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Determination of edoxaban equivalent concentrations in human plasma by an automated anti-factor Xa chromogenic assay.
He, L, Kochan, J, Lin, M, Vandell, A, Brown, K, Depasse, F
Thrombosis research. 2017;:121-127
Abstract
INTRODUCTION This phase I, open-label, multiple-dose, two-treatment study assessed the relationship between edoxaban equivalent concentration derived from an anti-FXa assay with the summed concentration of edoxaban and its active metabolite, M-4, as assessed by liquid chromatography coupled with tandem mass spectrometry (LC/MS/MS). This study also assessed the relationship between edoxaban plasma concentrations assessed by LC/MS/MS in sodium citrate and lithium heparin tubes. MATERIALS AND METHODS Healthy volunteers were randomized to receive once-daily edoxaban 60mg or 90mg for 5days (15 participants per treatment group). Serial blood samples were collected for analysis by LC/MS/MS and by the anti-FXa assay. Edoxaban equivalent levels were assessed using a commercially available anti-FXa activity assay with an edoxaban-specific setup. RESULTS AND CONCLUSIONS The day 5 concentration estimates were significantly correlated between the 2 assays (P<0.0001 for both edoxaban doses). The geometric least squares mean (GLSM) ratio (90% confidence interval) for edoxaban equivalent concentrations vs edoxaban + M-4 concentrations was 114.3% (108.2-120.8) for edoxaban 60mg (P<0.0001) and 113.0% (107.1-119.2) for edoxaban 90mg (P=0.0002). The GLSM ratio for edoxaban concentrations in sodium citrate vs lithium heparin tubes for 60-mg and 90-mg edoxaban doses were 82.8% (78.5-87.3) and 83.9% (79.1-89.0), respectively. In this study, an anti-FXa chromogenic assay with edoxaban-specific calibrators and controls demonstrated good accuracy in estimating edoxaban concentrations across a wide range of concentrations relative to LC/MS/MS at steady state following the administration of once-daily edoxaban for 5days.
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Monitoring metabolic response using FDG PET-CT during targeted therapy for metastatic colorectal cancer.
Woff, E, Hendlisz, A, Garcia, C, Deleporte, A, Delaunoit, T, Maréchal, R, Holbrechts, S, Van den Eynde, M, Demolin, G, Vierasu, I, et al
European journal of nuclear medicine and molecular imaging. 2016;(10):1792-801
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Abstract
INTRODUCTION The introduction of targeted drugs has had a significant impact on the approach to assessing tumour response. These drugs often induce a rapid cytostatic effect associated with a less pronounced and slower tumoural volume reduction, thereby impairing the correlation between the absence of tumour shrinkage and the patient's unlikelihood of benefit. The aim of the study was to assess the predictive value of early metabolic response (mR) evaluation after one cycle, and its interlesional heterogeneity to a later metabolic and morphological response assessment performed after three cycles in metastatic colorectal cancer (mCRC) patients treated with combined sorafenib and capecitabine. METHODS This substudy was performed within the framework of a wider prospective multicenter study on the predictive value of early FDG PET-CT response assessment (SoMore study). A lesion-based response analysis was performed, including all measurable lesions identified on the baseline PET. On a per-patient basis, a descriptive 4-class response categorization was applied based upon the presence and proportion of non-responding lesions. For dichotomic response comparison, all patients with at least one resistant lesion were classified as non-responding. RESULTS On baseline FDG PET-CT, 124 measurable "target" lesions were identified in 38 patients. Early mR assessments showed 18 patients (47 %) without treatment resistant lesions and 12 patients (32 %) with interlesional response heterogeneity. The NPV and PPV of early mR were 85 % (35/41) and 84 % (70/83), respectively, on a per-lesion basis and 95 % (19/20) and 72 % (13/18), respectively, on a dichotomized per-patient basis. CONCLUSIONS Early mR assessment performed after one cycle of sorafenib-capecitabine in mCRC is highly predictive of non-response at a standard response assessment time. The high NPV (95 %) of early mR could be useful as the basis for early treatment discontinuation or adaptation to spare patients from exposure to non-effective drugs.
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Prospective, Multicenter Study of 5-Fluorouracil Therapeutic Drug Monitoring in Metastatic Colorectal Cancer Treated in Routine Clinical Practice.
Wilhelm, M, Mueller, L, Miller, MC, Link, K, Holdenrieder, S, Bertsch, T, Kunzmann, V, Stoetzer, OJ, Suttmann, I, Braess, J, et al
Clinical colorectal cancer. 2016;(4):381-388
Abstract
BACKGROUND Studies have demonstrated that body surface area-based dosing of chemotherapy drugs leads to significant individual exposure variability, with a substantial risk of under- or overdosing. The present study was initiated to validate the use of therapeutic drug management (TDM) to personalize 5-fluorouracil (5-FU) dosing in patients with metastatic colorectal cancer treated in routine clinical practice. PATIENTS AND METHODS A total of 75 patients with metastatic colorectal cancer from 8 German medical centers received ≤ 6 administrations of infusional 5-FU according to the AIO (folinate, 5-FU; n = 16), FOLFOX6 (leucovorin calcium [folinic acid], 5-FU, and oxaliplatin; n = 26), or FUFOX (oxaliplatin plus 5-FU/folinic acid; n = 33) regimen. Initial infusional 5-FU dosing for all patients was determined by the BSA. Individual 5-FU exposure (area under the curve [AUC]) was measured using an immunoassay of a blood sample taken during each infusion. To achieve a target AUC of 20 to 30 mg × h/L, subsequent infusional 5-FU doses were adjusted according to the previous cycle's 5-FU AUC. The primary objective was to confirm that TDM of infusional 5-FU resulted in an increased proportion of patients in the target AUC range at the fourth versus the first administration. The secondary objective was to determine whether 5-FU TDM reduced the treatment-related toxicities compared with the historical data. RESULTS The average 5-FU AUC at the first administration was 18 ± 6 mg × h/L, with 64%, 33%, and 3% of the patients below, within, or above the target AUC range, respectively. By the fourth administration, the average 5-FU AUC was 25 ± 7 mg × h/L (P < .001), with 54% of patients within the target 5-FU AUC range (P = .0294). The incidence of 5-FU-related grade 3 and 4 diarrhea (4.6%), nausea (3.4%), fatigue (0.0%), and mucositis (0.2%) was reduced compared with the historical data, despite 55% of the patients receiving increased doses. CONCLUSION Personalization of 5-FU dosing using TDM in routine clinical practice resulted in significantly improved 5-FU exposure and suggested a lower incidence of 5-FU-related toxicities.
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Feasibility of Extended-interval Follow-up for Patients Receiving Warfarin.
Carris, NW, Spinelli, A, Pierini, D, Taylor, JR, Anderson, KV, Sando, K, Powell, J, Rosenberg, EI, Zumberg, MS, Smith, SM, et al
Cardiovascular therapeutics. 2015;(3):98-103
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AIMS: The 2012 American College of Chest Physician Evidence-Based Management of Anticoagulant Therapy guidelines suggest an international normalized ratio (INR) testing interval of up to 12 weeks, rather than every 4 weeks, for patients with consistently stable INRs while taking vitamin K antagonists. We aimed to examine the feasibility of extended-interval follow-up in a real-world setting. METHODS Patients receiving stable warfarin therapy for ≥ 12 weeks at baseline began extended-interval follow-up with visits occurring at 6 weeks, 14 weeks, and every 12 weeks thereafter to a maximum of 68 weeks or until they were no longer suitable for extended-interval follow-up. A single INR excursion >0.3 from goal was permitted if a reversible precipitating factor was identified and the INR was expected to return to goal without dose adjustment. The primary outcome was the proportion of patients completing all study follow-up visits. RESULTS Of 48 patients enrolled, 47 had evaluable data. The most common indication for anticoagulation was atrial fibrillation/flutter (53.2%). At baseline, mean prior warfarin treatment duration was 6.7 ± 6 years and median number of weeks on a stable regimen was 24 weeks (IQR, 19-37.5). Eleven patients (23%) completed all study follow-up visits, whereas 17 (36%) did not maintain a stable INR past the 14-week follow-up. CONCLUSION A large proportion of patients with previously stable (≥ 3 months) INRs were not able to maintain stable INRs during extended-interval follow-up. More research is needed to identify patient characteristics predictive of success with extended-interval follow-up prior to broad implementation.
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A novel double-tracer technique to characterize absorption, distribution, metabolism and excretion (ADME) of [14C]tofogliflozin after oral administration and concomitant intravenous microdose administration of [13C]tofogliflozin in humans.
Schwab, D, Portron, A, Backholer, Z, Lausecker, B, Kawashima, K
Clinical pharmacokinetics. 2013;(6):463-73
Abstract
BACKGROUND Human mass balance studies and the assessment of absolute oral bioavailability (F) are usually assessed in separate studies. Intravenous microdose administration of an isotope tracer concomitant to an unlabeled oral dose is an emerging technique to assess F. We report a novel double-tracer approach implemented for tofogliflozin combining oral administration of a radiolabel tracer with concomitant intravenous administration of a stable isotope tracer. Tofogliflozin is a potent and selective sodium/glucose cotransporter 2 inhibitor for the treatment of type 2 diabetes mellitus currently in clinical development. OBJECTIVES The objectives of the present study were to assess the systemic exposure of major circulating metabolites, excretion balance, F and contribution of renal clearance (CLR) to total clearance (CL) of tofogliflozin in healthy subjects within one study applying a novel double-tracer technique. METHODS Six healthy male subjects received 20 mg [(12)C/(14)C]tofogliflozin (3.73 MBq) orally and a concomitant microdose of 0.1 mg [(13)C]tofogliflozin intravenously. Pharmacokinetics of tofogliflozin were determined for the oral and intravenous route; the pharmacokinetics of the metabolites M1 and M5 were determined for the oral route. Quantification of [(12)C]tofogliflozin in plasma and urine and [(13)C]tofogliflozin in plasma was performed by selective LC-MS/MS methods. For the pre-selected metabolites of tofogliflozin, M1 and M5, a validated liquid chromatography-tandem mass spectrometry (LC-MS/MS) was applied to plasma and urine samples. Total radioactivity was assessed in plasma, urine and feces. Pharmacokinetic analysis was conducted by non-compartmental methods. RESULTS The pharmacokinetics of tofogliflozin in healthy subjects were characterized by an F of 97.5 ± 12.3 %, CL of 10.0 ± 1.3 l/h and volume of distribution at steady-state (V(ss)) of 50.6 ± 6.7 l. The main route of elimination of total drug-related material was by excretion into urine (77.0 ± 4.1 % of the dose). The observed CL(R) of 25.7 ± 5.0 ml/min was higher than the product of the estimated glomerular filtration rate (eGFR) and fraction unbound in plasma (f(u)) (eGFR × f(u) 15 ml/min), indicating the presence of net active tubular secretion in the renal elimination of tofogliflozin. However, CLR contributed only 15.5 % to the CL of tofogliflozin, suggesting that reductions in CLR by renal impairment won't significantly affect systemic exposure to tofogliflozin. Tofogliflozin and its metabolite M1 were the only major circulating entities accounting for 46 ± 8.6 and 50 ± 8.2 %, respectively, of total circulating drug-related material, while the metabolite M5 was a minor circulating metabolite accounting for 3.0 ± 0.3 % of total circulating drug-related material. Both the M1 and M5 metabolites were excreted into urine and the major metabolite M1 did not exhibit active tubular secretion. CONCLUSIONS These results demonstrate the utility of the double-tracer approach to provide essential pharmacokinetic data and excretion data for drug-related material in one study at the same dosing occasion. The data obtained allowed the characterization of absorption, distribution, metabolism and excretion of tofogliflozin. Tofogliflozin exhibited highly favorable pharmacokinetic properties as demonstrated by its high F, low CL and a low V(ss. The presence of only one major circulating metabolite of tofogliflozin was unambiguously demonstrated. As a drug targeting the kidney, luminal exposure of the kidney is achieved by renal filtration and active tubular secretion.