Masashi Serada scite author profile

Thrombomodulin alfa is the recombinant extracellular domain of human thrombomodulin, which shows anticoagulation activity. To elucidate the pharmacokinetics of thrombomodulin alfa in patients with disseminated intravascular coagulation (DIC), population pharmacokinetic (PPK) analysis was performed using plasma concentration data obtained in phase 1 (20 patients, 348 time points) and phase 2 (116 patients, 305 time points) clinical trials. The actual and predicted plasma concentrations of thrombomodulin alfa based on the final PPK model showed a good linear correlation (R = 0.9504), and the pharmacokinetics of thrombomodulin alfa in DIC patients were affected by body weight, age, renal dysfunction, and hematocrit value. The distribution volume and clearance (CL) were proportional to body weight and were significantly increased in patients with lower hematocrit value (male <40%, female <35%). Furthermore, CL was decreased in patients with renal dysfunction and in elderly patients. Based on these results, the standard dose of thrombomodulin alfa is adjusted according to body weight. However, further dose adjustment is not needed based on age and hematocrit value, since these factors did not cause the large changes in plasma concentration that can affect the efficacy or safety.

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Phase I study of a novel recombinant human soluble thrombomodulin, ART‐123

Moll

Lindley

Pescatore

et al. 2004

Journal of Thrombosis and Haemostasis

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Summary. Background: Anticoagulants are often given for extended periods of time to patients at high risk for venous thromboembolism, such as after orthopedic surgery. Daily subcutaneous (sc) injections can be inconvenient to the patient. A long‐acting anticoagulant requiring less frequent dosing could make treatment more acceptable. Thrombomodulin is a natural anticoagulant that activates protein C, which leads to inactivation of factor (F)Va and FVIIIa and decreased thrombin formation. Recombinant human thrombomodulin is a novel anticoagulant with a long half‐life in animal models. Methods and results: This phase I study examined pharmacokinetics, pharmacodynamics, and safety of recombinant human soluble thrombomodulin (ART‐123) after administration of doses between 0.02 and 0.06 mg kg−1 body weight intravenously (iv), and between 0.02 and 0.45 mg kg−1 sc in 55 healthy volunteers. The plasma half‐life was 2–3 days after sc injection of various single doses. Plasma ART‐123 levels estimated to be needed for prevention of thrombus formation in humans were maintained for at least 6 days after single sc injection of 0.30 and 0.45 mg kg−1 ART‐123. Antithrombotic activity with these doses was demonstrated by achieving prothrombinase inhibition of more than 80% for more than 6 days after administration. No major bleeding occurred. Pharmacodynamic modeling revealed that adequate antithrombotic ART‐123 levels can be achieved for 6 days with one dose of 0.45 mg kg−1 ART‐123, and for 12 days with 2 doses of 0.30 mg kg−1, given 5 days apart. Conclusions: Recombinant human soluble thrombomodulin (ART‐123) has a long half‐life after sc injection and is well tolerated, making it a suitable agent to be tested in clinical thromboprophylaxis trials.

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Role of MOG-stimulated Th1 type ‘light up’ (GFP+) CD4+T Cells for the Development of Experimental Autoimmune Encephalomyelitis (EAE)

Yura

Takahashi

Serada

et al. 2001

Journal of Autoimmunity

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Modeling and simulation of bone mineral density in Japanese osteoporosis patients treated with zoledronic acid using tartrate-resistant acid phosphatase 5b, a bone resorption marker

et al. 2018

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SummaryAnnual intravenous administration of zoledronic acid is used in the treatment of osteoporosis. A mathematical model was developed to predict bone mineral density up to 2 years after two annual doses of zoledronic acid from the early values of a bone resorption marker in osteoporosis patients.IntroductionThe measurement of bone mineral density (BMD) has been used as a surrogate marker instead of the observation of incident fractures to detect the efficacy of treatment. However, this method requires a long time to obtain significant changes. On the other hand, bone resorption markers respond to bone resorption inhibitors within a few weeks. Therefore, the aim of this study was to develop a mathematical model predicting long-term BMD after two annual doses of zoledronic acid (ZOL) using the early response of a bone resorption marker in osteoporosis patients.MethodsThe model was constructed using 3410 tartrate-resistant acid phosphatase 5b (TRACP-5b) serum concentrations and 1146 lumbar spine (L2-L4) BMD values from 306 patients with primary osteoporosis. A mathematical model was developed to describe the time-dependent profiles of TRACP-5b and BMD.ResultsThe percentage changes from baseline of the BMD (%BMD) at up to 2 years were predicted from patients’ baseline BMD and baseline and 12-week TRACP-5b values by the model obtained. The simulated 90% prediction interval almost covered the observed %BMD distribution at each time point, and the predictions were comparable to the observed %BMD.ConclusionsThis is the first model to predict BMD for up to 2 years following two annual doses of ZOL using patients’ background characteristics and the early response of TRACP-5b. This model allows us to inform patients at the initial stage of ZOL treatment of their predicted response to treatment.Electronic supplementary materialThe online version of this article (10.1007/s00198-018-4376-1) contains supplementary material, which is available to authorized users.

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Pharmacokinetics of recombinant human soluble thrombomodulin, thrombomodulin alfa in the rat

et al. 2009

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1. The study aimed to investigate the pharmacokinetics of thrombomodulin alpha (TM-alpha), human-soluble thrombomodulin in rats. 2. Intravenously administered TM-alpha was eliminated in two phases (T(1/2 alpha) = 0.2-0.3 h and T(1/2 beta) = 6-8 h), and the elimination curve was linear in a dose range of 10-250 microg kg(-1). Based on the results of tissue concentration studies after reaching the steady-state, the highest concentration of TM-alpha was seen in the plasma, suggesting the low levels of transfer to tissues (< or = 22% of plasma levels). 3. In vivo metabolism of TM-alpha was also analysed using high-performance liquid chromatography. The main peak observed in the plasma was TM-alpha, and even 72 h after the last dose of repeated administrations, 80% or more was unchanged form. Approximately half of the radioactivity excreted in the urine was recovered as a peak corresponding to TM-alpha. 4. The results reveal that although plasma clearance was lower in the renally impaired rats, the decrease was not large, with a difference of only about 20%. As a result, although the cause remains unclear, it is considered unlikely that the plasma concentrations of TM-alpha will vary considerably in patients with renal impairment.

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Masashi Serada

Model-Based Analysis of Covariate Effects on Population Pharmacokinetics of Thrombomodulin Alfa in Patients With Disseminated Intravascular Coagulation and Normal Subjects

Phase I study of a novel recombinant human soluble thrombomodulin, ART‐123

Role of MOG-stimulated Th1 type ‘light up’ (GFP+) CD4+T Cells for the Development of Experimental Autoimmune Encephalomyelitis (EAE)

Modeling and simulation of bone mineral density in Japanese osteoporosis patients treated with zoledronic acid using tartrate-resistant acid phosphatase 5b, a bone resorption marker

Pharmacokinetics of recombinant human soluble thrombomodulin, thrombomodulin alfa in the rat

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