Based on a population pharmacokinetic model-based dose optimization study, a 15 mg-equivalent, age-, and bodyweight-adjusted dosing regimen for Chinese children with giant coronary artery aneurysms after Kawasaki disease was proposed. This single-center, single-arm, pilot study aims to evaluate the feasibility of the 15 mg-equivalent dosing regimen within a limited sample size. Patients will be followed for more than 6 months. Clinical outcomes, including coronary artery thrombosis, major adverse cardiovascular events, and bleeding events, will be recorded. Rivaroxaban levels will be measured to assess the robustness of the model-informed dose optimization.
Giant coronary artery aneurysm (GCAA) is a rare but severe cardiac complication of Kawasaki disease (KD). Due to the abnormal blood rheology and the hyper-inflammatory response accompanied by thrombocytosis during the acute phase, patients with GCAA are at high risk of coronary artery thrombosis and major adverse cardiovascular events.In such instances, lifelong antiplatelet (aspirin or clopidogrel) and anticoagulant therapy (warfarin or low molecular weight heparin, LMWH) may become necessary. In 2022, two compounds, the direct activated Factor X (FXa) inhibitor rivaroxaban was approved by international regulatory agencies for two specific pediatric indications, supported by pharmacometrics models. For instance, a dosing regimen matching exposures of 20 mg daily in adults (the 20 mg-equivalent dosing regimen) is indicated for children under 18 years with venous thromboembolism (VTE). Secondly, a dosing regimen matching exposures of 10 mg daily in adults (the 10 mg-equivalent dosing regimen) is indicated for post-Fontan patients aged two years or older, as shown in the UNIVERSE study, which compared rivaroxaban to aspirin. However, no trials have yet compared rivaroxaban with warfarin/LMWH in pediatric patients with GCAA after KD. Inter-ethnic population pharmacokinetic (PPK) analyses have suggested that Asian patients may require a lower dosage of rivaroxaban, consistent with the findings from the J-ROCKET trail in Japanese adults. Accordingly, the maximum dosage for Japanese children with VTE (≥ 50 kg) has reduced from 20 mg q24h (every 24 hours) to 15 mg q24h. However, reports on rivaroxaban use in pediatric patients with GCAA after KD, especially in those from Asian countries, remains limited. Its application is more challenging due to (i) increased bleeding risk from concomitant antiplatelet drug use; (ii) the predominance of younger patients (typically \< 3 years) with variability in hepatic and renal function, as well as growth and development.3 Given the low incidence of GCAA, quantitative pharmacometrics is a highly promising approach for precision dosing of rivaroxaban in these patients. Therefore, the investigators retrospectively collected the clinical experience of rivaroxaban off-label use in Chinese pediatric patients with GCAA after KD from 2023.1 to 2023.12. With clinical evidence and model-extrapolation, the investigators conducted a quantitative pharmacometrics model-based dose optimization study and proposed a 15 mg-equivalent dosing regimen for thromboprophylaxis in Chinese children with GCAA after KD, those who require dual antithrombotic therapy. This pilot study aims to assess the potential of rivaroxaban for thromboprophylaxis in pediatric patients with KD after GCAA. Specifically, this study seeks to: (ⅰ) preliminarily evaluate the feasibility, efficacy and safety of the 15 mg-equivalent dosing regimen in target population, (ii) provide pharmacokinetic (PK)/pharmacodynamic (PD) data on rivaroxaban in Chinese children.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
PREVENTION
Masking
NONE
Enrollment
10
Administered in an age- and bodyweight-adjusted, 15 mg-equivalent dose regimen proposed by model-informed dose optimization study
Children's Hospital of Fudan University
Shanghai, Shanghai Municipality, China
RECRUITINGOccurrence of new thrombosis in coronary arteries
It is a binary variable. Every echocardiography conducted during study period will be assessed and documented. Investigators will evaluate whether new thrombosis occurs in coronary arteries.
Time frame: From enrollment to the 6th month after treatment
Composite of Major bleeding or Clinically relevant non-major bleeding event
It is a binary variable. Major bleeding is defined as 1.Fatal bleeding; 2.Clinically overt bleeding associated with a decrease in Hgb of ≥20 g/L (2 g/dL) in a 24-h period; 3.Critical site bleeding, such as retroperitoneal, pulmonary, pericardial, intracranial, or otherwise involves the central nervous system; 4.Bleeding that requires an intervention via an invasive procedure; 5.Overt bleeding for which a reversal agent is administered. Clinically relevant non-major bleeding event is defined as 1.Bleeding that results in a medical or procedural intervention not meeting major bleeding criteria, including a medication change (reducing, holding, or changing anticoagulation or addition of new medication) ; 2.Bleeding that results in hospitalization or increased level of care; 3.Overt bleeding for which a blood product is administered, and does not meet the criteria for major bleeding
Time frame: From enrollment to the 6th month after treatment
Occurrence of major adverse cardiovascular event
It is a binary variable. Major adverse cardiovascular event (MACE) includes unstable angina, acute myocardial infarction, stroke, hospitalization for heart failure, unplanned revascularization, cardiovascular death. If any of the MACEs occur during the study period, it will be recorded as 1; otherwise, it will be recorded as 0. The definition of each MACE refers to the following guidelines and consensus: 2017 Cardiovascular and Stroke Endpoint Definitions for Clinical Trials, 2019 European Society of Cardiology Guidelines for the diagnosis and management of chronic coronary syndromes, Fourth universal definition of myocardial infarction, and 2023 European Society of Cardiology Guidelines for the management of acute coronary syndromes.
Time frame: From enrollment to the 6th month after treatment
Any adverse events
It is a text variable. If any adverse events( including durg allergy, severe infection, hepatic dysfunction, renal dysfunction, hypertension, fatigue, abdominal pain or others) occur will be reported to the data and safety monitoring board. The detail of adverse event will be recorded, including classification of adverse event, time of occurrence, symptoms, treatment, resolution time, and outcome.
Time frame: From enrollment to the 6th month after treatment
Any dose adjustments for rivaroxaban
It is a text variable. Any dose adjustments for rivaroxaban will be recorded, including time of dose adjustment, reason for dose adjustment, dosage, and outcome. Rivaroxaban plasma concentration and rivaroxaban-calibrated anti-factor Xa activity will be measured after at least 3 consecutive doses
Time frame: From enrollment to the 6th month after treatment
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