Mayer Christina L, Xie Lanyi, Bandekar Rajesh, Qi Ming, van de Velde Helgi, Reddy Manjula, Qin Xiang, Davis Hugh M, Puchalski Thomas A
Janssen Research & Development, LLC, Spring House, PA, USA.
Cancer Chemother Pharmacol. 2015 May;75(5):1037-45. doi: 10.1007/s00280-015-2720-0. Epub 2015 Mar 18.
Siltuximab is a monoclonal antibody that binds to interleukin (IL)-6 with high affinity and specificity; C-reactive protein (CRP) is an acute-phase protein induced by IL-6. CRP suppression is an indirect measurement of IL-6 activity. Here, modeling and simulation of the pharmacokinetic (PK)/pharmacodynamic (PD) relationship between siltuximab and CRP were used to support dose selection for multicentric Castleman's disease (CD).
PK/PD modeling was applied to explore the relationship between siltuximab PK and CRP suppression following intravenous siltuximab infusion in 47 patients with B cell non-Hodgkin's lymphoma (n = 17), multiple myeloma (n = 13), or CD (n = 17). Siltuximab was administered as 2.8, 5.5, or 11 mg/kg q2wks, 11 mg/kg q3wks, or 5.5 mg/kg weekly. Simulations of studied or hypothetical siltuximab dosage regimens (15 mg/kg q4wks) were also performed to evaluate maintenance of CRP suppression below the cutoff value of 1 mg/L.
A two-compartment PK model and an inhibitory indirect response PD model adequately described the serum siltuximab and CRP concentration-time profiles simultaneously. PD parameter estimates were physiologically plausible. For all disease types, simulations showed that 11 mg/kg q3wks or 15 mg/kg q4wks would reduce serum CRP to below 1 mg/L after the second dose and throughout the treatment period.
PK/PD modeling was used to select doses for further development of siltuximab in multicentric CD. The dosing recommendation was also supported by the observed efficacy dose-response relationship. CRP suppression in the subsequent randomized multicentric CD study was in agreement with the modeling predictions.
西妥昔单抗是一种单克隆抗体,可高亲和力和特异性地结合白细胞介素(IL)-6;C反应蛋白(CRP)是一种由IL-6诱导产生的急性期蛋白。CRP抑制是IL-6活性的间接测量指标。在此,通过对西妥昔单抗与CRP之间的药代动力学(PK)/药效动力学(PD)关系进行建模和模拟,以支持多中心Castleman病(CD)的剂量选择。
应用PK/PD模型,探讨47例B细胞非霍奇金淋巴瘤(n = 17)、多发性骨髓瘤(n = 13)或CD(n = 17)患者静脉输注西妥昔单抗后,西妥昔单抗PK与CRP抑制之间的关系。西妥昔单抗的给药剂量为2.8、5.5或11 mg/kg,每2周1次,11 mg/kg每3周1次,或5.5 mg/kg每周1次。还对研究的或假设的西妥昔单抗给药方案(15 mg/kg每4周1次)进行了模拟,以评估将CRP抑制维持在1 mg/L临界值以下的情况。
一个二室PK模型和一个抑制性间接反应PD模型能够同时充分描述血清中西妥昔单抗和CRP的浓度-时间曲线。PD参数估计在生理学上是合理的。对于所有疾病类型,模拟结果显示,11 mg/kg每3周1次或15 mg/kg每4周1次在第二次给药后及整个治疗期间可将血清CRP降至1 mg/L以下。
PK/PD模型用于选择剂量,以进一步开发西妥昔单抗用于多中心CD的治疗。观察到的疗效剂量-反应关系也支持了给药建议。随后的随机多中心CD研究中CRP抑制情况与模型预测结果一致。
