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引用次数: 0
摘要
肿瘤学药效学(PD)生物标记物的开发对根据临床前数据设计临床方案和根据早期临床数据预测临床结果具有重要意义。有两类生物标记物受到了特别关注。活检样本中的磷蛋白是信号通路抑制的标志物,是许多新型药物的靶点。血浆中的细胞凋亡生物标志物可以测量 I 期临床试验中药物对肿瘤细胞的杀伤作用。通过建立数据模型,可以增强抗结核生物标志物的预测能力。通过药物动力学模型,PD 模型可形成 PK/PD 模型,预测药物浓度和药物效应的时间进程。如果同时测量药物毒性的生物标志物,模型就能预测药物的选择性和疗效。PK/PD 模型与疾病模型相结合,可以进行虚拟临床试验,对多种试验设计进行硅学评估,从而选择最佳试验设计进行实验评估。
Pharmacodynamic modelling of biomarker data in oncology.
The development of pharmacodynamic (PD) biomarkers in oncology has implications for design of clinical protocols from preclinical data and for predicting clinical outcomes from early clinical data. Two classes of biomarkers have received particular attention. Phosphoproteins in biopsy samples are markers of inhibition of signalling pathways, target sites for many novel agents. Biomarkers of apoptosis in plasma can measure tumour cell killing by drugs in phase I clinical trials. The predictive power of PD biomarkers is enhanced by data modelling. With pharmacokinetic models, PD models form PK/PD models that predict the time course both of drug concentration and drug effects. If biomarkers of drug toxicity are also measured, the models can predict drug selectivity as well as efficacy. PK/PD models, in conjunction with disease models, make possible virtual clinical trials, in which multiple trial designs are assessed in silico, so the optimal trial design can be selected for experimental evaluation.
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