Department of Biosystems Science and Engineering, ETH Zurich, Basel, 4058, Switzerland.
InSphero AG, Schlieren, 8952, Switzerland.
Adv Biosyst. 2020 Nov;4(11):e2000079. doi: 10.1002/adbi.202000079. Epub 2020 Oct 19.
Drug-drug interactions (DDIs) occur when the pharmacological activity of one drug is altered by a second drug. As multimorbidity and polypharmacotherapy are becoming more common due to the increasing age of the population, the risk of DDIs is massively increasing. Therefore, in vitro testing methods are needed to capture such multiorgan events. Here, a scalable, gravity-driven microfluidic system featuring 3D microtissues (MTs) that represent different organs for the prediction of drug-drug interactions is used. Human liver microtissues (hLiMTs) are combined with tumor microtissues (TuMTs) and treated with drug combinations that are known to cause DDIs in vivo. The testing system is able to capture and quantify DDIs upon co-administration of the anticancer prodrugs cyclophosphamide or ifosfamide with the antiretroviral drug ritonavir. Dosage of ritonavir inhibits hepatic metabolization of the two prodrugs to different extents and decreases their efficacy in acting on TuMTs. The flexible MT compartment design of the system, the use of polystyrene as chip material, and the assembly of several chips in stackable plates offer the potential to significantly advance preclinical substance testing. The possibility of testing a broad variety of drug combinations to identify possible DDIs will improve the drug development process and increase patient safety.
药物-药物相互作用(DDI)是指一种药物的药理活性被第二种药物改变。由于人口老龄化导致多疾病和多药物治疗越来越普遍,DDI 的风险大大增加。因此,需要体外测试方法来捕捉这种多器官事件。在这里,使用了一种可扩展的、基于重力的微流控系统,该系统具有 3D 微组织(MTs),可用于预测药物-药物相互作用,代表不同的器官。将人肝微组织(hLiMTs)与肿瘤微组织(TuMTs)结合,并使用已知在体内引起 DDI 的药物组合进行处理。该测试系统能够在联合使用抗癌前药环磷酰胺或异环磷酰胺和抗逆转录病毒药物利托那韦时捕捉和量化 DDI。利托那韦的剂量以不同程度抑制了两种前药在肝脏中的代谢,并降低了它们在 TuMTs 上的疗效。该系统的 MT 隔室设计灵活,使用聚苯乙烯作为芯片材料,以及在可堆叠板中组装多个芯片,为显著推进临床前物质测试提供了潜力。测试各种药物组合以确定可能的 DDI 的可能性将改善药物开发过程并提高患者安全性。
