Maria Camporesi, Chiara Bartolucci, Chon Lok Lei, Gary R Mirams, Teun P de Boer, Stefano Severi
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引用次数: 0
摘要
由于药物可能是多通道阻滞剂,因此在评估其心脏安全性时必须考虑多种电流。有人提出了能够整合药物对离子电流的影响并生成所产生的动作电位(AP)的硅学模型。然而,这需要对药物效应进行数学描述,而数学描述可能并不准确。动态钳夹已被提出用于药物的心脏安全性评估。在动态动作电位钳(dAPC)配置中,它创建了一个连接真实细胞和计算机模拟的混合模型。这样,药物就可以直接作用于真实细胞,并在产生动作电位时考虑到对电流的影响。在这里,我们设计并模拟了一个并行多通道 dAPC 系统。该系统包括过表达相关电流的真实细胞、电压钳采集系统和 AP 硅模型。
Development, Implementation and Testing of a Multicellular Dynamic Action Potential Clamp Simulator for Drug Cardiac Safety Assessment.
As drugs can be multichannel blockers it is important to assess their cardiac safety taking into account multiple currents. In silico action potential (AP) models have been proposed for being able to integrate drugs effect on ionic currents and generate the resulting AP. However, a mathematical description of drug effects is required, which could be inaccurate. Dynamic Clamp has been proposed for drug cardiac safety assessment. In the dynamic action potential clamp (dAPC) configuration it creates an hybrid model connecting a real cell with a computer simulation. This way, drugs could be administrated directly to real cells, and effects on currents can be taken into account when generating the AP. Here we design and simulate a parallel multichannel dAPC system. The system includes the real cells overexpressing the currents of interest, the voltage clamp acquisition system, and the AP in silico model.
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