监测啮齿动物模型的血流动力学变化以更好地告知安全性药理学:来自体内研究和波形分析的新见解。

IF 1.4 Q3 CARDIAC & CARDIOVASCULAR SYSTEMS
Marieke Van Daele, Samantha L Cooper, Patrizia Pannucci, Edward S Wragg, Julie March, Iwan de Jong, Jeanette Woolard
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引用次数: 1

摘要

动物模型对于评估心血管对新疗法的反应至关重要。心血管安全责任是药物损耗的主要原因,更好的临床前测量对于预测药物相关毒性至关重要。目前,记录血压的无线遥测方法通常用于临床前体内血流动力学评估,为治疗相关的心血管效应提供了有价值的信息。尽管如此,这项技术主要仅限于监测血压和心率。除了这些测量外,多普勒血流仪还可以同时测量多个不同区域血管床的血流变化,从而提供有关血管系统的额外信息。然而,由于这种方法的耗时和昂贵的性质,它并没有在行业中广泛使用。目前,从遥测和多普勒流量法获得的波形数据分析通常检查波形的平均值或峰值。形态学和生理波形变化的细微变化已被证明是毒性和病理的早期标志。因此,对压力和流量波形的详细分析可以增强对毒理学机制的理解,并能够将这些临床前观察结果转化为临床结果。在这篇综述中,我们概述了监测药物对心血管参数(特别是局部血流、心率和血压)影响的不同方法,并建议进一步发展波形分析可以增强我们对安全性药理学的理解,在不增加体内研究数量的情况下提供有价值的信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Monitoring haemodynamic changes in rodent models to better inform safety pharmacology: Novel insights from <b><i>in vivo</i> studies and waveform analysis</b>.

Monitoring haemodynamic changes in rodent models to better inform safety pharmacology: Novel insights from <b><i>in vivo</i> studies and waveform analysis</b>.

Monitoring haemodynamic changes in rodent models to better inform safety pharmacology: Novel insights from <b><i>in vivo</i> studies and waveform analysis</b>.

Monitoring haemodynamic changes in rodent models to better inform safety pharmacology: Novel insights from in vivo studies and waveform analysis.

Animal models are essential for assessing cardiovascular responses to novel therapeutics. Cardiovascular safety liabilities represent a leading cause of drug attrition and better preclinical measurements are essential to predict drug-related toxicities. Presently, radiotelemetric approaches recording blood pressure are routinely used in preclinical in vivo haemodynamic assessments, providing valuable information on therapy-associated cardiovascular effects. Nonetheless, this technique is chiefly limited to the monitoring of blood pressure and heart rate alone. Alongside these measurements, Doppler flowmetry can provide additional information on the vasculature by simultaneously measuring changes in blood flow in multiple different regional vascular beds. However, due to the time-consuming and expensive nature of this approach, it is not widely used in the industry. Currently, analysis of waveform data obtained from telemetry and Doppler flowmetry typically examines averages or peak values of waveforms. Subtle changes in the morphology and variability of physiological waveforms have previously been shown to be early markers of toxicity and pathology. Therefore, a detailed analysis of pressure and flowmetry waveforms could enhance the understanding of toxicological mechanisms and the ability to translate these preclinical observations to clinical outcomes. In this review, we give an overview of the different approaches to monitor the effects of drugs on cardiovascular parameters (particularly regional blood flow, heart rate and blood pressure) and suggest that further development of waveform analysis could enhance our understanding of safety pharmacology, providing valuable information without increasing the number of in vivo studies needed.

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来源期刊
JRSM Cardiovascular Disease
JRSM Cardiovascular Disease CARDIAC & CARDIOVASCULAR SYSTEMS-
自引率
6.20%
发文量
12
审稿时长
12 weeks
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