Coyle-Asbil B, Holjak E J B, Marrow J P, Alshamali R, Ogilvie L M, Edgett B A, Hopkinson L D, Brunt K R, Simpson J A
Department of Human Health and Nutritional Sciences, University of Guelph, Guelph, Ontario, Canada.
IMPART Investigator Team Canada, Saint John, New Brunswick, Canada.
Am J Physiol Heart Circ Physiol. 2023 Jan 1;324(1):H129-H140. doi: 10.1152/ajpheart.00444.2022. Epub 2022 Dec 2.
Cardiac reserve is a widely used health indicator and prognostic tool. Although it is well established how to assess cardiac reserve clinically, in preclinical models, it is more challenging lacking standardization. Furthermore, although cardiac reserve incorporates both systolic (i.e., contractile reserve) and diastolic (i.e., relaxation reserve) components of the cardiac cycle, less focus has been placed on diastolic reserve. The aim of our study was to determine which technique (i.e., echocardiography, invasive hemodynamic, and Langendorff) and corresponding parameters can be used to assess the systolic and diastolic reserves in preclinical models. Healthy adult male and female CD-1 mice were administered dobutamine and evaluated by echocardiography and invasive hemodynamic, or Langendorff to establish systolic and diastolic reserves. Here, we show that systolic reserve can be assessed using all techniques in vivo and in vitro. Yet, the current indices available are ineffective at capturing diastolic reserve of healthy mice in vivo. When assessing systolic reserve, sex affects the dose response of several commonly used echocardiography parameters [i.e., fractional shortening (FS), ejection fraction (EF)]. Taken together, this study improves our understanding of how sex impacts the interpretation assessment of cardiac reserve and establishes for the first time that in healthy adult mice, the diastolic reserve cannot be assessed by currently established methods in vivo. Cardiac reserve is a globally used health indicator and prognostic tool that is used by clinicians and preclinical scientists. In physiology, we have a long-standing appreciation of how to assess systolic reserve but lack insight into sex differences and have no frame of reference for measuring diastolic reserve to certainty across cardiac techniques or the influence of sex. Here, we show that the primary means for assessing diastolic reserve is incorrect. Furthermore, we provided proof and clarity on how to correctly measure systolic and diastolic reserve capacities. We also highlight the imperative of sex differences to the measures of both systolic and diastolic reserves using several techniques (i.e., echocardiography, invasive hemodynamics, and Langendorff) in mice.
心脏储备是一种广泛使用的健康指标和预后工具。尽管临床上已明确如何评估心脏储备,但在临床前模型中,由于缺乏标准化,评估更具挑战性。此外,虽然心脏储备包含心动周期的收缩期(即收缩储备)和舒张期(即舒张储备)成分,但对舒张储备的关注较少。我们研究的目的是确定哪种技术(即超声心动图、有创血流动力学和Langendorff技术)及相应参数可用于评估临床前模型中的收缩期和舒张期储备。对健康成年雄性和雌性CD-1小鼠给予多巴酚丁胺,并通过超声心动图、有创血流动力学或Langendorff技术进行评估,以建立收缩期和舒张期储备。在此,我们表明收缩期储备可在体内和体外使用所有技术进行评估。然而,目前可用的指标在捕获健康小鼠体内的舒张期储备方面无效。在评估收缩期储备时,性别会影响几种常用超声心动图参数的剂量反应[即缩短分数(FS)、射血分数(EF)]。综上所述,本研究增进了我们对性别如何影响心脏储备解释评估的理解,并首次确定在健康成年小鼠中,目前的体内方法无法评估舒张期储备。心脏储备是临床医生和临床前科学家都使用的全球通用的健康指标和预后工具。在生理学中,我们长期以来一直了解如何评估收缩期储备,但缺乏对性别差异的认识,并且没有确定的参考框架来衡量跨心脏技术的舒张期储备或性别的影响。在此,我们表明评估舒张期储备的主要方法是不正确的。此外,我们提供了如何正确测量收缩期和舒张期储备能力的证据和清晰度。我们还强调了在小鼠中使用多种技术(即超声心动图、有创血流动力学和Langendorff技术)时,性别差异对收缩期和舒张期储备测量的重要性。
