An accelerometer-derived ballistocardiogram method for detecting heart rate in free-ranging marine mammals

M. Czapanskiy, P. Ponganis, J. Fahlbusch, T. Schmitt, J. Goldbogen
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引用次数: 3

Abstract

ABSTRACT Physio-logging methods, which use animal-borne devices to record physiological variables, are entering a new era driven by advances in sensor development. However, existing datasets collected with traditional bio-loggers, such as accelerometers, still contain untapped eco-physiological information. Here, we present a computational method for extracting heart rate from high-resolution accelerometer data using a ballistocardiogram. We validated our method with simultaneous accelerometer–electrocardiogram tag deployments in a controlled setting on a killer whale (Orcinus orca) and demonstrate the predictions correspond with previously observed cardiovascular patterns in a blue whale (Balaenoptera musculus), including the magnitude of apneic bradycardia and increase in heart rate prior to and during ascent. Our ballistocardiogram method may be applied to mine heart rates from previously collected accelerometery data and expand our understanding of comparative cardiovascular physiology.
一种用于检测自由放养的海洋哺乳动物心率的加速度计衍生的弹道心动图方法
在传感器发展的推动下,利用动物携带的设备记录生理变量的生理测井方法正在进入一个新时代。然而,传统生物记录仪(如加速度计)收集的现有数据集仍然包含未开发的生态生理信息。在这里,我们提出了一种计算方法,从高分辨率加速度计数据中提取心率,使用的是弹道心动图。我们通过在虎鲸(Orcinus orca)的受控环境中同时部署加速度计-心电图标签来验证我们的方法,并证明预测与之前观察到的蓝鲸(Balaenoptera musus)心血管模式相对应,包括呼吸暂停性心动过缓的程度和上升前和上升过程中的心率增加。我们的弹道心动图方法可以应用于从先前收集的加速度计数据中挖掘心率,并扩展我们对比较心血管生理学的理解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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