Gillinov Stephen, Etiwy Muhammad, Wang Robert, Blackburn Gordon, Phelan Dermot, Gillinov A Marc, Houghtaling Penny, Javadikasgari Hoda, Desai Milind Y
The Heart and Vascular Institute, Cleveland Clinic, Cleveland, OH.
Med Sci Sports Exerc. 2017 Aug;49(8):1697-1703. doi: 10.1249/MSS.0000000000001284.
Athletes and members of the public increasingly rely on wearable HR monitors to guide physical activity and training. The accuracy of newer, optically based monitors is unconfirmed. We sought to assess the accuracy of five optically based HR monitors during various types of aerobic exercise.
Fifty healthy adult volunteers (mean ± SD age = 38 ± 12 yr, 54% female) completed exercise protocols on a treadmill, a stationary bicycle, and an elliptical trainer (±arm movement). Each participant underwent HR monitoring with an electrocardiogaphic chest strap monitor (Polar H7), forearm monitor (Scosche Rhythm+), and two randomly assigned wrist-worn HR monitors (Apple Watch, Fitbit Blaze, Garmin Forerunner 235, and TomTom Spark Cardio), one on each wrist. For each exercise type, HR was recorded at rest, light, moderate, and vigorous intensity. Agreement between HR measurements was assessed using Lin's concordance correlation coefficient (rc).
Across all exercise conditions, the chest strap monitor (Polar H7) had the best agreement with ECG (rc = 0.996) followed by the Apple Watch (rc = 0.92), the TomTom Spark (rc = 0.83), and the Garmin Forerunner (rc = 0.81). Scosche Rhythm+ and Fitbit Blaze were less accurate (rc = 0.75 and rc = 0.67, respectively). On treadmill, all devices performed well (rc = 0.88-0.93) except the Fitbit Blaze (rc = 0.76). While bicycling, only the Garmin, Apple Watch, and Scosche Rhythm+ had acceptable agreement (rc > 0.80). On the elliptical trainer without arm levers, only the Apple Watch was accurate (rc = 0.94). None of the devices was accurate during elliptical trainer use with arm levers (all rc < 0.80).
The accuracy of wearable, optically based HR monitors varies with exercise type and is greatest on the treadmill and lowest on elliptical trainer. Electrode-containing chest monitors should be used when accurate HR measurement is imperative.
运动员和公众越来越依赖可穿戴式心率监测器来指导体育活动和训练。新型光学监测器的准确性尚未得到证实。我们试图评估五种光学心率监测器在各种有氧运动类型中的准确性。
50名健康成年志愿者(平均年龄±标准差=38±12岁,54%为女性)在跑步机、固定自行车和椭圆机(±手臂运动)上完成运动方案。每位参与者使用心电图胸带监测器(Polar H7)、前臂监测器(Scosche Rhythm+)以及两个随机分配的腕戴式心率监测器(苹果手表、Fitbit Blaze、佳明Forerunner 235和TomTom Spark Cardio)进行心率监测,每个手腕佩戴一个。对于每种运动类型,在静息、轻度、中度和剧烈强度下记录心率。使用林氏一致性相关系数(rc)评估心率测量值之间的一致性。
在所有运动条件下,胸带监测器(Polar H7)与心电图的一致性最佳(rc = 0.996),其次是苹果手表(rc = 0.92)、TomTom Spark(rc = 0.83)和佳明Forerunner(rc = 0.81)。Scosche Rhythm+和Fitbit Blaze的准确性较低(分别为rc = 0.75和rc = 0.67)。在跑步机上,除了Fitbit Blaze(rc = 0.76)外,所有设备表现良好(rc = 0.88 - 0.93)。骑自行车时,只有佳明、苹果手表和Scosche Rhythm+具有可接受的一致性(rc > 0.80)。在没有手臂杠杆的椭圆机上,只有苹果手表准确(rc = 0.94)。在使用手臂杠杆的椭圆机过程中,没有一个设备是准确的(所有rc < 0.80)。
可穿戴式光学心率监测器的准确性因运动类型而异,在跑步机上最高,在椭圆机上最低。当必须进行准确的心率测量时,应使用含电极的胸带监测器。
