Effects of rescuer position on the kinematics of cardiopulmonary resuscitation (CPR) and the force of delivered compressions

Summary: Background: Depending on the clinical setting, rescuers may provide CPR from a kneeling (if the patient is on the ground) or standing (if the patient is in a bed) position. The rescuer position may affect workload, and hence rate of fatigue and quality of CPR. Purpose: This study evaluates how three common rescuer positions affect the kinematics of CPR and the force of delivered compressions. Methods: Subjects were 18 health care providers experienced in CPR. Each participant performed CPR from three different positions: kneeling beside the Resusci® Anne manikin placed on the floor (F); standing beside the manikin placed on a Table 63cm in height (H), and standing beside the manikin placed on a Table 37cm in height (L). The compression to ventilation ratio was 15:2. CPR duration was 5min for each position, with a rest period of 50min in-between. The order of position was randomised. The manikin was equipped with a six-axial force load cell to collect 3D compression forces at a sampling rate of 1000Hz. An eight-camera Motion Analysis Digital System was adopted to collect 3D trajectory information. Data were compared using crossover-design analysis of variance (p <0.05 was regarded as statistically significant). Ratings of Perceived Exertion (RPE) were measured by modified Borg scale. Results: Significant differences were observed in the head, shoulder, lower trunk, hip and knee angles between the three methods. Lower trunk flexion angle (°) for H, L, and F were −14.52±1.13, −28.83±1.75, and 14.39±1.14, respectively. Hip flexion angle for H, L, and F were −16.21±3.30, −42.59±4.75, and −47.39±4.36, respectively. However, compression force (N) in H, L, and F were 455.8±17.6, 455.7±14.0, 461.5±13.5, respectively (p >0.05). Compression depths (mm) were: 43.5±3.4, 42.0±5.4, 44±5.2, respectively (p >0.05). Compression frequencies (times/min) were: 117.9±12.4, 116.6±13.4, 108.8±11.7, respectively (p >0.05). No differences were found between the three positions for RPE. Conclusions: In this study, while the kinematics of CPR differed significantly with varying rescuer position, these differences did not affect the compression force, depth and frequency as performed by experienced providers. [Copyright &y& Elsevier]