Yamanaka Yuki, Mizuno Tomohito, Yamamoto Hiroyuki, Murakami Shinichiro
Faculty of Health Care Sciences, Himeji Dokkyo University: 7-2-1 Kamiouno, Himeji, Hyogo 670-0896, Japan.
J Phys Ther Sci. 2024 Aug;36(8):435-440. doi: 10.1589/jpts.36.435. Epub 2024 Aug 1.
[Purpose] We investigated the utility of wearable inertial and magnetic sensing modules for analyzing neck and trunk movements during the rolling over movement. [Participants and Methods] The participants were instructed to roll over from the supine to the side-lying position with three sensor units attached to their forehead, xiphoid process of the sternum, and abdomen. Experiments were conducted on two prescribed patterns: one emphasizing hip joint flexion and adduction, and the other focusing on scapular protraction and horizontal shoulder joint adduction in two healthy participants (one male and one female). The flexion and rotation angles of the neck and trunk were calculated using conventional spreadsheet software with data obtained from the sensors. The obtained values were compared for agreement with those derived from a three-dimensional (3D) motion analysis device. [Results] The cross-correlation coefficient for the flexion and rotation angles of the neck and trunk between the two measurement methods was approximately 0.85, and the root mean square (RMS) angle difference was approximately 5.0°. [Conclusion] Wearable inertial and magnetic sensors can be used to quantitatively evaluate neck and trunk movements during the rolling over movement.
[目的]我们研究了可穿戴惯性和磁传感模块在分析翻身动作过程中颈部和躯干运动方面的效用。[参与者与方法]参与者被要求在额部、胸骨剑突和腹部附着三个传感器单元的情况下从仰卧位翻身至侧卧位。对两名健康参与者(一名男性和一名女性)按照两种规定模式进行了实验:一种模式强调髋关节屈曲和内收,另一种模式侧重于肩胛骨前伸和肩关节水平内收。使用传统电子表格软件根据传感器获得的数据计算颈部和躯干的屈曲和旋转角度。将获得的值与三维(3D)运动分析设备得出的值进行比较以评估一致性。[结果]两种测量方法之间颈部和躯干屈曲及旋转角度的互相关系数约为0.85,均方根(RMS)角度差约为5.0°。[结论]可穿戴惯性和磁传感器可用于定量评估翻身动作过程中的颈部和躯干运动。
