Liu Liping, Chang Nan, Li Shihong, Gong Peipei, Wang Junhua
Department of Radiology, Jinan Third People's Hospital, Jinan, 250132 Shandong, China.
Department of Respiratory and Critical Care Medicine, Qingdao Municipal Hospital, Qingdao, 266071 Shandong, China.
Appl Bionics Biomech. 2022 Aug 16;2022:1493221. doi: 10.1155/2022/1493221. eCollection 2022.
With the high development of sports, football has attracted more and more attention from the public. However, the hot competition has made football players undergo high-intensity training, and the risk of injury caused by training is also increasing. Lateral incision knee ACL injury is one of the most common types of injuries in football players, which has a serious impact on the athlete's physiology and daily training. The comprehensive, multi-level, convenient and fast medical system brought by the medical Internet of Things has become the growing demand of the medical industry. Based on the medical Internet of Things, this paper studies the rehabilitation nursing of football players' ACL injury by lateral cutting and running combined with optical microscope. In this paper, 36 male and female football players were selected for group experiments, and the landing and peak torque indexes of the experimental group and the control group of male and female athletes were analyzed under the observation of an optical microscope. Group (P <0.05), coxa valgus (P <0.01), internal rotation and knee valgus angles were greater than those in the EM group. And the peak hip flexion angle and knee valgus moment in NF group were lower than those in EF group (P <0.05). After 12 weeks of rehabilitation training, there was a significant difference in the Q/H joint contraction index between the REF group and the CON group (P <0.05), and there was no statistical difference in the other groups. After 12 weeks of rehabilitation training, there was a significant difference in the Q/H joint contraction index between the REF group and the CON group (P <0.05), and there was no statistical difference in the other groups. That is to say, after the systematic rehabilitation training proposed in this paper, the joint contraction performance of the hamstrings/quadriceps in the REF group has been significantly improved. This shows that the rehabilitation nursing under the optical microscope based on the medical Internet of Things has a good effect on the rehabilitation of the football player's side-cut running knee joint ACL injury.
随着体育事业的高度发展,足球越来越受到大众的关注。然而,激烈的竞争使得足球运动员接受高强度训练,训练导致的受伤风险也在增加。膝关节前交叉韧带外侧切口损伤是足球运动员最常见的损伤类型之一,对运动员的生理和日常训练有严重影响。医疗物联网带来的全面、多层次、便捷快速的医疗体系已成为医疗行业日益增长的需求。基于医疗物联网,本文研究了采用外侧切割与跑步结合光学显微镜对足球运动员前交叉韧带损伤的康复护理。本文选取36名男女足球运动员进行分组实验,在光学显微镜观察下分析了男女运动员实验组和对照组的落地和峰值扭矩指标。组间比较(P<0.05),髋外翻(P<0.01)、内旋和膝外翻角度均大于EM组。且NF组的峰值髋屈曲角度和膝外翻力矩低于EF组(P<0.05)。经过12周的康复训练,REF组与CON组的Q/H关节收缩指数有显著差异(P<0.05),其他组无统计学差异。经过12周的康复训练,REF组与CON组的Q/H关节收缩指数有显著差异(P<0.05),其他组无统计学差异。也就是说,经过本文提出的系统康复训练后,REF组的腘绳肌/股四头肌的关节收缩性能有显著改善。这表明基于医疗物联网的光学显微镜下的康复护理对足球运动员侧切跑步膝关节前交叉韧带损伤的康复有良好效果。
