Department of Physical Therapy, Center of Health Sciences and Sport, Santa Catarina State University, Santa Catarina, Brazil.
J Hand Ther. 2013 Oct-Dec;26(4):323-9; quiz 329. doi: 10.1016/j.jht.2013.05.007. Epub 2013 Jul 16.
Repeated measures experiment.
Traumatic injuries and certain other diseases of the hand typically affect mobility of the finger joints. Decreased mobility may alter grip force control while one is grasping and lifting objects. However, the effect of finger joint hypomobility on grip force control has not yet been systematically investigated.
The aim of this study was to investigate the effects of limited finger joint mobility, without other associated symptoms like pain, or sensory/proprioceptive deficits, on precision grip force control.
Fifteen healthy subjects performed a pinching and lifting task of an object equipped with a force sensor and an accelerometer, via opposition of the thumb and index finger, in the following experimental conditions: unrestricted finger joint movement (UJM), restricted finger flexion (RFF), restricted finger extension (RFE), mock restricted flexion (MRF), mock restricted extension (MRE). The following pinch force variables were measured and analyzed: grip force at lift off, grip force peak, load force peak, latency, and static force.
A significant increase in latency (F = 4.41, p < 0.01) was noted during RFE relative to UJM and MRF conditions. There were no statistically-significant differences between the conditions among the other variables of precision grip force control.
Limited joint mobility of the thumb and index finger may cause temporal changes in precision grip force control, which can lead to reduced manual dexterity. Restoring range of motion might be an important priority to improve thumb-index pinch force control during manipulative tasks.
重复测量实验。
手部创伤和某些其他疾病通常会影响手指关节的活动度。活动度降低可能会改变抓握和提起物体时的握力控制。然而,手指关节活动度降低对手握力控制的影响尚未得到系统研究。
本研究旨在调查手指关节活动度受限(无疼痛等其他相关症状,也无感觉/本体感觉缺陷)对精准握力控制的影响。
15 名健康受试者通过拇指和食指的对抗,对装有力传感器和加速度计的物体执行捏取和提起任务,在以下实验条件下进行:手指关节不受限运动(UJM)、手指屈曲受限(RFF)、手指伸展受限(RFE)、模拟受限屈曲(MRF)、模拟受限伸展(MRE)。测量和分析以下捏力变量:提起时的握力、握力峰值、负载力峰值、潜伏期和静态力。
与 UJM 和 MRF 条件相比,RFE 时潜伏期显著增加(F=4.41,p<0.01)。在其他精准握力控制变量中,各条件之间无统计学差异。
拇指和食指关节活动度受限可能会导致精准握力控制的时间变化,从而导致手部灵活性降低。恢复活动范围可能是改善操作任务中拇指-食指捏力控制的重要优先事项。
