Validity of an ankle joint motion and position sense measurement system and its application in healthy subjects and patients with ankle sprain

• Published in: Computer methods and programs in biomedicine Vol. 131; pp. 89 - 96
• Main Authors: Lin, Chueh-Ho, Chiang, Shang-Lin, Lu, Liang-Hsuan, Wei, Shun-Hwa, Sung, Wen-Hsu
• Format: Journal Article
• Language: English
• Published: Ireland Elsevier Ireland Ltd 01.07.2016
• Subjects: Adult; Ankle Injuries - physiopathology; Ankle instability; Ankle Joint - physiology; Ankle sprain; Case-Control Studies; Correlation analysis; Female; Humans; Instability; Internal Medicine; Joint position sense; Male; Other; Patients; Planes; Position measurement; Proprioception; Proprioception deficits; Range of motion; Range of Motion, Articular; Sprains and Strains - physiopathology; Stability; Surgical implants; Young Adult; Proprioception deficits; Ankle sprain; ROM; DE; SD; Range of motion; Ankle instability; AE; Joint position sense; JPS; VE; variable error; proprioception deficits; ankle instability; direction error; range of motion; absolute error; ankle sprain; joint position sense; standard deviation
• ISSN: 0169-2607; 1872-7565
• DOI: 10.1016/j.cmpb.2016.03.026

•A novel measurement system can be used to measure ankle ROM and perception in multiple planes under weight-bearing condition.•The programmable graphic user interface and data management for this developed system with excellent validity was established.•The proprioception measures (JPS-DE, JPS-AE, and JPS-VE) for differentiating the ankle perception deficits were demonstrated. Ankle motion and proprioception in multiple axis movements are crucial for daily activities. However, few studies have developed and used a multiple axis system for measuring ankle motion and proprioception. This study was designed to validate a novel ankle haptic interface system that measures the ankle range of motion (ROM) and joint position sense in multiple plane movements, investigating the proprioception deficits during joint position sense tasks for patients with ankle instability. Eleven healthy adults (mean ± standard deviation; age, 24.7 ± 1.9 years) and thirteen patients with ankle instability were recruited in this study. All subjects were asked to perform tests to evaluate the validity of the ankle ROM measurements and underwent tests for validating the joint position sense measurements conducted during multiple axis movements of the ankle joint. Pearson correlation was used for validating the angular position measurements obtained using the developed system; the independent t test was used to investigate the differences in joint position sense task performance for people with or without ankle instability. The ROM measurements of the device were linearly correlated with the criterion standards (r = 0.99). The ankle instability and healthy groups were significantly different in direction, absolute, and variable errors of plantar flexion, dorsiflexion, inversion, and eversion (p < 0.05). The results demonstrate that the novel ankle joint motion and position sense measurement system is valid and can be used for measuring the ankle ROM and joint position sense in multiple planes and indicate proprioception deficits for people with ankle instability.