OBJECTIVE: To compare the concurrent validity and reliability of the GAITRite computerized gait analysis system with validated paper-and-pencil and video-based methods. DESIGN: Within-groups, repeated-measures design. SETTING: Research laboratory in a physical therapy education program. PARTICIPANT: One healthy woman, age 27 years. INTERVENTIONS: A subject walked across the walkway of the GAITRite system at various walking rates and degrees of step symmetry for 2 of the 3 analyses. Paper placed over the walkway enabled concurrent paper-and-pencil analysis. The subject was concurrently videotaped from the side. For the other analysis, a stride simulator with known step and stride lengths was applied to the walkway to simulate 2 steps and 1 stride. MAIN OUTCOME MEASURES: Cadence, walking speed, right and left step and stride lengths, and right and left step times. RESULTS: Excellent paper-and-pencil and GAITRite correlations (intraclass correlation coefficient [ICC] > 95) for spatial measures and excellent video-based and GAITRite correlations (ICC > 93) for temporal measures were found. GAITRite measures of step lengths and times were reliable in both walkway center and left-of-center measurements. CONCLUSIONS: Based on this data, GAITRite is a valid and reliable tool for measuring selected spatial and temporal parameters of gait.
RCT Entities:
OBJECTIVE: To compare the concurrent validity and reliability of the GAITRite computerized gait analysis system with validated paper-and-pencil and video-based methods. DESIGN: Within-groups, repeated-measures design. SETTING: Research laboratory in a physical therapy education program. PARTICIPANT: One healthy woman, age 27 years. INTERVENTIONS: A subject walked across the walkway of the GAITRite system at various walking rates and degrees of step symmetry for 2 of the 3 analyses. Paper placed over the walkway enabled concurrent paper-and-pencil analysis. The subject was concurrently videotaped from the side. For the other analysis, a stride simulator with known step and stride lengths was applied to the walkway to simulate 2 steps and 1 stride. MAIN OUTCOME MEASURES: Cadence, walking speed, right and left step and stride lengths, and right and left step times. RESULTS: Excellent paper-and-pencil and GAITRite correlations (intraclass correlation coefficient [ICC] > 95) for spatial measures and excellent video-based and GAITRite correlations (ICC > 93) for temporal measures were found. GAITRite measures of step lengths and times were reliable in both walkway center and left-of-center measurements. CONCLUSIONS: Based on this data, GAITRite is a valid and reliable tool for measuring selected spatial and temporal parameters of gait.
Authors: Jamie N Justice; Matteo Cesari; Douglas R Seals; Carol A Shively; Christy S Carter Journal: J Gerontol A Biol Sci Med Sci Date: 2015-04-23 Impact factor: 6.053