Skip To Main Content University of Washington Department of Rehabilitation Medicine
  Department of Rehabilitation Medicine 
  maximizing potential across the lifespan

Title:

Expanding the Scoring System for the Dynamic Gait Index

Author(s):

Shumway-Cook, A, Taylor, C, Matsuda, PN, Studer, M, Whetten, B

Year:

2013

Publication Info:

Physical Therapy, 93(11):1493-1506

Abstract:

BACKGROUND: The Dynamic Gait Index (DGI) measures the capacity to adapt gait to complex tasks. The current scoring system combining gait pattern (GP) and level of assistance (LOA) lacks clarity, and the test has a limited range of measurement.
OBJECTIVE: This study developed a new scoring system based on 3 facets of performance (LOA, GP, and time) and examined the psychometric properties of the modified DGI (mDGI).
DESIGN: A cross-sectional, descriptive study was conducted.
METHODS: Nine hundred ninety-five participants (855 patients with neurologic pathology and mobility impairments [MI group] and 140 patients without neurological impairment [control group]) were tested. Interrater reliability was calculated using kappa coefficients. Internal consistency was computed using the Cronbach alpha coefficient. Factor analysis and Rasch analysis investigated unidimensionality and range of difficulty. Internal validity was determined by comparing groups using multiple t tests. Minimal detectable change (MDC) was calculated for total score and 3 facet scores using the reliability estimate for the alpha coefficients.
RESULTS: Interrater agreement was strong, with kappa coefficients ranging from 90% to 98% for time scores, 59% to 88% for GP scores, and 84% to 100% for LOA scores. Test-retest correlations for time, GP, and LOA were .91, .91, and .87, respectively. Three factors (time, LOA, GP) had eigenvalues greater than 1.3 and explained 79% of the variance in scores. All group differences were significant, with moderate to large effect sizes. The 95% minimal detectable change (MDC95) was 4 for the mDGI total score, 2 for the time and GP total scores, and 1 for the LOA total score.
LIMITATIONS: The limitations included uneven sample sizes in the 2 groups. The MI group were patients receiving physical therapy; therefore, they may not be representative of this population.
CONCLUSIONS: The mDGI, with its expanded scoring system, improves the range, discrimination, and facets of measurement related to walking function. The strength of the psychometric properties of the mDGI warrants its adoption for both clinical and research purposes.

Link to Article:

http://ptjournal.apta.org/content/93/11/1493.full

Featured Research Articles

Assistive Technology

View the latest research articles on Assistive Technology written by faculty from the Department of Rehabilitation Medicine.

Volunteer to Participate in our Research Studies

The Department of Rehabilitation Medicine is looking for volunteers to participate in research studies on Multiple Sclerosis & Pain Management, and Traumatic Brain Injury.

Level A conformance icon, 
          W3C-WAI Web Content Accessibility Guidelines 1.0
Copyright © 2000-2017 University of Washington