Background and purpose: The modified Emory Functional Ambulation Profile (mEFAP) is an easily administered test that measures the time to ambulate through 5 common environmental terrains with or without an assistive device or manual assistance. The mEFAP was evaluated for its interrater reliability, test-retest reliability, concurrent validity, and sensitivity to change during outpatient rehabilitation for poststroke gait dysfunction.
Methods: Twenty-six poststroke patients were followed up prospectively in a rehabilitation day-treatment program. The mEFAP, Berg Balance Test (BBT), and 7-item mobility subsection of the Functional Independence Measure + Functional Assessment Measure (FAMm) were completed at admission and discharge.
Results: mEFAP interrater reliability (intraclass coefficient [ICC] 0.999) and test-retest reliability (ICC 0.998) were high. The BBT demonstrated high interrater (ICC 0.992) but poor test-retest (ICC 0.605) reliability. Initial and final scores comparing the mEFAP with the BBT (r=-0.735, r=-0.703) and the mEFAP with the FAMm (r=0.685, r=-0.775) were strongly correlated. Improvement on the mEFAP correlated with improved BBT performance (r=-0.524). There was no correlation between overall change observed on the FAMm and change on the mEFAP (r=-0.145). Total mEFAP and all mEFAP subtask scores improved over time (P:<0.0001).
Conclusions: The mEFAP is a reliable gait-assessment tool for patients with stroke and is sensitive to change in ambulation speed.