1 dence of knee OA who underwent 3-dimensional
gait analysis.
2 motor function assessed by automated CatWalk
gait analysis.
3 CatWalk
gait analysis also supported that antinociceptive effect
4 ed on a multi-scale assessment and automated
gait analysis,
also were improved by TSC treatment.
5 tients with medial tibiofemoral OA underwent
gait analysis and radiographic evaluation.
6 Dynamic knee loading was assessed with
gait analysis,
and both the peak external knee adduction
7 Furthermore,
gait analysis demonstrated that transplanted rats showed
8 Validation of
gait analysis has the potential to bridge the gap betwee
9 Computerized
gait analysis in patients with complex gait patterns hel
10 Clinical
gait analysis incorporating three-dimensional motion ana
11 is shape is known to differ between sex, and
gait analysis is performed in populations with wide rang
12 Moreover, quantitative
gait analysis revealed a deficit of locomotor behavior i
13 Gait analysis suggested better early functional recovery
14 One of the reasons why
gait analysis techniques have not penetrated rehabilitat
15 ese 237 patients also underwent quantitative
gait analysis to determine the maximum knee adduction mo
16 PD using a mobile, biosensor based Embedded
Gait Analysis using Intelligent Technology (eGaIT).
17 Gait analysis was performed on 50 subjects who were preo
18 ion Technology, Wageningen, The Netherlands)
gait analysis was significantly impaired in propofol-sed
19 Gait analysis was undertaken pre-operatively and at 1, 3
20 Gait analysis was used to calculate the peak external kn
21 blinded study using objective spatiotemporal
gait analysis,
we assessed the impact of unilateral and
22 Through kinematic
gait analysis,
we found a relationship between K/L score
23 The results of knee
gait analysis were comparable with normal population dat
24 g with a burst superimposition technique and
gait analysis with surface electromyography to calculate