Impaired limb shortening following stroke: what's in a name?

Impaired limb shortening following stroke: what's in a name?

Difficulty advancing the paretic limb during the swing phase of gait is a prominent manifestation of walking dysfunction following stroke. This clinically observable sign, frequently referred to as 'foot drop', ostensibly results from dorsiflexor weakness. Here we investigated the extent t...

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Bibliographic Details
Published in:PloS one 2014-10, Vol.9 (10), p.e110140-e110140
Main Authors: Little, Virginia L, McGuirk, Theresa E, Patten, Carolynn
Format: Article
Language:eng
Subjects:
Adult
Ankle
Biology and Life Sciences
Biomechanical Phenomena
Biomechanics
Brain research
Case-Control Studies
Control methods
Coordination
Engineering and Technology
Feet
Female
Gait
Gait - physiology
Gastrocnemius muscle
Graduate studies
Hip
Humans
Impairment
Joints - physiopathology
Kinematics
Knee
Lower Extremity - physiopathology
Male
Medicine and Health Sciences
Middle Aged
Muscles
Physical therapy
Posture
R&D
Rehabilitation
Research & development
Restoration
Stroke
Stroke - physiopathology
Three dimensional motion
Time Factors
Toe
Walking
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Summary:Difficulty advancing the paretic limb during the swing phase of gait is a prominent manifestation of walking dysfunction following stroke. This clinically observable sign, frequently referred to as 'foot drop', ostensibly results from dorsiflexor weakness. Here we investigated the extent to which hip, knee, and ankle motions contribute to impaired paretic limb advancement. We hypothesized that neither: 1) minimal toe clearance and maximal limb shortening during swing nor, 2) the pattern of multiple joint contributions to toe clearance and limb shortening would differ between post-stroke and non-disabled control groups. We studied 16 individuals post-stroke during overground walking at self-selected speed and nine non-disabled controls who walked at matched speeds using 3D motion analysis. No differences were detected with respect to the ankle dorsiflexion contribution to toe clearance post-stroke. Rather, hip flexion had a greater relative influence, while the knee flexion influence on producing toe clearance was reduced. Similarity in the ankle dorsiflexion, but differences in the hip and knee, contributions to toe clearance between groups argues strongly against dorsiflexion dysfunction as the fundamental impairment of limb advancement post-stroke. Marked reversal in the roles of hip and knee flexion indicates disruption of inter-joint coordination, which most likely results from impairment of the dynamic contribution to knee flexion by the gastrocnemius muscle in preparation for swing. These findings suggest the need to reconsider the notion of foot drop in persons post-stroke. Redirecting the focus of rehabilitation and restoration of hemiparetic walking dysfunction appropriately, towards contributory neuromechanical impairments, will improve outcomes and reduce disability.
ISSN:1932-6203
1932-6203