Human walking requires complex muscle coordination to produce important biomechanical functions such as balance, forward propulsion and leg swing. For healthy individuals, these tasks are often accomplished effortlessly. However, for individuals post-stroke, balance, propulsion and leg swing can be compromised. Thus, the overall goal of this research was to understand how healthy individuals respond to altered balance control via mediolateral foot placement perturbations and how specific muscles contribute to propulsion and leg swing deficits in individuals post-stroke. Controlling mediolateral foot placement is critical to maintaining balance in the frontal plane, but can be difficult post-stroke. Thus, we investigated how healthy individu...
BackgroundDifficulty advancing the paretic limb during the swing phase of gait is a prominent manife...
textUnderstanding the underlying coordination mechanisms that lead to a patient’s poor walking perfo...
BACKGROUND AND OBJECTIVE: Postural muscle responses are often impaired after stroke. We aimed to ide...
Human walking requires complex muscle coordination to produce important biomechanical functions such...
Background: Persons with post-stroke hemiparesis usually walk slowly and asymmetrically. Stroke seve...
Muscle weakness and balance control are two important predictors of fall risk. The main objective of...
Mechanisms underpinning motor control of standing balance post-stroke remain unclear. Following str...
Reduced knee flexion is a leading feature of post-stroke gait, but the causes have not been well und...
textStroke is the leading cause of long term disability with improved walking being an important goa...
Higginson, Jill S.The central nervous system (CNS) is believed to use the available flexibility prov...
Reduced flexibility over the neuromotor control of paretic leg muscles may impact the extent to whic...
Higginson, Jill S.Stroke severely degrades lower extremity muscle function and results in slower wal...
Stroke is the largest cause of long-term disability in U.S. where majority of the survivors experien...
Clinical studies of hemiparetic walking have shown pre-swing abnormalities in the paretic leg sugges...
Maintaining dynamic balance during community ambulation is a major challenge post-stroke. Community ...
BackgroundDifficulty advancing the paretic limb during the swing phase of gait is a prominent manife...
textUnderstanding the underlying coordination mechanisms that lead to a patient’s poor walking perfo...
BACKGROUND AND OBJECTIVE: Postural muscle responses are often impaired after stroke. We aimed to ide...
Human walking requires complex muscle coordination to produce important biomechanical functions such...
Background: Persons with post-stroke hemiparesis usually walk slowly and asymmetrically. Stroke seve...
Muscle weakness and balance control are two important predictors of fall risk. The main objective of...
Mechanisms underpinning motor control of standing balance post-stroke remain unclear. Following str...
Reduced knee flexion is a leading feature of post-stroke gait, but the causes have not been well und...
textStroke is the leading cause of long term disability with improved walking being an important goa...
Higginson, Jill S.The central nervous system (CNS) is believed to use the available flexibility prov...
Reduced flexibility over the neuromotor control of paretic leg muscles may impact the extent to whic...
Higginson, Jill S.Stroke severely degrades lower extremity muscle function and results in slower wal...
Stroke is the largest cause of long-term disability in U.S. where majority of the survivors experien...
Clinical studies of hemiparetic walking have shown pre-swing abnormalities in the paretic leg sugges...
Maintaining dynamic balance during community ambulation is a major challenge post-stroke. Community ...
BackgroundDifficulty advancing the paretic limb during the swing phase of gait is a prominent manife...
textUnderstanding the underlying coordination mechanisms that lead to a patient’s poor walking perfo...
BACKGROUND AND OBJECTIVE: Postural muscle responses are often impaired after stroke. We aimed to ide...