Background: Persons with post-stroke hemiparesis usually walk slowly and asymmetrically. Stroke severity and functional walking status are commonly predicted by post-stroke walking speed. The mechanisms that limit walking speed, and by extension functional walking status, need to be understood to improve post-stroke rehabilitation methods. Methods: Three-dimensional forward dynamics walking simulations of hemiparetic subjects (and speed-matched controls) with different levels of functional walking status were developed to investigate the relationships between muscle contributions to walking subtasks and functional walking status. Muscle contributions to forward propulsion, swing initiation and power generation were analyzed during the pre-s...
Walking dysfunction occurs at a very high prevalence in stroke survivors. Human walking is a phenome...
Background: The Lokomat is a robotic exoskeleton that can be used to train gait function in hemipare...
The understanding of biomechanical deficits and impaired neural control of gait after stroke is cruc...
Walking speed is commonly used to predict stroke severity and assess functional walking status (i.e....
textPost-stroke hemiparesis usually leads to slow and asymmetric gait. Improving walking ability, s...
textStroke is the leading cause of long term disability with improved walking being an important goa...
Human walking requires complex muscle coordination to produce important biomechanical functions such...
Individuals, post-stroke, present with an array of changes to the neuromuscular system function such...
Objective: To establish whether functional recovery of gait in patients with post-stroke hemiparesis...
Clinical studies of hemiparetic walking have shown pre-swing abnormalities in the paretic leg sugges...
OBJECTIVE: To establish whether functional recovery of gait in patients with post-stroke hemiparesis...
Background: Previous reports of the mechanics and energetics of post-stroke hemiparetic walking have...
textUnderstanding the underlying coordination mechanisms that lead to a patient’s poor walking perfo...
Background. Little is known about whether changes in coordination patterns of muscle activation afte...
Background. Little is known about whether changes in coordination patterns of muscle activation afte...
Walking dysfunction occurs at a very high prevalence in stroke survivors. Human walking is a phenome...
Background: The Lokomat is a robotic exoskeleton that can be used to train gait function in hemipare...
The understanding of biomechanical deficits and impaired neural control of gait after stroke is cruc...
Walking speed is commonly used to predict stroke severity and assess functional walking status (i.e....
textPost-stroke hemiparesis usually leads to slow and asymmetric gait. Improving walking ability, s...
textStroke is the leading cause of long term disability with improved walking being an important goa...
Human walking requires complex muscle coordination to produce important biomechanical functions such...
Individuals, post-stroke, present with an array of changes to the neuromuscular system function such...
Objective: To establish whether functional recovery of gait in patients with post-stroke hemiparesis...
Clinical studies of hemiparetic walking have shown pre-swing abnormalities in the paretic leg sugges...
OBJECTIVE: To establish whether functional recovery of gait in patients with post-stroke hemiparesis...
Background: Previous reports of the mechanics and energetics of post-stroke hemiparetic walking have...
textUnderstanding the underlying coordination mechanisms that lead to a patient’s poor walking perfo...
Background. Little is known about whether changes in coordination patterns of muscle activation afte...
Background. Little is known about whether changes in coordination patterns of muscle activation afte...
Walking dysfunction occurs at a very high prevalence in stroke survivors. Human walking is a phenome...
Background: The Lokomat is a robotic exoskeleton that can be used to train gait function in hemipare...
The understanding of biomechanical deficits and impaired neural control of gait after stroke is cruc...