Add to ORKGBACKGROUND: High-level lower extremity amputation (HLLEA) has significant impact on an individual\u27s ability to ambulate and maintain cardiovascular fitness for extended periods of time. OBJECTIVE: The purpose of this study was to evaluate whether body weight support (BWS) would improve energy efficiency in an individual with HLLEA to achieve appropriate target cardiovascular intensity for aerobic training. DESIGN: This was an exploratory single-subject study. METHODS: The participant was a 45-year-old woman, 4.5 years after left hip disarticulation secondary to necrotizing fasciitis with resultant organ failure and cardiomyopathy. She was wearing a well-fitted prosthesis and had a goal of ambulating in the community with less fatigue. Vi...
Background: Studies of the maximal oxygen uptake (VO2max) of transfemoral amputees have mostly used ...
Background and aim: Transfemoral amputees often report that walking on tilted pavements or in terrai...
Background: Walking energy expenditure, calculated as the percent utilization of the maximal aerobi...
Objectives: To determine the relative aerobic load, walking speed, and walking economy of older adul...
Objectives: To determine the relative aerobic load, walking speed, and walking economy of older adul...
Background: Previous studies show that people with lower limb amputation (LLA) have a sedentary life...
Objective: To investigate whether the aerobic capacity of older adults who underwent a lower limb am...
A personalised exercise programme for individuals with lower limb amputation reduces falls and impro...
PURPOSE: People with lower limb amputation (LLA) have higher metabolic costs for walking compared to...
BACKGROUND: Energy cost of walking (ECw) is an important determinant of walking ability in people wi...
BACKGROUND: Many individuals with lower limb loss report concern with walking ability after completi...
Objective: To compare the energy expenditure of locomotion by wheelchair with that required for pros...
BACKGROUND: Energy cost of walking (ECw) is an important determinant of walking ability in people wi...
Background & Purpose: Lower limb amputation in older adults has a significant impact on balance, gai...
Aims: Persons with lower-limb amputations need to achieve more natural gait through more effort, lea...
Background: Studies of the maximal oxygen uptake (VO2max) of transfemoral amputees have mostly used ...
Background and aim: Transfemoral amputees often report that walking on tilted pavements or in terrai...
Background: Walking energy expenditure, calculated as the percent utilization of the maximal aerobi...
Objectives: To determine the relative aerobic load, walking speed, and walking economy of older adul...
Objectives: To determine the relative aerobic load, walking speed, and walking economy of older adul...
Background: Previous studies show that people with lower limb amputation (LLA) have a sedentary life...
Objective: To investigate whether the aerobic capacity of older adults who underwent a lower limb am...
A personalised exercise programme for individuals with lower limb amputation reduces falls and impro...
PURPOSE: People with lower limb amputation (LLA) have higher metabolic costs for walking compared to...
BACKGROUND: Energy cost of walking (ECw) is an important determinant of walking ability in people wi...
BACKGROUND: Many individuals with lower limb loss report concern with walking ability after completi...
Objective: To compare the energy expenditure of locomotion by wheelchair with that required for pros...
BACKGROUND: Energy cost of walking (ECw) is an important determinant of walking ability in people wi...
Background & Purpose: Lower limb amputation in older adults has a significant impact on balance, gai...
Aims: Persons with lower-limb amputations need to achieve more natural gait through more effort, lea...
Background: Studies of the maximal oxygen uptake (VO2max) of transfemoral amputees have mostly used ...
Background and aim: Transfemoral amputees often report that walking on tilted pavements or in terrai...
Background: Walking energy expenditure, calculated as the percent utilization of the maximal aerobi...