Add to ORKGTwenty-four individuals with transtibial amputation were recruited to a randomized, crossover design study to examine stride-to-stride fluctuations of lower limb joint flexion/extension time series using the largest Lyapunov exponent (λ). Each individual wore a “more appropriate” and a “less appropriate” prosthesis design based on the subject\u27s previous functional classification for a three week adaptation period. Results showed decreased λ for the sound ankle compared to the prosthetic ankle (F1,23 = 13.897, p = 0.001) and a decreased λ for the “more appropriate” prosthesis (F1,23 = 4.849, p = 0.038). There was also a significant effect for the time point in the adaptation period (F2,46 = 3.164, p = 0.050). Through the adaptation period...
Abstract Background Prosthetic feet are spring-like, ...
Objective: To study limitations in function and adjustment strategies in lower limb amputees during ...
In case of transtibial amputation, the deficit resulting from the loss of the lower limb can be part...
The purpose of this study was to determine the relationship between stride-to-stride fluctuations an...
The presence of chaos in walking is considered to provide a stable, yet adaptable means for locomoti...
Background: There are many studies that have investigated biomechanical differences among prosthetic...
The amputation and subsequent prosthetic rehabilitation of a lower leg affects gait. Dynamical syste...
Balance during walking is of high importance to prosthesis users and may affect walking during basel...
Abstract Background There are many studies that have investigated biomechanical differences among pr...
Stride-to-stride fluctuations of joint kinematics during walking reflect a highly structured organiz...
The ability to control balance during walking is a critical precondition for minimizing fall risk, b...
Our ability to automatically adapt our walking pattern to the demands of our environment is central ...
Approximately 3.6 million Americans are projected to be living with limb loss by the year 2050. The...
The aim of this study was to determine whether changes in walking balance occurred during an adaptat...
Part of the Biomechanics Commons This Article is brought to you for free and open access by the Biom...
Abstract Background Prosthetic feet are spring-like, ...
Objective: To study limitations in function and adjustment strategies in lower limb amputees during ...
In case of transtibial amputation, the deficit resulting from the loss of the lower limb can be part...
The purpose of this study was to determine the relationship between stride-to-stride fluctuations an...
The presence of chaos in walking is considered to provide a stable, yet adaptable means for locomoti...
Background: There are many studies that have investigated biomechanical differences among prosthetic...
The amputation and subsequent prosthetic rehabilitation of a lower leg affects gait. Dynamical syste...
Balance during walking is of high importance to prosthesis users and may affect walking during basel...
Abstract Background There are many studies that have investigated biomechanical differences among pr...
Stride-to-stride fluctuations of joint kinematics during walking reflect a highly structured organiz...
The ability to control balance during walking is a critical precondition for minimizing fall risk, b...
Our ability to automatically adapt our walking pattern to the demands of our environment is central ...
Approximately 3.6 million Americans are projected to be living with limb loss by the year 2050. The...
The aim of this study was to determine whether changes in walking balance occurred during an adaptat...
Part of the Biomechanics Commons This Article is brought to you for free and open access by the Biom...
Abstract Background Prosthetic feet are spring-like, ...
Objective: To study limitations in function and adjustment strategies in lower limb amputees during ...
In case of transtibial amputation, the deficit resulting from the loss of the lower limb can be part...