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NCT06452186
The objective of this proposal is to investigate the effects of training to use direct electromyographic (dEMG) control of a powered prosthetic ankle on transtibial amputees'. The aimed questions to answer: 1. whether dEMG control will improve balance and postural stability of amputees, 2. whether dEMG control will lead to more natural neuromuscular control and coordination, 3) whether dEMG control will reduce cognitive processes. Participants will go through PT guided training on using dEMG controlled prosthetic ankles and are evaluated for their capability on functional tasks. The results will be compared with a comparison group, which goes through the same training but with their everyday passive prostheses on balance capability, neuromuscular coordination, and cognitive load during locomotion.
NCT05425810
Lower limb amputees (LLA) rely on their prosthetic legs to remain active and lead an independent life. For most LLAs, a well-fitted prosthetic socket is the only option to interface with their prosthetic leg, however, it is a real challenge to make a prosthetic socket to interface with residual limbs accurately. One of the reasons is that there lack of accurate approaches to evaluate the pressure distribution on the residual limb accurately and effectively. To overcome this issue, the research team will develop an innovative sensing system, which permits the prosthetists to track the pressure distribution on the residual limb visually. The capability of the new sensing system will be demonstrated on lower limb amputees.
NCT05127993
The passive Talaris Demonstrator (TD) is developed in continuation of previous prototypes. The main goal of the experiment is to evaluate the effectiveness of TD during daily activities.
NCT04641845
Prosthetic alignment is important for walking function and walking comfort in people with a transtibial amputation (TTA). Prosthetic alignment is defined as the position of prosthetic parts relative to the body and to each other. A suboptimal alignment decreases stability and increases energy use during walking. Therefore, finding the optimal alignment is an important aspect of rehabilitation. Shoe heel height is considered to influence prosthetic alignment, walking comfort and gait symmetry in people with a TTA. Unfortunately, research on the effect of heel height is scarce and no evidence is available on the effects of variations smaller than 20 mm. However, these small heel height variations between store-bought shoes are often overlooked by people with an amputation and may cause secondary musculoskeletal problems in the long term. To increase the knowledge on this topic, this study aims to examine the effects of small increases in heel height on gait symmetry in people with a TTA and healthy individuals. It was expected that higher heel height would cause more asymmetry in gait and lower walking comfort. People with a TTA were expected to be affected more by heel height changes than healthy individuals.
NCT02124915
The purpose of this study is to investigate how residual limb fluid volume, gait, prosthesis use, perceived comfort, and satisfaction with the prosthesis are affected by size of the prosthetic socket. Subjects are tested after wearing a nominal socket for 1 month and again after wearing a slightly oversized socket for 1 month.