Abstract
Movement within the human body is made possible by joints connecting two or more elements of the musculoskeletal system. Losing one or more of these connections can seriously limit mobility, which in turn can lead to depression and other mental issues. This is particularly pertinent due to a dramatic increase in the number of lower limb amputations resulting from trauma and diseases such as diabetes. The ideal prostheses should re-establish the functions and movement of the missing body part of the patient. As a result, the prosthetic solution has to be tested stringently to ensure effective and reliable usage. This paper elaborates on the development, features, and suitability of a testing rig that can evaluate the performance of prosthetic and robotic joints via cyclic dynamic loading on their complex movements. To establish the rig’s validity, the knee joint was chosen as it provides both compound support and movement, making it one of the major joints within the human body, and an excellent subject to ensure the quality of the prosthesis. Within the rig system, a motorised lead-screw simulates the actuation provided by the hamstring-quadricep antagonist muscle pair and the flexion experienced by the joint. Loads and position are monitored by a load cell and proximity sensors respectively, ensuring the dynamics conform with the geometric model and gait analysis. Background: Robotics, Prosthetics, Mechatronics, Assisted Living. Methods: Gait Analysis, Computer Aided Design, Geometry Models. Conclusion: Modular Device, Streamlining Rehabilitation.
Highlights
During the last decade or more, prosthetic functionality has advanced considerably, to close the gap between previously natural and a replicated artificial gait
To establish the rig’s validity, the knee joint was chosen as it provides both compound support and movement, making it one of the major joints within the human body, and an excellent subject to ensure the quality of the prosthesis
The impact of prosthesis on patient satisfaction has been investigated previously (Choi and Ra, 2016) and the results show that the vast majority of subjects reported improvement given the functionality regained after a total knee arthroplasty (TKA)
Summary
During the last decade or more, prosthetic functionality has advanced considerably, to close the gap between previously natural and a replicated artificial gait. This is partially due to the increased commonality of amputations (Moxey et al, 2011), while a higher functionality of the replacement joint has been associated with a better rehabilitation and mental health improvement in terms of comfortability and long term usage (Ziegler-Graham et al, 2008). The impact of prosthesis on patient satisfaction has been investigated previously (Choi and Ra, 2016) and the results show that the vast majority of subjects reported improvement given the functionality regained after a total knee arthroplasty (TKA).
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