A Prosthetic Socket with Active Volume Compensation for Amputated Lower Limb

A Prosthetic Socket with Active Volume Compensation for Amputated Lower Limb

Typically, the actual volume of the residual limb changes over time. This causes the prosthesis to not fit, and then pain and skin disease. In this study, a prosthetic socket was developed to compensate for the volume change of the residual limb. Using an inflatable air bladder, the proposed socket...

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Bibliographic Details
Published in:Sensors (Basel, Switzerland) Vol. 21; no. 2; p. 407
Main Authors: Seo, Ji-Hyeon, Lee, Hyuk-Jin, Seo, Dong-Wook, Lee, Dong-Kyu, Kwon, Oh-Won, Kwak, Moon-Kyu, Lee, Kang-Ho
Format: Journal Article
Language:English
Published: Switzerland MDPI 08-01-2021
MDPI AG
Subjects:
active control
air bladder
air flow
Amputation Stumps
Artificial Limbs
Humans
Lower Extremity
lower limb prosthesis
Prosthesis Design
prosthetic socket
Tibia
volume compensation
air bladder
lower limb prosthesis
3-way pneumatic valve
active control
prosthetic socket
volume compensation
air flow
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Description
Summary:Typically, the actual volume of the residual limb changes over time. This causes the prosthesis to not fit, and then pain and skin disease. In this study, a prosthetic socket was developed to compensate for the volume change of the residual limb. Using an inflatable air bladder, the proposed socket monitors the pressure in the socket and keeps the pressure distribution uniform and constant while walking. The socket has three air bladders on anterior and posterior tibia areas, a latching type 3-way pneumatic valve and a portable control device. In the paper, the mechanical properties of the air bladder were investigated, and the electromagnetic analysis was performed to design the pneumatic valve. The controller is based on a hysteresis control algorithm with a closed loop, which keeps the pressure in the socket close to the initial set point over a long period of time. In experiments, the proposed prosthesis was tested through the gait simulator that can imitate a human's gait cycle. The active volume compensation of the socket was successfully verified during repetitive gait cycle using the weight loads of 50, 70, and 90 kg and the residual limb model with a variety of volumes. It was confirmed that the pressure of the residual limb recovered to the initial state through the active control. The pressure inside the socket had a steady state error of less than 0.75% even if the volume of the residual limb was changed from -7% to +7%.
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ISSN:1424-8220
1424-8220
DOI:10.3390/s21020407