BACKGROUND: Different suspension systems that are used within prosthetic devices may alter the distribution of pressure inside the prosthetic socket in lower limb amputees. This study aimed to compare the interface pressure of a new magnetic suspension system with the pin/lock and Seal-In suspension systems. METHODS: Twelve unilateral transtibial amputees participated in the study. The subjects walked on a level walkway at a self-selected speed. The resultant peak pressure with the three different suspension systems was recorded using F-socket transducers. FINDINGS: There were significant statistical differences between the three studied suspension systems. Pair-wise analyses revealed that the mean peak pressure (kPa) was lower with the magnetic system than it was with the pin/lock system over the anterior and posterior aspects during one gait cycle (89.89 vs. 79.26 and 47.22 vs. 26.01, respectively). Overall, the average peak pressure values were higher with the Seal-In system than they were with the new magnetic lock and pin/lock system. INTERPRETATION: The new magnetic system might reduce the pressure within the prosthetic socket in comparison to the pin/lock and Seal-In system during one gait cycle. This is particularly important during the swing phase of gait and may reduce the pain and discomfort at the distal residual limb in comparison to the pin/lock system.
BACKGROUND: Different suspension systems that are used within prosthetic devices may alter the distribution of pressure inside the prosthetic socket in lower limb amputees. This study aimed to compare the interface pressure of a new magnetic suspension system with the pin/lock and Seal-In suspension systems. METHODS: Twelve unilateral transtibial amputees participated in the study. The subjects walked on a level walkway at a self-selected speed. The resultant peak pressure with the three different suspension systems was recorded using F-socket transducers. FINDINGS: There were significant statistical differences between the three studied suspension systems. Pair-wise analyses revealed that the mean peak pressure (kPa) was lower with the magnetic system than it was with the pin/lock system over the anterior and posterior aspects during one gait cycle (89.89 vs. 79.26 and 47.22 vs. 26.01, respectively). Overall, the average peak pressure values were higher with the Seal-In system than they were with the new magnetic lock and pin/lock system. INTERPRETATION: The new magnetic system might reduce the pressure within the prosthetic socket in comparison to the pin/lock and Seal-In system during one gait cycle. This is particularly important during the swing phase of gait and may reduce the pain and discomfort at the distal residual limb in comparison to the pin/lock system.
Authors: Mayank Seth; Emma Haldane Beisheim; Maximilian Tobias Spencer; John Robert Horne; Frank Bernard Sarlo; Jaclyn Megan Sions Journal: Prosthet Orthot Int Date: 2021-06-01 Impact factor: 1.672
Authors: Hossein Gholizadeh; Noor Azuan Abu Osman; Arezoo Eshraghi; Sadeeq Ali; Nooranida Arifin; Wan Abu Bakar Wan Abas Journal: Biomed Eng Online Date: 2014-01-10 Impact factor: 2.819
Authors: Arezoo Eshraghi; Noor Azuan Abu Osman; Mohammad Karimi; Hossein Gholizadeh; Ehsan Soodmand; Wan Abu Bakar Wan Abas Journal: PLoS One Date: 2014-05-27 Impact factor: 3.240
Authors: Salvador Ibarra Aguila; Gisel J Sánchez; Eric E Sauvain; B Alemon; Rita Q Fuentes-Aguilar; Joel C Huegel Journal: Sensors (Basel) Date: 2020-12-09 Impact factor: 3.576