Developments in the transtibial prosthetic socket fitting process

Sewell, Philip; Noroozi, Siamak; Vinney, John; Andrews, Stephen H. J.

doi:10.1080/03093640008726532

Cited by 64 publications

(28 citation statements)

References 20 publications

(16 reference statements)

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“…For example, exploring extensive residual limb load thresholds under dynamic and static situations would allow for the development of accurate pressure maps, perhaps revealing patterns across different socket designs and liners in relation to various ADLs. Previous reviews highlighted that there is a lack of research to help the understanding of socket residual limb biomechanical interactions, which documents residual limb soft tissue pressure tolerance and discomfort thresholds and relates this information to age, sex, and pathologies [56][57]. Over a decade has passed since these conclusions have been published, yet the lack of knowledge and understanding of these fundamental factors continues.…”

Section: Discussionmentioning

confidence: 99%

Systematic review of effects of current transtibial prosthetic socket designs—Part 2: Quantitative outcomes

Safari

Meier

2015

J Rehabil Res Dev

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Abstract-This review is an attempt to untangle the complexity of transtibial prosthetic socket fit and perhaps find some indication of whether a particular prosthetic socket type might be best for a given situation. In addition, we identified knowledge gaps, thus providing direction for possible future research. We followed the PRISMA (Preferred Reporting Items for Systematic Reviews and Meta-Analyses) guidelines, using medical subject headings and standard key words to search for articles in relevant databases. No restrictions were made on study design and type of outcome measure used. From the obtained search results (n = 1,863), 35 articles were included. The relevant data were entered into a predefined data form that included the Downs and Black risk of bias assessment checklist. This article presents the results from the systematic review of the quantitative outcomes (n = 27 articles). Trends indicate that vacuum-assisted suction sockets improve gait symmetry, volume control, and residual limb health more than other socket designs. Hydrostatic sockets seem to create less inconsistent socket fittings, reducing a problem that greatly influences outcome measures. Knowledge gaps exist in the understanding of clinically meaningful changes in socket fit and its effect on biomechanical outcomes. Further, safe and comfortable pressure thresholds under various conditions should be determined through a systematic approach.

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Section: Discussionmentioning

confidence: 99%

Systematic review of effects of current transtibial prosthetic socket designs—Part 2: Quantitative outcomes

Safari

Meier

2015

J Rehabil Res Dev

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“…Finite element modeling and analysis have been already adopted to simulate the socket-stump interaction, and over the past two decades, several researches have been performed [9][10][11][12][13]. Most of them have considered transtibial socket, only few transfemoral one.…”

Section: State Of the Art And Simulation Proceduresmentioning

confidence: 99%

Physically Based Modelling and Simulation to Innovate Socket Design

Colombo¹,

Facoetti

Morotti

et al. 2011

Computer-Aided Design and Applications

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This paper introduces a virtual laboratory to design prosthetic socket, which integrates a 3D CAD module, named Socket Modelling Assistant (SMA), specifically developed to create the socket digital model, and a CAE system to analyze the stumpsocket interaction. Software tool, named Virtual Socket Lab (VSL), is part of a knowledge-based framework to design lower limb prosthesis centered on digital models of the patient or of his/her anatomical districts. The focus of this paper is on the definition of an automatic simulation procedure to study the stump-socket interaction and validate socket design. We first introduce the new design framework and main features of VSL. Then, we present a state of art on FE models adopted for residual lower-limb and prosthetic socket during last two decades highlighting key issues. Finally, the identified procedure and the integration strategy within SMA are described as well as preliminary results of the experimentation.

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“…However, studies have not lead to any tools that could aid the prosthetist in determining the socket fit by quantifying the regions of high and low pressure acting at the interface during the course of a normal fitting assessment session with the patient. It has been reported in a review of the current fitting process/research that ideas for novel future research have not yet been documented [9].…”

Section: Introductionmentioning

confidence: 99%

Predicting Interfacial Loads between the Prosthetic Socket and the Residual Limb for Below‐Knee Amputees – A Case Study

Amali

Noroozi

Vinney

et al. 2006

Strain

Self Cite

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In this study, an artificial neural network (ANN) was deployed as a tool to determine the internal loads between the residual limb and prosthetic socket for below‐knee amputees. This was achieved by using simulated load data to validate the ANN and captured clinical load data to predict the internal loads at the residual limb–socket interface. Load/pressure was applied to 16 regions of the socket, using loading pads in conjunction with a load applicator, and surface strains were collected using 15 strain gauge rosettes. A super‐position program was utilised to generate training and testing patterns from the original load/strain data collected. Using this data, a back‐propagation ANN, developed at the University of the West of England, was trained. The input to the trained network was the surface strains and the output the internal loads/pressure. The system was validated and the mean square error (MSE) of the system was found to be 8.8% for 1000 training patterns and 8.9% for 50 testing patterns, which was deemed an acceptable error. Finally, the validated system was used to predict pressure‐sensitive/‐tolerant regions at the limb–socket interface with great success.

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Developments in the transtibial prosthetic socket fitting process

Cited by 64 publications

References 20 publications

Systematic review of effects of current transtibial prosthetic socket designs—Part 2: Quantitative outcomes

Systematic review of effects of current transtibial prosthetic socket designs—Part 2: Quantitative outcomes

Physically Based Modelling and Simulation to Innovate Socket Design

Predicting Interfacial Loads between the Prosthetic Socket and the Residual Limb for Below‐Knee Amputees – A Case Study

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