Difference between revisions of "Projects:2021s1-13412 Smart Sock for Aiding Prothesis Fit and Preventing Pressure Sores in Leg Amputees"

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[[Category:Final Year Projects]]
 
[[Category:Final Year Projects]]
 
[[Category:2021s1|13412]]
 
[[Category:2021s1|13412]]
Abstract here
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The number of amputations that occur in Australia are continuing to increase. This has voiced a common concern experienced by many amputees, and that is, prostheses are uncomfortable. Incorrectly fitted prosthesis leads to abnormally high-pressure areas between the residual limb and the prosthetic, causing severe pressure sores and injuries to the residual limb. Prosthesis fitting is not a simple process, it involves months of rehabilitation and fitting modifications with a clinician. Current methods to assist in prosthesis fittings, such as visual inspection, have proven to be inaccurate and unreliable due to their inability to provide quantitative data. This lead to the idea of designing a "Smart Sock". The "Smart Sock" will be equipped with a pressure sensing capability to measure the distribution of pressure between the residual limb and the prosthetic. Pressures will be displayed graphically on a android mobile application, where they can be further analysed, manipulated, and interpreted. Clinicians will be able to utilise this device to aid prosthesis fittings and modifications, and accurately locate high-pressure areas to prevent pressure sores in lower limb amputees.
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== Introduction ==
 
== Introduction ==
 
Australia has the second highest rate of diabetic related lower limb amputations in the developing world, these amputations are due to peripheral vascular disease or diabetes. The latest figures indicate that more than 8,000 lower limb amputations are performed each year in Australia. Other causes for amputation include cancer, trauma accidents, infections, and birth deficiencies.
 
Australia has the second highest rate of diabetic related lower limb amputations in the developing world, these amputations are due to peripheral vascular disease or diabetes. The latest figures indicate that more than 8,000 lower limb amputations are performed each year in Australia. Other causes for amputation include cancer, trauma accidents, infections, and birth deficiencies.
  
The development of a prosthesis that improperly fits an amputee’s residual limb can lead to the development of pressure sores. This is due to the abnormally high-pressure areas between the residual limb and the prosthetic. This is a common problem amputees face, and it has a significant impact on their quality of life and the public healthcare system. Currently, visual inspection techniques such as Blu-Tak deformation, lipstick smudging, and a transparent socket are used to determine the locations and severity of these high-pressure areas. However,  these current techniques have proven to be inaccurate and do not allow long-term monitoring of pressure sores.  
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The development of a prosthesis that improperly fits an amputee’s residual limb can lead to the development of pressure sores. This is due to the abnormally high-pressure areas between the residual limb and the prosthetic. This is a common problem amputees face, and it has a significant impact on their quality of life and the public healthcare system. Currently, visual inspection techniques such as Blu-Tak deformation, lipstick smudging, and a transparent socket are used to determine the locations and severity of these high-pressure areas. However,  these current techniques have proven to be inaccurate, due to the lack of quantitative data and inability to monitor long-term pressure areas and injuries.  
  
The aim of the project is to develop a “Smart Sock” prototype that fits a lower limb amputee’s residual limb and is able to measure the distribution of pressures across the entire residual limb and the prosthetic using pressure sensors. These pressures will be analysed and displayed graphically via a user-friendly mobile application that will be developed. The prototype and APP will be utilised by clinician and practitioners to ensure a uniform distribution of pressure across the lower residual limb to prevent potential pressure sores from occurring. The device will also assist in prosthesis fitting and modification, locating high-pressure areas, and accelerate prothesis rehabilitation.  
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The aim of the project is to develop a “Smart Sock” prototype that will fit a lower limb amputee’s residual limb. It will be able to measure the distribution of pressures across the entire surface area of the residual limb and the prosthetic using pressure sensors. These pressures will be analysed and displayed graphically via a user-friendly mobile application that will be developed. The device will be utilised by clinician and practitioners to ensure a uniform distribution of pressure across the lower residual limb to prevent potential pressure sores from occurring. The device will also assist in prosthesis fitting and modification, locating high-pressure areas, and accelerate prothesis rehabilitation.  
  
=== Project team ===
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=== Project Team ===
==== Project students ====
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==== Students ====
 
* Luke Quinzi
 
* Luke Quinzi
 
* Maria Rapetti
 
* Maria Rapetti
==== Supervisors ====
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==== Supervisor ====
 
* Dr Said Al Sarawi
 
* Dr Said Al Sarawi
 
==== Stakeholders ====
 
==== Stakeholders ====
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== References ==
 
== References ==
[1] a, b, c, "Simple page", In Proceedings of the Conference of Simpleness, 2010.
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[1]
  
[2] ...
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[2]

Latest revision as of 18:41, 29 August 2021

The number of amputations that occur in Australia are continuing to increase. This has voiced a common concern experienced by many amputees, and that is, prostheses are uncomfortable. Incorrectly fitted prosthesis leads to abnormally high-pressure areas between the residual limb and the prosthetic, causing severe pressure sores and injuries to the residual limb. Prosthesis fitting is not a simple process, it involves months of rehabilitation and fitting modifications with a clinician. Current methods to assist in prosthesis fittings, such as visual inspection, have proven to be inaccurate and unreliable due to their inability to provide quantitative data. This lead to the idea of designing a "Smart Sock". The "Smart Sock" will be equipped with a pressure sensing capability to measure the distribution of pressure between the residual limb and the prosthetic. Pressures will be displayed graphically on a android mobile application, where they can be further analysed, manipulated, and interpreted. Clinicians will be able to utilise this device to aid prosthesis fittings and modifications, and accurately locate high-pressure areas to prevent pressure sores in lower limb amputees.

Introduction

Australia has the second highest rate of diabetic related lower limb amputations in the developing world, these amputations are due to peripheral vascular disease or diabetes. The latest figures indicate that more than 8,000 lower limb amputations are performed each year in Australia. Other causes for amputation include cancer, trauma accidents, infections, and birth deficiencies.

The development of a prosthesis that improperly fits an amputee’s residual limb can lead to the development of pressure sores. This is due to the abnormally high-pressure areas between the residual limb and the prosthetic. This is a common problem amputees face, and it has a significant impact on their quality of life and the public healthcare system. Currently, visual inspection techniques such as Blu-Tak deformation, lipstick smudging, and a transparent socket are used to determine the locations and severity of these high-pressure areas. However, these current techniques have proven to be inaccurate, due to the lack of quantitative data and inability to monitor long-term pressure areas and injuries.

The aim of the project is to develop a “Smart Sock” prototype that will fit a lower limb amputee’s residual limb. It will be able to measure the distribution of pressures across the entire surface area of the residual limb and the prosthetic using pressure sensors. These pressures will be analysed and displayed graphically via a user-friendly mobile application that will be developed. The device will be utilised by clinician and practitioners to ensure a uniform distribution of pressure across the lower residual limb to prevent potential pressure sores from occurring. The device will also assist in prosthesis fitting and modification, locating high-pressure areas, and accelerate prothesis rehabilitation.

Project Team

Students

  • Luke Quinzi
  • Maria Rapetti

Supervisor

  • Dr Said Al Sarawi

Stakeholders

  • Vivien Heng
  • Jane Morphett

Objectives

Set of objectives

Background

Topic 1

Method

Results

Conclusion

References

[1]

[2]