Development of a prototype for sensing bone-implant interface
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2020 |
| Tipo de documento: | Dissertação |
| Idioma: | eng |
| Título da fonte: | Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos) |
| Texto Completo: | http://hdl.handle.net/10773/31312 |
Resumo: | Over the last few years there has been an increase in the number of arthroplasties performed worldwide. With the growing number of young patients performing this surgery, new technologies are required to evaluate the bone-implant interface in order to avoid revision surgeries. The present work aims to develop a prototype for sensing the bone-implant interface for multifunctional instrumented/bioelectronic implants: the network-based cosurface capacitive system with ability to be extracorporeally controlled by clinicians. This prototype is composed by both hardware and software components. The hardware can also be seen as the data acquisition system and the software is the monitor and the control system. Considering that the societal scenario did not allow the manufacture of this new system prototype, the hardware was only designed for future implementation and validation. The software is a web application that allows the clinician to monitor and control the data acquisition system. For the development of the web application it was used Django, python, HTML5, CSS, and the storage and management of data were performed with MySQL. In order to assess its performance, different simulation tests were performed: (i) monitoring tests using random bone-implant interface states, in which capacitance data was generated from a polynomial function that characterizes the average capacitance change for different bone-implant bonding states; (ii) monitoring tests simulating an increasing bonding scenario. Through the web application it is possible to analyse the data collected from the data acquisition system in two dimensional plots or three dimensional plots. This software solution was also designed to allow downloading the data to an Excel file to give the user the possibility to perform different analyses related boneimplant interface state. The project for the data acquisition system is constituted by a Raspberry Pi, an I2C multiplexer, a capacitor-to-digital converter (EVAL AD-7746), and the sensing technology. The Raspberry Pi is responsible for the TCP-IP communication with the monitoring system and the I2C communication with the capacitor-to-digital converter through the I2C multiplexer. It is also responsible for saving data in the correct database. The capacitor-to-digital converter acquires the data from the sensing technology, which is based on three different printed circuit boards, containing twelve capacitors. Thus, it is intended to prove that with a sensing system comprising a network of cosurface capacitors it is possible to acquire bone-implant interface bonding during the daily life of patients, including region and magnitude debonding data |
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Development of a prototype for sensing bone-implant interfaceBone-implant interfaceInstrumented implantAseptic looseningCapacitive sensorOver the last few years there has been an increase in the number of arthroplasties performed worldwide. With the growing number of young patients performing this surgery, new technologies are required to evaluate the bone-implant interface in order to avoid revision surgeries. The present work aims to develop a prototype for sensing the bone-implant interface for multifunctional instrumented/bioelectronic implants: the network-based cosurface capacitive system with ability to be extracorporeally controlled by clinicians. This prototype is composed by both hardware and software components. The hardware can also be seen as the data acquisition system and the software is the monitor and the control system. Considering that the societal scenario did not allow the manufacture of this new system prototype, the hardware was only designed for future implementation and validation. The software is a web application that allows the clinician to monitor and control the data acquisition system. For the development of the web application it was used Django, python, HTML5, CSS, and the storage and management of data were performed with MySQL. In order to assess its performance, different simulation tests were performed: (i) monitoring tests using random bone-implant interface states, in which capacitance data was generated from a polynomial function that characterizes the average capacitance change for different bone-implant bonding states; (ii) monitoring tests simulating an increasing bonding scenario. Through the web application it is possible to analyse the data collected from the data acquisition system in two dimensional plots or three dimensional plots. This software solution was also designed to allow downloading the data to an Excel file to give the user the possibility to perform different analyses related boneimplant interface state. The project for the data acquisition system is constituted by a Raspberry Pi, an I2C multiplexer, a capacitor-to-digital converter (EVAL AD-7746), and the sensing technology. The Raspberry Pi is responsible for the TCP-IP communication with the monitoring system and the I2C communication with the capacitor-to-digital converter through the I2C multiplexer. It is also responsible for saving data in the correct database. The capacitor-to-digital converter acquires the data from the sensing technology, which is based on three different printed circuit boards, containing twelve capacitors. Thus, it is intended to prove that with a sensing system comprising a network of cosurface capacitors it is possible to acquire bone-implant interface bonding during the daily life of patients, including region and magnitude debonding dataAo longo dos últimos anos tem-se verificado um aumento do número de artroplastias realizadas mundialmente. Com o crescente número de jovens a serem submetidos a esta cirurgia, torna-se necessário desenvolver novas tecnologias para a avaliação da interface osso-implante de modo a diminuir o número de cirurgias de revisão. O presente trabalho tem como objetivo o desenvolvimento de um protótipo para a sensorização da interface de implantes ósseos para incorporar implantes instrumentados, constituídos por uma rede de sistemas capacitivos e com a possibilidade de ser controlada extracoporealmente por médicos especializados. O protótipo é constituído por componentes de hardware e software. O hardware consiste no sistema de aquisição de dados e o software permite o controlo e monitorização do hardware. Considerando o estado social atual não foi possível produzir o protótipo deste novo sistema de monitorização, por esse motivo o hardware foi apenas projetado de forma a ser implementado e validado futuramente. O software é uma aplicação web que permite que o médico especialista monitorize o sistema de aquisição de dados. Para o desenvolvimento deste software foi utilizado Django, python, HTML5, CSS, e a gestão e armazenamento de dados foi feita através do MySQL. A validação das funcionalidades do software foi realizada através de dois testes diferentes: (i) testes de monitorização com base em estados aleaórios da interface osso-implante, onde os valores de capacidade foram obtidos com base numa polinomial que caracteriza a variação de capacidade para diferentes estados de ligação osso-implante; (ii) simulação de um teste de aproximação do osso à estrutura capacitiva. Através da aplicação web, é possível visualizar os resultados obtidos a partir de gráficos tridimensionais e bidimensionais. O website também permite o download de um ficheiro Excel com os dados adquiridos, para o utilizador realizar análises independentes relacionadas com o estado da interface osso-implante. O projeto do sistema de aquisição de dados é constituído por um Raspberry Pi, um multiplexer I2C, um conversor analógico-digital (EVAL-AD7746) e o sistema de sensorização. O Raspberry Pi estabelece uma comunicação TCP-IP com o sistema de monitorização e uma comunicação I2C com o conversor analógico-digital através de um multiplexer I2C. Este dispositivo guarda os dados recolhidos em bases de dados. O conversor analógico-digital recolhe os dados do sistema capacitivo de sensorização, que é constituído por três placas de circiuito impresso, onde cada uma contém um total de doze condensadores. Assim, pretende-se comprovar que com um sistema constituído por uma rede de condensadores é possível fazer uma aquisição de dados relativamente ao estado da interface osso-implante durante o dia-a-dia do paciente2021-05-05T13:09:41Z2020-07-24T00:00:00Z2020-07-24info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisapplication/pdfhttp://hdl.handle.net/10773/31312engPeres, Inês Simõesinfo:eu-repo/semantics/openAccessreponame:Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos)instname:Agência para a Sociedade do Conhecimento (UMIC) - FCT - Sociedade da Informaçãoinstacron:RCAAP2024-02-22T12:00:25Zoai:ria.ua.pt:10773/31312Portal AgregadorONGhttps://www.rcaap.pt/oai/openaireopendoar:71602024-03-20T03:03:13.185863Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos) - Agência para a Sociedade do Conhecimento (UMIC) - FCT - Sociedade da Informaçãofalse |
| dc.title.none.fl_str_mv |
Development of a prototype for sensing bone-implant interface |
| title |
Development of a prototype for sensing bone-implant interface |
| spellingShingle |
Development of a prototype for sensing bone-implant interface Peres, Inês Simões Bone-implant interface Instrumented implant Aseptic loosening Capacitive sensor |
| title_short |
Development of a prototype for sensing bone-implant interface |
| title_full |
Development of a prototype for sensing bone-implant interface |
| title_fullStr |
Development of a prototype for sensing bone-implant interface |
| title_full_unstemmed |
Development of a prototype for sensing bone-implant interface |
| title_sort |
Development of a prototype for sensing bone-implant interface |
| author |
Peres, Inês Simões |
| author_facet |
Peres, Inês Simões |
| author_role |
author |
| dc.contributor.author.fl_str_mv |
Peres, Inês Simões |
| dc.subject.por.fl_str_mv |
Bone-implant interface Instrumented implant Aseptic loosening Capacitive sensor |
| topic |
Bone-implant interface Instrumented implant Aseptic loosening Capacitive sensor |
| description |
Over the last few years there has been an increase in the number of arthroplasties performed worldwide. With the growing number of young patients performing this surgery, new technologies are required to evaluate the bone-implant interface in order to avoid revision surgeries. The present work aims to develop a prototype for sensing the bone-implant interface for multifunctional instrumented/bioelectronic implants: the network-based cosurface capacitive system with ability to be extracorporeally controlled by clinicians. This prototype is composed by both hardware and software components. The hardware can also be seen as the data acquisition system and the software is the monitor and the control system. Considering that the societal scenario did not allow the manufacture of this new system prototype, the hardware was only designed for future implementation and validation. The software is a web application that allows the clinician to monitor and control the data acquisition system. For the development of the web application it was used Django, python, HTML5, CSS, and the storage and management of data were performed with MySQL. In order to assess its performance, different simulation tests were performed: (i) monitoring tests using random bone-implant interface states, in which capacitance data was generated from a polynomial function that characterizes the average capacitance change for different bone-implant bonding states; (ii) monitoring tests simulating an increasing bonding scenario. Through the web application it is possible to analyse the data collected from the data acquisition system in two dimensional plots or three dimensional plots. This software solution was also designed to allow downloading the data to an Excel file to give the user the possibility to perform different analyses related boneimplant interface state. The project for the data acquisition system is constituted by a Raspberry Pi, an I2C multiplexer, a capacitor-to-digital converter (EVAL AD-7746), and the sensing technology. The Raspberry Pi is responsible for the TCP-IP communication with the monitoring system and the I2C communication with the capacitor-to-digital converter through the I2C multiplexer. It is also responsible for saving data in the correct database. The capacitor-to-digital converter acquires the data from the sensing technology, which is based on three different printed circuit boards, containing twelve capacitors. Thus, it is intended to prove that with a sensing system comprising a network of cosurface capacitors it is possible to acquire bone-implant interface bonding during the daily life of patients, including region and magnitude debonding data |
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2020 |
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2020-07-24T00:00:00Z 2020-07-24 2021-05-05T13:09:41Z |
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