Desenvolvimento de um dinamômetro biomédico ergonômico com comunicação com dispositivos móveis /

Paulo, Danilo Pazian.

January 2017

Orientador: Aparecido Augusto de Carvalho / Resumo: Dinamômetros biomédicos são equipamentos utilizados para medir forças exercidas pelas mãos. Com o uso deste tipo de equipamento, é possível realizar avaliações biomecânicas das mãos de pacientes que após cirurgias, acidentes ou patologias osteomioarticulares, tiveram redução na sua capacidade de exercer forças com as mãos. O objetivo deste trabalho foi a implementação de um dinamômetro biomédico ergonômico, de fácil utilização, com capacidade de comunicação com diferentes tipos de dispositivos móveis, como smartphones e tablets. O projeto realizado se constitui no aprimoramento de duas versões anteriores de dinamômetros implementadas no Laboratório de Instrumentação Eletrônica e Engenharia Biomédica da UNESP –Campus de Ilha Solteira. Testes em voluntários utilizando o dinamômetro desenvolvido e um dinamômetro comercial da marca SAEHAN, e posterior análise estatística dos dados revelam uma excelente confiabilidade intra-examinador para o dinamômetro desenvolvido, com coeficiente de correlação intraclasse médio de 0,95 entre os diferentes grupos analisados, e de 0,98 para o dinamômetro SAEHAN. A análise estatística revela também uma excelente confiabilidade concorrente para as medidas realizadas pelo dinamômetro desenvolvido em relação às do dinamômetro SAEHAN, sendo de 0,93 para mãos dominantes e 0,92 para mãos não dominantes. Assim, o dinamômetro desenvolvido é confiável, válido e comparável com o dinamômetro SAEHAN quando adotados os mesmos procedimentos de exame de preensão... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Biomedical dynamometers are equipment used to measure forces exerted by the hands. Using this type of equipment, it is possible to perform biomechanical evaluations of the hands of patients that after surgery, accidents or diseases have had a reduction in the ability to exert force with their hands. The objective of this work was the implementation of an ergonomic biomedical dynamometer, easy to use, with ability to communicate with different types of mobile devices such as smartphones and tablets. The project carried out constitutes the improvement of two previous dynamometers versions implemented in the Electronic Instrumentation and Biomedical Engineering Laboratory at UNESP - Ilha Solteira. Volunteer tests using the developed dynamometer and a commercial SAEHAN dynamometer, and subsequent statistical analysis of the data revealed an excellent intra-examiner reliability for the developed dynamometer, a mean of 0,95 among different groups analyzed, and a mean of 0,98 for the SAEHAN dynamometer. The statistical analysis also revealed an excellent concurrent reliability for the measurements performed by the dynamometer developed in relation to those of the SAEHAN dynamometer, being 0,93 for dominant hands and 0,92 for non-dominant hands. Thus, the developed dynamometer is reliable, valid and comparable with the SAEHAN dynamometer when the same grip strength examination procedures were adopted. / Mestre

Dinamômetro biomédico

Medidores de tensão.

Preensão palmar

Lesões da mão

Avaliação de força

Biomedical dynamometer

Gages

Grips

Hand injury

Strength assessment

Desenvolvimento de um dinamômetro biomédico ergonômico com comunicação com dispositivos móveis / Development of an ergonomic biomedical dynamometer with communication with mobile devices

Paulo, Danilo Pazian [UNESP]

12 May 2017

Submitted by DANILO PAZIAN PAULO (danilo.ifsp.bgi@gmail.com) on 2017-07-10T16:09:54Z No. of bitstreams: 1 Versão Final V1.pdf: 6668672 bytes, checksum: d517c07a2f6f08350724000e0f4d4b64 (MD5) / Approved for entry into archive by Monique Sasaki (sayumi_sasaki@hotmail.com) on 2017-07-13T20:30:48Z (GMT) No. of bitstreams: 1 paulo_dp_me_ilha.pdf: 6668672 bytes, checksum: d517c07a2f6f08350724000e0f4d4b64 (MD5) / Made available in DSpace on 2017-07-13T20:30:48Z (GMT). No. of bitstreams: 1 paulo_dp_me_ilha.pdf: 6668672 bytes, checksum: d517c07a2f6f08350724000e0f4d4b64 (MD5) Previous issue date: 2017-05-12 / Dinamômetros biomédicos são equipamentos utilizados para medir forças exercidas pelas mãos. Com o uso deste tipo de equipamento, é possível realizar avaliações biomecânicas das mãos de pacientes que após cirurgias, acidentes ou patologias osteomioarticulares, tiveram redução na sua capacidade de exercer forças com as mãos. O objetivo deste trabalho foi a implementação de um dinamômetro biomédico ergonômico, de fácil utilização, com capacidade de comunicação com diferentes tipos de dispositivos móveis, como smartphones e tablets. O projeto realizado se constitui no aprimoramento de duas versões anteriores de dinamômetros implementadas no Laboratório de Instrumentação Eletrônica e Engenharia Biomédica da UNESP –Campus de Ilha Solteira. Testes em voluntários utilizando o dinamômetro desenvolvido e um dinamômetro comercial da marca SAEHAN, e posterior análise estatística dos dados revelam uma excelente confiabilidade intra-examinador para o dinamômetro desenvolvido, com coeficiente de correlação intraclasse médio de 0,95 entre os diferentes grupos analisados, e de 0,98 para o dinamômetro SAEHAN. A análise estatística revela também uma excelente confiabilidade concorrente para as medidas realizadas pelo dinamômetro desenvolvido em relação às do dinamômetro SAEHAN, sendo de 0,93 para mãos dominantes e 0,92 para mãos não dominantes. Assim, o dinamômetro desenvolvido é confiável, válido e comparável com o dinamômetro SAEHAN quando adotados os mesmos procedimentos de exame de preensão palmar. / Biomedical dynamometers are equipment used to measure forces exerted by the hands. Using this type of equipment, it is possible to perform biomechanical evaluations of the hands of patients that after surgery, accidents or diseases have had a reduction in the ability to exert force with their hands. The objective of this work was the implementation of an ergonomic biomedical dynamometer, easy to use, with ability to communicate with different types of mobile devices such as smartphones and tablets. The project carried out constitutes the improvement of two previous dynamometers versions implemented in the Electronic Instrumentation and Biomedical Engineering Laboratory at UNESP - Ilha Solteira. Volunteer tests using the developed dynamometer and a commercial SAEHAN dynamometer, and subsequent statistical analysis of the data revealed an excellent intra-examiner reliability for the developed dynamometer, a mean of 0,95 among different groups analyzed, and a mean of 0,98 for the SAEHAN dynamometer. The statistical analysis also revealed an excellent concurrent reliability for the measurements performed by the dynamometer developed in relation to those of the SAEHAN dynamometer, being 0,93 for dominant hands and 0,92 for non-dominant hands. Thus, the developed dynamometer is reliable, valid and comparable with the SAEHAN dynamometer when the same grip strength examination procedures were adopted.

Dinamômetro biomédico

Extensômetros

Preensão palmar

Lesões da mão

Avaliação de força

Biomedical dynamometer

Gages

Grips

Hand injury

Strength assessment

Hand Injury from Powered Wood Splitters

Lindqvist, Aron

January 2010

The purpose of this study on hand injury from powered wood splitters was to describe injury epidemiology and anatomy, to rate injury severity, to evaluate the outcome after injury and to describe factors of possible importance for the occurrence of injury. By searching a computerized patient registry, 131 patients injured by wood splitters from 1995 to 2001 were identified. Information was obtained from hospital records and radiographs, a written questionnaire and a structured telephone interview. Injury severity was rated according to the Hand Injury Severity Scoring System (HISS system) and the Injury Severity Score (ISS). Outcome was evaluated with the Disabilities of the Arm, Shoulder and Hand outcome questionnaire (DASH) and, in 26 of the most severely injured patients, with the Sollerman test. Forty-six percent of the injuries occurred during April or May. Wedge splitters caused 82 % of all injuries and most often injured the index finger, while screw splitters caused 18 % of all injuries and most often injured the metacarpus. Screw splitters caused palmar perforation and thumb avulsion. Sixty-three percent of all patients had an amputation or devascularising injury. The reliability of HISS rating was good. The mean Hand Injury Severity Score (HISS) was 63 which is equivalent to a severe hand injury. The mean ISS was 3.7. Nineteen percent of patients had minor, 31 % had moderate, 23 % had severe and 27 % had major injury according to the HISS system. Children had more severe injuries than adults. There was no significant difference regarding HISS or DASH scores between wedge and screw splitter injuries. The mean DASH score was 15, indicating moderate residual sequelae, but patients without sequelae and patients with grave sequelae were found in all HISS severity grades. There was a weak but significant correlation between the HISS and DASH scores. The mean Sollerman score in the injured hand was 66, indicating significantly impaired hand function. Twenty-nine percent of splitters were home-made. Very few machines had the safety measures required by European Standards. Children were present during splitting in at least 15 % of cases. Not being alone at the machine was one cause of wedge splitter injury. Glove use was one cause of screw splitter injury. Hand injury from powered wood splitters is a significant problem. Many of the injuries are severe, and cause long term sequels and impairment of hand function. Prevention is essential and should focus on unsafe machines and dangerous patterns of use.

Wood splitter

Wedge splitter

Screw splitter

Consumer product related injury

Agricultural injury

Occupational injury

Hand injury

Child injury

Injury prevention

Vedklyv

Kilklyv

Hydraulklyv

Skruvklyv

Arbetsskada

Handskada

Skada barn

Skadeprevention

Plastic surgery

Plastikkirurgi

Hand surgery

Handkirurgi

Orthopaedics

Ortopedi

Occupational medicine

Yrkesmedicin