Development and evaluation of low-cost walker with trunk support for senior citizen.

OBJECTIVE: Develop and evaluate a low-cost walker with trunk support for senior citizens. METHOD: Two-stage descriptive study: development of a walker with trunk support and evaluation with fourth age senior citizens. RESULTS: Twenty-three fourth age senior citizens were selected. The evaluated criteria were the immediate influence of the walker on the static stabilometry with baropodometer and the evaluation of gait with accelerometers monitoring time and amplitude of the hip movement. There was a significant decrease in the body oscillation of senior citizens with the use of the developed walker, and there were changes in the joint amplitudes of the hip, but they were not significant. CONCLUSION: Using low-cost materials, it was possible to develop and equipment that met resistance and effectiveness requirements. The walker interfered in the balance of the senior citizens, reducing significantly the static body oscillation.

Comparison of orbital volume obtained by tomography and rapid prototyping.

PURPOSE: This study aims to compare orbital volume obtained by helical tomography and rapid prototyping. METHODS: The study sample was composed of 6 helical tomography scans. Eleven healthy orbits were identified to have their volumes measured. The volumetric analysis with the helical tomography utilized the same protocol developed by the Plastic Surgery Unit of the Federal University of Paraná. From the CT images, 11 prototypes were created, and their respective volumes were analyzed in 2 ways: using software by SolidWorks and by direct analysis, when the prototype was filled with saline solution. For statistical analysis, the results of the volumes of the 11 orbits were considered independent. RESULTS: The average orbital volume measurements obtained by the method of Ono et al was 20.51 cm, the average obtained by the SolidWorks program was 20.64 cm, and the average measured using the prototype method was 21.81 cm. The 3 methods demonstrated a strong correlation between the measurements. The right and left orbits of each patient had similar volumes. CONCLUSIONS: The tomographic method for the analysis of orbital volume using the Ono protocol yielded consistent values, and by combining this method with rapid prototyping, both reliability validations of results were enhanced.

Chest tube simulator: development of low-cost model for training of physicians and medical students. / Simulador de dreno de tórax: desenvolvimento de modelo de baixo custo para capacitação de médicos e estudantes de medicina.

OBJECTIVE: by using a 3D printer, to create a low-cost human chest cavity simulator that allows the reproduction of the closed chest drainage technique (CCD), comparing its effectiveness with that of the animal model. METHODS: it was made a 3D printing of the bony framework of a human thorax from a chest computerized tomography scan. After printing the ribs, we performed tests with several materials that contributed to form the simulation of the thoracic cavity and pleura. An experimental, randomized, and controlled study, comparing the efficacy of the simulator to the efficacy of the animal model, was then carried out in the teaching of CCD technique for medical students, who were divided into two groups: animal model group and simulator model group, that trained CCD technique in animals and in the simulator model, respectively. RESULTS: the chest reconstruction required anatomical knowledge for tomography analysis and for faithful 3D surface editing. There was no significant difference in the safety of performing the procedure in both groups (7.61 vs. 7.73; p=0.398). A higher score was observed in the simulator model group for "use as didactic material" and "learning of the chest drainage technique", when compared to the animal model group (p<0.05). CONCLUSION: the final cost for producing the model was lower than that of a commercial simulator, what demonstrates the feasibility of using 3D printing for this purpose. In addition, the developed simulator was shown to be equivalent to the animal model in relation to the simulation of the drainage technique for practical learning, and there was preference for the simulator model as didactic material.

OBJETIVO: criar, em impressora 3D, um simulador de baixo custo de caixa torácica humana que permita a reprodução da técnica de drenagem fechada de tórax (DFT) comparando sua eficácia com a do modelo animal. MÉTODOS: foi realizada impressão 3D do arcabouço ósseo de um tórax humano a partir de uma tomografia de tórax. Após a impressão das costelas, foram realizados testes com diversos materiais que contribuíram para formar a simulação da caixa torácica e da pleura. Foi, então, realizado um estudo experimental, randomizado e controlado comparando sua eficácia ao modelo animal no ensino da DFT para estudantes de medicina, que foram divididos em dois grupos: Grupo Modelo Animal e Grupo Modelo Simulador, que treinaram DFT em animais e no modelo simulador, respectivamente. RESULTADOS: a reconstrução do tórax exigiu o conhecimento anatômico para análise da tomografia e para edição fiel da superfície 3D. Não houve diferença significativa quanto à segurança de realizar o procedimento entre os grupos (7,61 vs. 7,73; p=0,398). Foi observada maior pontuação no grupo modelo simulador para uso como material didático e aprendizado da técnica de drenagem torácica quando comparado ao grupo modelo animal (p<0,05). CONCLUSÃO: o custo final para a confecção do modelo foi inferior ao de um simulador comercial, o que demonstra a viabilidade do uso da impressão 3D para esse fim. Além disso, o simulador desenvolvido se mostrou equivalente ao modelo animal quanto à simulação da técnica de drenagem para aprendizado prático e houve preferência pelo modelo simulador como material didático.

Elastomers three-dimensional biomodels proven to be a trustworthy representation of the angiotomographic images.

METHODS: 3D biomodels were printed with flexible material (elastomer) using angiotomographic DICOM acquired images and compared to 3D digital subtraction angiography (DSA) images. RESULTS: 3D biomodels represented the aneurysm angioarchitecture exactly, especially the neck and domus features. CONCLUSION: Elastomers 3D biomodels proved to be a trustworthy representation of the angiotomographic images and could be used to help surgical planning in IA treatment.

Simulador de dreno de tórax: desenvolvimento de modelo de baixo custo para capacitação de médicos e estudantes de medicina / Chest tube simulator: development of low-cost model for training of physicians and medical students

RESUMO Objetivo: criar, em impressora 3D, um simulador de baixo custo de caixa torácica humana que permita a reprodução da técnica de drenagem fechada de tórax (DFT) comparando sua eficácia com a do modelo animal. Métodos: foi realizada impressão 3D do arcabouço ósseo de um tórax humano a partir de uma tomografia de tórax. Após a impressão das costelas, foram realizados testes com diversos materiais que contribuíram para formar a simulação da caixa torácica e da pleura. Foi, então, realizado um estudo experimental, randomizado e controlado comparando sua eficácia ao modelo animal no ensino da DFT para estudantes de medicina, que foram divididos em dois grupos: Grupo Modelo Animal e Grupo Modelo Simulador, que treinaram DFT em animais e no modelo simulador, respectivamente. Resultados: a reconstrução do tórax exigiu o conhecimento anatômico para análise da tomografia e para edição fiel da superfície 3D. Não houve diferença significativa quanto à segurança de realizar o procedimento entre os grupos (7,61 vs. 7,73; p=0,398). Foi observada maior pontuação no grupo modelo simulador para uso como material didático e aprendizado da técnica de drenagem torácica quando comparado ao grupo modelo animal (p<0,05). Conclusão: o custo final para a confecção do modelo foi inferior ao de um simulador comercial, o que demonstra a viabilidade do uso da impressão 3D para esse fim. Além disso, o simulador desenvolvido se mostrou equivalente ao modelo animal quanto à simulação da técnica de drenagem para aprendizado prático e houve preferência pelo modelo simulador como material didático.

ABSTRACT Objective: by using a 3D printer, to create a low-cost human chest cavity simulator that allows the reproduction of the closed chest drainage technique (CCD), comparing its effectiveness with that of the animal model. Methods: it was made a 3D printing of the bony framework of a human thorax from a chest computerized tomography scan. After printing the ribs, we performed tests with several materials that contributed to form the simulation of the thoracic cavity and pleura. An experimental, randomized, and controlled study, comparing the efficacy of the simulator to the efficacy of the animal model, was then carried out in the teaching of CCD technique for medical students, who were divided into two groups: animal model group and simulator model group, that trained CCD technique in animals and in the simulator model, respectively. Results: the chest reconstruction required anatomical knowledge for tomography analysis and for faithful 3D surface editing. There was no significant difference in the safety of performing the procedure in both groups (7.61 vs. 7.73; p=0.398). A higher score was observed in the simulator model group for "use as didactic material" and "learning of the chest drainage technique", when compared to the animal model group (p<0.05). Conclusion: the final cost for producing the model was lower than that of a commercial simulator, what demonstrates the feasibility of using 3D printing for this purpose. In addition, the developed simulator was shown to be equivalent to the animal model in relation to the simulation of the drainage technique for practical learning, and there was preference for the simulator model as didactic material.

[Experimental study of new material for biocompatibility as orbital implant]. / Estudo experimental da biocompatibilidade de novo material para implante orbitário.

PURPOSE: To evaluate the resin FullCure 720® biocompatibility as orbital implant. Clinical response and signs of systemic toxicity to the resin were evaluated, local biocompatibility and microscopic analysis regarding chronic local inflammatory response to the implant. The animals were weighted, biochemical exams and inflammatory response were evaluated. All animals were eviscerated and implantation of the spheres was carried out. Animals were followed for 60 days. Clinical behavior of animals and local signals of inflammation had been observed. After this period animals underwent euthanasia followed by enucleation. Macroscopic and histomorphometric analysis were performed. The results showed normal behavior of the animals, without implant exposure, extrusion, death or systemic toxicity. Capsule tissue formation was observed between the sclera and the implant. Normal inflammatory response to the foreign material in contact with the rabbit soft tissue was observed. The resin FullCure 720®, demonstrated to be biocompatible as an orbital implant in this study.

Rapid prototyping of three-dimensional biomodels as an adjuvant in the surgical planning for intracranial aneurysms.

PURPOSE: To fabricate a three-dimensional biomodels of intracranial aneurysms, using rapid prototyping technology, to facilitate optimal anatomical visualization of aneurysms prior to and during surgery. METHODS: Four intracranial aneurysms cases were selected for this study. Using CT angiography images, the rapid prototyping process was completed using a PolyJet technology machine. The size and morphology of the prototypes were compared to brain digital subtraction arteriography of the same patients. RESULTS: The biomodels reproduced the exact location and morphology of the intracranial aneurysms, particularly the necks, in life-size dimensions and exactly the same as measured by digital subtraction arteriography. The arterial segments adjacent to the aneurysm and arteries anatomically known by the surgeon were also shown, which could guide the surgeon to the aneurysmal segment. The models showed an average unit cost of US$ 130 and each one took an average of 20 hours to be fabricated. CONCLUSIONS: It is possible to fabricate 3D physical biomodels of intracranial aneurysms from CT angiography images. These prototypes may be useful in the surgical planning for intracranial aneurysms to clarify the anatomy, define surgical techniques and facilitate the choice of suitable materials, such as clips and clip appliers.

Development and evaluation of low-cost walker with trunk support for senior citizen / Desenvolvimento e avaliação de andador de baixo custo com suporte de tronco para idosos / Desarrollo y evaluación de andadores de bajo costo con soporte de tronco para ancianos

Abstract OBJECTIVE Develop and evaluate a low-cost walker with trunk support for senior citizens. METHOD Two-stage descriptive study: development of a walker with trunk support and evaluation with fourth age senior citizens. RESULTS Twenty-three fourth age senior citizens were selected. The evaluated criteria were the immediate influence of the walker on the static stabilometry with baropodometer and the evaluation of gait with accelerometers monitoring time and amplitude of the hip movement. There was a significant decrease in the body oscillation of senior citizens with the use of the developed walker, and there were changes in the joint amplitudes of the hip, but they were not significant. CONCLUSION Using low-cost materials, it was possible to develop and equipment that met resistance and effectiveness requirements. The walker interfered in the balance of the senior citizens, reducing significantly the static body oscillation.

Resumo OBJETIVO Desenvolver e avaliar um andador de baixo custo com sustentação de tronco para idosos. MÉTODO Estudo descritivo de duas fases: desenvolvimento de um andador com suporte de tronco e avaliação com idosos de quarta idade. RESULTADOS Foram selecionados 23 idosos de quarta idade. Os critérios avaliados foram a influência imediata do andador na estabilometria estática com baropodômetro e avaliação da marcha com acelerômetros monitorando tempo e amplitude de movimento de quadril. Houve diminuição significativa da oscilação corporal dos idosos com a colocação do andador desenvolvido e mudanças nas amplitudes articulares do quadril, porém estas não foram significativas. CONCLUSÃO Utilizando materiais de baixo custo, foi possível desenvolver um equipamento que atendeu aos requisitos de resistência e eficácia. O andador interferiu no equilíbrio dos idosos, diminuindo significativamente a oscilação corporal estática.

Resumen OBJETIVO Desarrollar y evaluar un andador de bajo costo con soporte de tronco para ancianos. MÉTODO Estudio descriptivo de dos fases: desarrollo de un andador con soporte de tronco y evaluación con ancianos de cuarta edad. RESULTADOS Se seleccionaron 23 ancianos de cuarta edad. Los criterios evaluados fueron la influencia inmediata del andador en la estabilometría estática con baropodómetro y evaluación de la marcha con acelerómetros monitoreando tiempo y amplitud de movimiento de cadera. Se observó una disminución significativa de la oscilación corporal de los ancianos con la colocación del andador desarrollado y cambios en las amplitudes articulares de la cadera, pero éstas no fueron significativas. CONCLUSIÓN Utilizando materiales de bajo costo, fue posible desarrollar un equipo que cumplió con los requisitos de resistencia y eficacia. El andador interfirió en el equilibrio de los ancianos, disminuyendo significativamente la oscilación corporal estática.

Elastomers three-dimensional biomodels proven to be a trustworthy representation of the angiotomographic images / Biomodelos tridimensionais de elastômero provaram ser uma representação confiável de imagens angiotomográficas

ABSTRACT Intracranial aneurysm (IA) rupture is responsible for 80% of spontaneous arachnoid hemorrhages and associated with an extremely high mortality rate. Two possible surgical interventions are endovascular embolization and microsurgical clipping. Three-dimensional (3D) prototyping models help in surgical planning minimizing perioperative risks in both methods and reducing operating time. Methods 3D biomodels were printed with flexible material (elastomer) using angiotomographic DICOM acquired images and compared to 3D digital subtraction angiography (DSA) images. Results 3D biomodels represented the aneurysm angioarchitecture exactly, especially the neck and domus features. Conclusion Elastomers 3D biomodels proved to be a trustworthy representation of the angiotomographic images and could be used to help surgical planning in IA treatment.

RESUMO A ruptura dos aneurismas intracranianos é responsável por 80% das hemorragias subaracnóideas espontâneas e está associada a uma taxa de mortalidade extremamente alta. Duas intervenções cirúrgicas viáveis são embolização endovascular e clipagem microcirúrgica. Os modelos de prototipagem tridimensional (3D) auxiliam no planejamento cirúrgico e na diminuição dos riscos intra-operatórios nos dois procedimentos e redução do tempo da cirurgia. Métodos Foram impressos biomodelos em 3D com material flexível (elastômero) utilizando imagens DICOM de angiotomografia e comparados com imagens de angiografia por subtração digital em 3D (DAS). Resultados Biomodelos em 3D representam com exatidão a angioarquitetura do aneurisma, particularmente os detalhes do colo e domus. Conclusão Biomodelos em 3D com elastômeros mostraram ser uma representação confiável das imagens angiotomográficas, podendo ser utilizados no planejamento cirúrgico no tratamento de IA.

Estudo experimental da biocompatibilidade de novo material para implante orbitário / Experimental study of new material for biocompatibility as orbital implant

OBJETIVO:Avaliar a biocompatibilidade de material FullCure 720®, que é uma resina, na confecção de implante orbitário. Avaliou-se a resposta clínica dos animais, toxicidade sistêmica e a resposta inflamatória crônica. Os animais foram pesados, exames bioquímicos e resposta inflamatória foram avaliados. Foi efetuada evisceração e colocado implante esférico orbitário. Os animais foram acompanhados durante o período de 60 dias, onde se avaliou o comportamento clínico e sinais locais. Após este período, procedeu-se a eutanásia seguida da enucleação. Foi realizada análise macroscópica e histomorfométrica. Os resultados revelaram comportamento normal dos animais, com ausência de exposição ou extrusão dos implantes, morte de algum animal e ausência de toxicidade sistêmica. Houve formação de uma cápsula fibrosa entre a capa escleral e o implante orbitário, resposta inflamatória considerada normal quando em contato com o tecido do coelho. A resina FullCure 720® utilizada como implante orbitário, mostrou-se biocompatível neste estudo.

PURPOSE: To evaluate the resin FullCure 720® biocompatibility as orbital implant. Clinical response and signs of systemic toxicity to the resin were evaluated, local biocompatibility and microscopic analysis regarding chronic local inflammatory response to the implant. The animals were weighted, biochemical exams and inflammatory response were evaluated. All animals were eviscerated and implantation of the spheres was carried out. Animals were followed for 60 days. Clinical behavior of animals and local signals of inflammation had been observed. After this period animals underwent euthanasia followed by enucleation. Macroscopic and histomorphometric analysis were performed. The results showed normal behavior of the animals, without implant exposure, extrusion, death or systemic toxicity. Capsule tissue formation was observed between the sclera and the implant. Normal inflammatory response to the foreign material in contact with the rabbit soft tissue was observed. The resin FullCure 720®, demonstrated to be biocompatible as an orbital implant in this study.

Rapid prototyping of three-dimensional biomodels as an adjuvant in the surgical planning for intracranial aneurysms

PURPOSE: To fabricate a three-dimensional biomodels of intracranial aneurysms, using rapid prototyping technology, to facilitate optimal anatomical visualization of aneurysms prior to and during surgery. METHODS: Four intracranial aneurysms cases were selected for this study. Using CT angiography images, the rapid prototyping process was completed using a PolyJet technology machine. The size and morphology of the prototypes were compared to brain digital subtraction arteriography of the same patients. RESULTS: The biomodels reproduced the exact location and morphology of the intracranial aneurysms, particularly the necks, in life-size dimensions and exactly the same as measured by digital subtraction arteriography. The arterial segments adjacent to the aneurysm and arteries anatomically known by the surgeon were also shown, which could guide the surgeon to the aneurysmal segment. The models showed an average unit cost of US$ 130 and each one took an average of 20 hours to be fabricated. CONCLUSIONS: It is possible to fabricate 3D physical biomodels of intracranial aneurysms from CT angiography images. These prototypes may be useful in the surgical planning for intracranial aneurysms to clarify the anatomy, define surgical techniques and facilitate the choice of suitable materials, such as clips and clip appliers.