Modelo holográfico de craniossinostose para o HoloLens
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Data
2022-06-07
Autores
Yoshida, Mauricio Mitsuru [UNIFESP]
Orientadores
Ferreira, Lydia Masako [UNIFESP]
Tipo
Dissertação de mestrado profissional
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Resumo
Introdução: A compreensão tridimensional das deformidades resultantes de craniossinostose permanece sendo um desafio no planejamento e execução da cirurgia para o seu tratamento. A tecnologia de realidade mista permite inserir objetos virtuais, os hologramas, no mundo real do usuário com o uso de um dispositivo, o Hololens. Objetivo: Desenvolver um modelo holográfico de crânio com deformidade resultante de craniossinostose para o Hololens. Método: A metodologia para a criação e a prototipagem do produto foi o Design Thinking estruturado com o Double Diamond. Uma pesquisa desk foi realizada com uma revisão da literatura e uma busca de anterioridade. Um questionário foi aplicado a 10 cirurgiões, tendo como objetivo determinar o potencial do uso da realidade mista na prática profissional. A partir dos resultados da pesquisa desk e do questionário, foi realizado um brainstorming com o objetivo de elaborar soluções, para melhorar a performance dos cirurgiões, nas craniossinostoses com o uso da realidade mista. Resultados: Não foram encontrados, em motores de busca da internet ou bases de dados bibliográficos, relatos ou artigos científicos que relacionassem o uso da realidade mista e craniossinostose. Observou-se potencial de melhora da performance dos cirurgiões com a utilização da realidade mista como ferramenta auxiliar nas cirurgias de craniossinostose. Desenvolveu-se um holograma de crânio com craniossinostose, em realidade mista, com comandos de interatividade controlados por gestos, facilitando a compreensão espacial tridimensional da anatomia craniana. Conclusão: Foi desenvolvido um modelo holográfico de crânio com deformidade resultante de craniossinostose para o Hololens.
Introduction: The resultant craniosynostosis deformities' tridimensional comprehension remains a challenge in planning and performing the surgery for its treatment. Mixed reality technology allows virtual objects, the holograms, to be inserted into the user's real-world using a device, the Hololens. Objective: To develop a holographic skull model of a deformity resulting from craniosynostosis for the Hololens. Method: The methodology for product creation and prototyping was the Design Thinking structured with the Double Diamond. A desk survey was conducted with a literature review and an anteriority search. A questionnaire was applied to 10 surgeons, aiming to determine the potential of mixed reality in professional practice. Based on the desk survey and the questionnaire results, brainstorming was performed to develop solutions to improve the surgeon's performance in craniosynostosis using mixed reality. Results: Reports or scientific articles relating mixed reality use to craniosynostosis were not found in search engines or bibliography databases. A surgeon's performance potential improvement was observed using mixed reality as an auxiliary tool in craniosynostosis surgery. A craniosynostosis skull hologram was developed in mixed reality, with interactivity commands controlled by gestures, facilitating a three-dimensional spatial understanding of cranial anatomy. Conclusion: A holographic skull model with a deformity resulting from craniosynostosis was developed for the Hololens.
Introduction: The resultant craniosynostosis deformities' tridimensional comprehension remains a challenge in planning and performing the surgery for its treatment. Mixed reality technology allows virtual objects, the holograms, to be inserted into the user's real-world using a device, the Hololens. Objective: To develop a holographic skull model of a deformity resulting from craniosynostosis for the Hololens. Method: The methodology for product creation and prototyping was the Design Thinking structured with the Double Diamond. A desk survey was conducted with a literature review and an anteriority search. A questionnaire was applied to 10 surgeons, aiming to determine the potential of mixed reality in professional practice. Based on the desk survey and the questionnaire results, brainstorming was performed to develop solutions to improve the surgeon's performance in craniosynostosis using mixed reality. Results: Reports or scientific articles relating mixed reality use to craniosynostosis were not found in search engines or bibliography databases. A surgeon's performance potential improvement was observed using mixed reality as an auxiliary tool in craniosynostosis surgery. A craniosynostosis skull hologram was developed in mixed reality, with interactivity commands controlled by gestures, facilitating a three-dimensional spatial understanding of cranial anatomy. Conclusion: A holographic skull model with a deformity resulting from craniosynostosis was developed for the Hololens.
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Citação
YOSHIDA, Mauricio Mitsuru. Modelo holográfico de craniossinostose para o HoloLens. 2022. 136 f. Dissertação (Mestrado Profissional em Ciência, Tecnologia e Gestão Aplicadas à Regeneração Tecidual) – Escola Paulista de Medicina, Universidade Federal de São Paulo, São Paulo, 2022.