This research addresses the need for a protective device during binocular indirect ophthalmoscopy (BIO) exams, where traditional face shields cannot be used due to the presence of the instrument and the need for continuous manual interaction. The study aimed to design a device that is easy to fabricate using a 3D printer, usable with different models of ophthalmoscopes, and easy to apply and use. Three possible designs were produced, and the most promising one was further developed into a prototypal level. The article describes the design phase, testing of the prototype, and possible applications of design for additive principles to improve manufacturability. The study is part of the SafEye project, financed by the Tuscany Region with the Covid-19 Tuscany Research Grant, which fostered actions towards the prevention of the spread of the pandemic at all levels. The resulting device is a general-purpose personal protective equipment (PPE) for BIO that can be easily 3D printed and used worldwide, even in underdeveloped countries.
Designing a 3D Printed Personal Protective Equipment for a Binocular Indirect Ophthalmoscopy / Luca Puggelli; Fabrizio Giansanti; Yary Volpe; Francesco Buonamici. - ELETTRONICO. - (2024), pp. 50-57. (Intervento presentato al convegno 3rd International Conference on Design Tools and Methods in Industrial Engineering, ADM 2023 tenutosi a ita nel 2023) [10.1007/978-3-031-52075-4_6].
Designing a 3D Printed Personal Protective Equipment for a Binocular Indirect Ophthalmoscopy
Luca Puggelli;Fabrizio Giansanti;Yary Volpe;Francesco Buonamici
2024
Abstract
This research addresses the need for a protective device during binocular indirect ophthalmoscopy (BIO) exams, where traditional face shields cannot be used due to the presence of the instrument and the need for continuous manual interaction. The study aimed to design a device that is easy to fabricate using a 3D printer, usable with different models of ophthalmoscopes, and easy to apply and use. Three possible designs were produced, and the most promising one was further developed into a prototypal level. The article describes the design phase, testing of the prototype, and possible applications of design for additive principles to improve manufacturability. The study is part of the SafEye project, financed by the Tuscany Region with the Covid-19 Tuscany Research Grant, which fostered actions towards the prevention of the spread of the pandemic at all levels. The resulting device is a general-purpose personal protective equipment (PPE) for BIO that can be easily 3D printed and used worldwide, even in underdeveloped countries.
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