Implementing the Biodesign Process for Medical Device Innovation in Head and Neck Surgery

Introduction. The Stanford Biodesign process is a needs-driven approach to innovation which begins in the clinical setting and environment and is championed by practicing clinicians and surgeons. Here, our team applied the Stanford Biodesign process through clinical immersion to identify potential u...

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Published in:Surgical innovation 2020-12, Vol.27 (6), p.653-658
Main Authors: Dharmawan, Rena, Ho, Henry, Ng, Harry Ho Man, Iyer, Narayanan Gopalakrishna, Tan, Hiang Khoon, Tan, Ngian Chye
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cited_by cdi_FETCH-LOGICAL-c337t-91a953a93cf8695f80f07add77a1b5bbede507d70700f9828e2d419164953983
cites cdi_FETCH-LOGICAL-c337t-91a953a93cf8695f80f07add77a1b5bbede507d70700f9828e2d419164953983
container_end_page 658
container_issue 6
container_start_page 653
container_title Surgical innovation
container_volume 27
creator Dharmawan, Rena
Ho, Henry
Ng, Harry Ho Man
Iyer, Narayanan Gopalakrishna
Tan, Hiang Khoon
Tan, Ngian Chye
description Introduction. The Stanford Biodesign process is a needs-driven approach to innovation which begins in the clinical setting and environment and is championed by practicing clinicians and surgeons. Here, our team applied the Stanford Biodesign process through clinical immersion to identify potential unmet clinical needs in the field of head and neck surgery, brainstormed and prototyped solutions to solve the top unmet need, and developed a commercialized medical device. Methods. The team underwent the 3 phases of the Biodesign process: identify, invent, and implement. The team underwent clinical immersion and followed head and neck surgeons from the Department of Head and Neck Surgery for a duration of 1 month. The needs identified were then filtered through a structured process using predefined filters, and a top need was chosen. After multiple rounds of brainstorming and prototyping, a final concept was developed. Results. The team collected 111 unmet needs and designed the in vivo surgical lighting concept that eventually led to the development of the KLARO™ in vivo surgical lighting device with a commercial partner. KLARO™ is a fully flexible 4.6-mm diameter light-emitting diode light strip that is freely bendable to be safely placed into deep cavities during open surgeries. Conclusion. The Biodesign process provides a standardized way to turn these needs into solution to advance the field of head and neck surgery and improve the outcome of patients.
doi_str_mv 10.1177/1553350620943796
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The team collected 111 unmet needs and designed the in vivo surgical lighting concept that eventually led to the development of the KLARO™ in vivo surgical lighting device with a commercial partner. KLARO™ is a fully flexible 4.6-mm diameter light-emitting diode light strip that is freely bendable to be safely placed into deep cavities during open surgeries. Conclusion. 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The team collected 111 unmet needs and designed the in vivo surgical lighting concept that eventually led to the development of the KLARO™ in vivo surgical lighting device with a commercial partner. KLARO™ is a fully flexible 4.6-mm diameter light-emitting diode light strip that is freely bendable to be safely placed into deep cavities during open surgeries. Conclusion. 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title Implementing the Biodesign Process for Medical Device Innovation in Head and Neck Surgery
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