Microscope integrated MHz optical coherence tomography system for neurosurgery: development and clinical in-vivo imaging

Wolfgang Draxinger; Nicolas Detrez; Paul Strenge; Veit Danicke; Dirk Theisen-Kunde; Lion Schützeck; Sonja Spahr-Hess; Patrick Kuppler; Jessica Kren; Wolfgang Wieser; Matteo Mario Bonsanto; Ralf Brinkmann; Robert Huber

doi:10.1364/BOE.530976

Microscope integrated MHz optical coherence tomography system for neurosurgery: development and clinical in-vivo imaging

Wolfgang Draxinger, Nicolas Detrez, Paul Strenge, Veit Danicke, Dirk Theisen-Kunde, Lion Schützeck, Sonja Spahr-Hess, Patrick Kuppler, Jessica Kren, Wolfgang Wieser, Matteo Mario Bonsanto, Ralf Brinkmann, Robert Huber

11 Zitate (Scopus)

Abstract

Neurosurgical interventions on the brain are impeded by the requirement to keep damages to healthy tissue at a minimum. A new contrast channel enhancing the visual separation of malign tissue should be created. A commercially available surgical microscope was modified with adaptation optics adapting the MHz speed optical coherence tomography (OCT) imaging system developed in our group. This required the design of a scanner optics and beam delivery system overcoming constraints posed by the mechanical and optical parameters of the microscope. High quality volumetric OCT C-scans with dense sample spacing can be acquired in-vivo as part of surgical procedures within seconds and are immediately available for post-processing.

Originalsprache	Englisch
Zeitschrift	Biomed. Opt. Express
Jahrgang	15
Ausgabenummer	10
Seiten (von - bis)	5960-5979
Seitenumfang	20
DOIs	https://doi.org/10.1364/BOE.530976
Publikationsstatus	Veröffentlicht - 01.10.2024

Fördermittel

Schleswig-Holstein (Open Access Publikationsfonds); European Research Council (ENCOMOLE-2i, ERC 646669); Bundesministerium f\u00FCr Bildung und Forschung (13GW0227A, 13GW0227B, 13GW0227C). Close communication with M\u00F6ller-Wedel was vital for the success of this project. We\u2019d like to thank Dr. Marc Krug in particular for his immediate responses to our requests and pulling the strings to give us access to the microscope\u2019s engineering data. This paper is a in-depth elaboration of a broad overview presentation given at the Photonics West BiOS 2023 [65].

Träger	Trägernummer
European Research Council	ERC 646669
Bundesministerium für Bildung und Forschung	13GW0227B, 13GW0227A, 13GW0227C

UN SDGs

Dieser Output leistet einen Beitrag zu folgendem(n) Ziel(en) für nachhaltige Entwicklung

SDG 3 – Gesundheit und Wohlergehen
SDG 9 – Industrie, Innovation und Infrastruktur

Strategische Forschungsbereiche und Zentren

Forschungsschwerpunkt: Biomedizintechnik

DFG-Fachsystematik

2.22-32 Medizinische Physik, Biomedizinische Technik

Dokumente

10.1364/BOE.530976

https://opg.optica.org/boe/abstract.cfm?URI=boe-15-10-5960

Weitere Links

Zitieren

Draxinger, W., Detrez, N., Strenge, P., Danicke, V., Theisen-Kunde, D., Schützeck, L., Spahr-Hess, S., Kuppler, P., Kren, J., Wieser, W., Bonsanto, M. M., Brinkmann, R., & Huber, R. (2024). Microscope integrated MHz optical coherence tomography system for neurosurgery: development and clinical in-vivo imaging. Biomed. Opt. Express, 15(10), 5960-5979. https://doi.org/10.1364/BOE.530976

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abstract = "Neurosurgical interventions on the brain are impeded by the requirement to keep damages to healthy tissue at a minimum. A new contrast channel enhancing the visual separation of malign tissue should be created. A commercially available surgical microscope was modified with adaptation optics adapting the MHz speed optical coherence tomography (OCT) imaging system developed in our group. This required the design of a scanner optics and beam delivery system overcoming constraints posed by the mechanical and optical parameters of the microscope. High quality volumetric OCT C-scans with dense sample spacing can be acquired in-vivo as part of surgical procedures within seconds and are immediately available for post-processing.",

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Draxinger, W, Detrez, N, Strenge, P, Danicke, V, Theisen-Kunde, D, Schützeck, L, Spahr-Hess, S, Kuppler, P , Kren, J, Wieser, W, Bonsanto, MM , Brinkmann, R & Huber, R 2024, 'Microscope integrated MHz optical coherence tomography system for neurosurgery: development and clinical in-vivo imaging', Biomed. Opt. Express, Jg. 15, Nr. 10, S. 5960-5979. https://doi.org/10.1364/BOE.530976

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AU - Draxinger, Wolfgang

AU - Detrez, Nicolas

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AU - Danicke, Veit

AU - Theisen-Kunde, Dirk

AU - Schützeck, Lion

AU - Spahr-Hess, Sonja

AU - Kuppler, Patrick

AU - Kren, Jessica

AU - Wieser, Wolfgang

AU - Bonsanto, Matteo Mario

AU - Brinkmann, Ralf

AU - Huber, Robert

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N2 - Neurosurgical interventions on the brain are impeded by the requirement to keep damages to healthy tissue at a minimum. A new contrast channel enhancing the visual separation of malign tissue should be created. A commercially available surgical microscope was modified with adaptation optics adapting the MHz speed optical coherence tomography (OCT) imaging system developed in our group. This required the design of a scanner optics and beam delivery system overcoming constraints posed by the mechanical and optical parameters of the microscope. High quality volumetric OCT C-scans with dense sample spacing can be acquired in-vivo as part of surgical procedures within seconds and are immediately available for post-processing.

AB - Neurosurgical interventions on the brain are impeded by the requirement to keep damages to healthy tissue at a minimum. A new contrast channel enhancing the visual separation of malign tissue should be created. A commercially available surgical microscope was modified with adaptation optics adapting the MHz speed optical coherence tomography (OCT) imaging system developed in our group. This required the design of a scanner optics and beam delivery system overcoming constraints posed by the mechanical and optical parameters of the microscope. High quality volumetric OCT C-scans with dense sample spacing can be acquired in-vivo as part of surgical procedures within seconds and are immediately available for post-processing.

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