Thermal variation in human temporal bone using rigid endoscope

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Highlights

•

Endoscopes can generate thermal injury and tissue functional impairment.
•

Hyperthermia can influence the responses both cochlear nerve and the brainstem.
•

Caliber and angulation of the endoscope influences the thermal variation.
•

Type and intensity of the light source influences the thermal variation.
•

Large-caliber endoscopes with xenon or halogen light generate more heat.

Abstract

Objective

Compare thermal variation in the region of the External Acoustic Canal (EAC) and the Round Window (RW) using different rigid endoscopes and light sources in human temporal bones.

Method

This is an analytical experimental study using human temporal bones. Thermal variation was assessed during ten minutes, using a thermometer in the region of the EAC and the RW of two temporal bones, right and left. We used three different endoscopes (0° 4-mm, 0° 3-mm and 30° 4-mm) and five intensity/type light source (Halogen 100%, LED 50%, LED 100%, Xenon 50% and Xenon 100% with the same endoscope light fiber.

Results

We found temperature elevations in the EAC and RW in all measurements. Larger caliber endoscopes (4-mm) and light sources at 100% intensity generated higher temperatures, slightly higher in halogen and xenon. The 30° endoscopes tended to put more heat on structures, with little difference in most measurements. We identified greater temperature variations in the EAC of the right and left temporal bones compared to the RW overall. The highest temperature acquired in the present study was in the EAC of the temporal bone with a 4-mm and 30° endoscope, using xenon light source (intensity of 100%), with an increase of 4.51 °C.

Conclusion

The type of endoscope and light source can influence the thermal variation and the risk of tissue injury during endoscopic ear surgery. Larger endoscopes with xenon and halogen light sources at maximum intensity generate more heat.

Level of evidence

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Most cited references 15

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Thermal effects of endoscopy in a human temporal bone model: implications for endoscopic ear surgery.

Elliott D Kozin, Ashton Lehmann, Margaret Carter … (2014)

Although the theoretical risk of elevated temperatures during endoscopic ear surgery has been reported previously, neither temperature change nor heat distribution associated with the endoscope has been quantified. In this study, we measure temperature changes during rigid middle ear endoscopy in a human temporal bone model and investigate whether suction can act as a significant cooling mechanism.

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Endoscopic ear surgery: a hot topic?

S. Mitchell, C. Coulson (2017)

To summarise published research investigating maximal temperatures associated with endoscopes used in otology. Possible thermal issues surrounding the use of endoscopes in middle-ear surgery are discussed, and recommendations regarding the safest ways to use endoscopes in endoscopic ear surgery are made.

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Safety of heat generated by endoscope light sources in simulated transcanal endoscopic ear surgery

Tsukasa Ito, Toshinori Kubota, Akira Takagi … (2016)

To determine whether heat generated by endoscope light sources during ear surgery is safe.

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Author and article information

Contributors

Aline Bruno Figueiredo Nicolau

Journal

Journal ID (nlm-ta): Braz J Otorhinolaryngol

Journal ID (iso-abbrev): Braz J Otorhinolaryngol

Title: Brazilian Journal of Otorhinolaryngology

Publisher: Elsevier

ISSN (Print): 1808-8694

ISSN (Electronic): 1808-8686

Publication date PMC-release: 19 December 2023

Publication date Collection: May-Jun 2024

Publication date (Electronic): 19 December 2023

Volume: 90

Issue: 3

Electronic Location Identifier: 101381

Affiliations

[0005]Universidade Federal de São Paulo, Departamento de Otorrinolaringologia e Cirurgia de Cabeça e Pescoço, São Paulo, SP, Brazil

Author notes

[* ]Corresponding author. aline.figueiredo@ 123456unifesp.br

Article

Publisher Item ID: S1808-8694(23)00149-0 Publisher ID: 101381

DOI: 10.1016/j.bjorl.2023.101381

PMC ID: 10877129

PubMed ID: 38364523

SO-VID: f49b217d-f35d-4f49-ade1-d6be46930b14

License:

This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).

Thermal variation in human temporal bone using rigid endoscope

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Highlights

Abstract

Objective

Method

Results

Conclusion

Level of evidence

Related collections

SciELO Brazil

Most cited references 15

Thermal effects of endoscopy in a human temporal bone model: implications for endoscopic ear surgery.

Endoscopic ear surgery: a hot topic?

Safety of heat generated by endoscope light sources in simulated transcanal endoscopic ear surgery

Author and article information

Contributors

Journal

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Author notes

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