In Vivo Cellular‐Level 3D Imaging of Peripheral Nerves Using a Dual‐Focusing Technique for Intra‐Neural Interface Implantation

Min Woo Lee; Namseon Jang; Nara Choi; Sungwook Yang; Jinwoo Jeong; Hyeong Soo Nam; Sang‐Rok Oh; Keehoon Kim; Donghyun Hwang

doi:10.1002/advs.202102876

Advanced Science (Jan 2022)

In Vivo Cellular‐Level 3D Imaging of Peripheral Nerves Using a Dual‐Focusing Technique for Intra‐Neural Interface Implantation

Min Woo Lee,
Namseon Jang,
Nara Choi,
Sungwook Yang,
Jinwoo Jeong,
Hyeong Soo Nam,
Sang‐Rok Oh,
Keehoon Kim,
Donghyun Hwang

Affiliations

Min Woo Lee: Center for Intelligent and Interactive Robotics Korea Institute of Science and Technology Seoul 02792 Republic of Korea
Namseon Jang: Center for Intelligent and Interactive Robotics Korea Institute of Science and Technology Seoul 02792 Republic of Korea
Nara Choi: Center for Intelligent and Interactive Robotics Korea Institute of Science and Technology Seoul 02792 Republic of Korea
Sungwook Yang: Center for Intelligent and Interactive Robotics Korea Institute of Science and Technology Seoul 02792 Republic of Korea
Jinwoo Jeong: Center for Intelligent and Interactive Robotics Korea Institute of Science and Technology Seoul 02792 Republic of Korea
Hyeong Soo Nam: Department of Mechanical Engineering Korea Advanced Institute of Science and Technology Daejeon 34141 Republic of Korea
Sang‐Rok Oh: Center for Intelligent and Interactive Robotics Korea Institute of Science and Technology Seoul 02792 Republic of Korea
Keehoon Kim: Department of Mechanical Engineering Pohang University of Science and Technology Gyeongbuk 37673 Republic of Korea
Donghyun Hwang: Center for Intelligent and Interactive Robotics Korea Institute of Science and Technology Seoul 02792 Republic of Korea

DOI: https://doi.org/10.1002/advs.202102876
Journal volume & issue: Vol. 9, no. 3
pp. n/a – n/a

Abstract

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Abstract In vivo volumetric imaging of the microstructural changes of peripheral nerves with an inserted electrode could be key for solving the chronic implantation failure of an intra‐neural interface necessary to provide amputated patients with natural motion and sensation. Thus far, no imaging devices can provide a cellular‐level three‐dimensional (3D) structural images of a peripheral nerve in vivo. In this study, an optical coherence tomography‐based peripheral nerve imaging platform that employs a newly proposed depth of focus extension technique is reported. A point spread function with the finest transverse resolution of 1.27 µm enables the cellular‐level volumetric visualization of the metal wire and microstructural changes in a rat sciatic nerve with the metal wire inserted in vivo. Further, the feasibility of applying the imaging platform to large animals for a preclinical study is confirmed through in vivo rabbit sciatic nerve imaging. It is expected that new possibilities for the successful chronic implantation of an intra‐neural interface will open up by providing the 3D microstructural changes of nerves around the inserted electrode.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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