Portable boom-type ultrahigh-resolution OCT with an integrated imaging probe for supine position retinal imaging

Portable boom-type ultrahigh-resolution OCT with an integrated imaging probe for supine position retinal imaging

To expand the clinical applications and improve the ease of use of ultrahigh-resolution optical coherence tomography (UHR-OCT), we developed a portable boom-type ophthalmic UHR-OCT operating in supine position that can be used for pediatric subjects, bedridden patients and perioperative conditions....

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Veröffentlicht in:Biomedical optics express 2022-06, Vol.13 (6), p.3295-3310
Hauptverfasser: Duan, Zhengyu, Huang, Kai, Luo, Zhongzhou, Ma, Ke, Wang, Gengyuan, Hu, Xiaodong, Zhang, Jinze, Luo, Xiaoling, Huang, Yuancong, Liu, Gangjun, Ding, Xiaoyan, Xiao, Peng, Yuan, Jin
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container_issue 6
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container_title Biomedical optics express
container_volume 13
creator Duan, Zhengyu
Huang, Kai
Luo, Zhongzhou
Ma, Ke
Wang, Gengyuan
Hu, Xiaodong
Zhang, Jinze
Luo, Xiaoling
Huang, Yuancong
Liu, Gangjun
Ding, Xiaoyan
Xiao, Peng
Yuan, Jin
description To expand the clinical applications and improve the ease of use of ultrahigh-resolution optical coherence tomography (UHR-OCT), we developed a portable boom-type ophthalmic UHR-OCT operating in supine position that can be used for pediatric subjects, bedridden patients and perioperative conditions. By integrating the OCT sample arm probe with real-time iris display and automatic focusing electric lens for easy alignment, coupling the probe on a self-locking multi-directional manipulator to reduce motion artifacts and operator fatigue, and installing the OCT module on a moveable cart for system mobility, our customized portable boom-type UHR-OCT enables non-contact, high-resolution and high-stability retinal examinations to be performed on subjects in supine position. The spectral-domain UHR-OCT operates at a wavelength of 845 nm with 130 nm FWHM (full width at half maximum) bandwidth, achieving an axial resolution of ≈2.3µm in tissue with an A-line acquisition rate up to 128 kHz. A high-definition two-dimensional (2D) raster protocol was used for high-quality cross-sectional imaging while a cube volume three-dimensional (3D) scan was used for three-dimensional imaging and reconstruction, resolving major layer structures of the retina. The feasibility of the system was demonstrated by performing supine position 2D/3D retinal imaging on healthy human subjects, sedated infants, and non-sedated awake neonates.
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title Portable boom-type ultrahigh-resolution OCT with an integrated imaging probe for supine position retinal imaging
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