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Through-skull brain imaging in vivo at visible wavelengths via dimensionality reduction adaptive-optical microscopy

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Title
Through-skull brain imaging in vivo at visible wavelengths via dimensionality reduction adaptive-optical microscopy
Author(s)
Yonghyeon Jo; Ye-Ryoung Lee; Jin Hee Hong; Dong-Young Kim; Junhwan Kwon; Myunghwan Choi; Moonseok Kim; Wonshik Choi
Publication Date
2022-07
Journal
SCIENCE ADVANCES, v.8, no.30
Publisher
AMER ASSOC ADVANCEMENT SCIENCE
Abstract
Compensation of sample-induced optical aberrations is crucial for visualizing microscopic structures deep within biological tissues. However, strong multiple scattering poses a fundamental limitation for identifying and correcting the tissue-induced aberrations. Here, we introduce a label-free deep-tissue imaging technique termed dimensionality reduction adaptive-optical microscopy (DReAM) to selectively attenuate multiple scattering. We established a theoretical framework in which dimensionality reduction of a time-gated reflection matrix can attenuate uncorrelated multiple scattering while retaining a single-scattering signal with a strong wave correlation, irrespective of sample-induced aberrations. We performed mouse brain imaging in vivo through the intact skull with the probe beam at visible wavelengths. Despite the strong scattering and aberrations, DReAM offered a 17-fold enhancement of single scattering-to-multiple scattering ratio and provided high-contrast images of neural fibers in the brain cortex with the diffraction-limited spatial resolution of 412 nanometers and a 33-fold enhanced Strehl ratio.
URI
https://pr.ibs.re.kr/handle/8788114/12286
DOI
10.1126/sciadv.abo4366
ISSN
2375-2548
Appears in Collections:
Center for Molecular Spectroscopy and Dynamics(분자 분광학 및 동력학 연구단) > 1. Journal Papers (저널논문)
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