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Literature DB >> 26447860

Swept-source optical coherence tomography powered by a 1.3-μm vertical cavity surface emitting laser enables 2.3-mm-deep brain imaging in mice in vivo.

Abstract

We report noninvasive, in vivo optical imaging deep within a mouse brain by swept-source optical coherence tomography (SS-OCT), enabled by a 1.3-μm vertical cavity surface emitting laser (VCSEL). VCSEL SS-OCT offers a constant signal sensitivity of 105 dB throughout an entire depth of 4.25 mm in air, ensuring an extended usable imaging depth range of more than 2 mm in turbid biological tissue. Using this approach, we show deep brain imaging in mice with an open-skull cranial window preparation, revealing intact mouse brain anatomy from the superficial cerebral cortex to the deep hippocampus. VCSEL SS-OCT would be applicable to small animal studies for the investigation of deep tissue compartments in living brains where diseases such as dementia and tumor can take their toll.

Entities: Disease Gene Species

Mesh：

Year: 2015 PMID： 26447860 PMCID： PMC4689103 DOI： 10.1117/1.JBO.20.10.106004

Source DB: PubMed Journal: J Biomed Opt ISSN： 1083-3668 Impact factor: 3.170

16 in total

1. 4D optical coherence tomography-based micro-angiography achieved by 1.6-MHz FDML swept source.

Authors: Zhongwei Zhi; Wan Qin; Jingang Wang; Wei Wei; Ruikang K Wang
Journal: Opt Lett Date: 2015-04-15 Impact factor: 3.776

2. Mapping of cerebro-vascular blood perfusion in mice with skin and skull intact by Optical Micro-AngioGraphy at 1.3 mum wavelength.

Authors: Ruikang K Wang; Sawan Hurst
Journal: Opt Express Date: 2007-09-03 Impact factor: 3.894

3. Three dimensional optical angiography.

Authors: Ruikang K Wang; Steven L Jacques; Zhenhe Ma; Sawan Hurst; Stephen R Hanson; Andras Gruber
Journal: Opt Express Date: 2007-04-02 Impact factor: 3.894

4. Brain refractive index measured in vivo with high-NA defocus-corrected full-field OCT and consequences for two-photon microscopy.

Authors: Jonas Binding; Juliette Ben Arous; Jean-François Léger; Sylvain Gigan; Claude Boccara; Laurent Bourdieu
Journal: Opt Express Date: 2011-03-14 Impact factor: 3.894

5. Swept-source OCT angiography of the retinal vasculature using intensity differentiation-based optical microangiography algorithms.

Authors: Yanping Huang; Qinqin Zhang; Mariana R Thorell; Lin An; Mary K Durbin; Michal Laron; Utkarsh Sharma; Giovanni Gregori; Philip J Rosenfeld; Ruikang K Wang
Journal: Ophthalmic Surg Lasers Imaging Retina Date: 2014 Sep-Oct Impact factor: 1.300

6. Label-free in vivo optical imaging of functional microcirculations within meninges and cortex in mice.

Authors: Yali Jia; Ruikang K Wang
Journal: J Neurosci Methods Date: 2010-10-07 Impact factor: 2.390

7. Optical coherence tomography (OCT) reveals depth-resolved dynamics during functional brain activation.

Authors: Yu Chen; Aaron D Aguirre; Lana Ruvinskaya; Anna Devor; David A Boas; James G Fujimoto
Journal: J Neurosci Methods Date: 2008-12-11 Impact factor: 2.390

8. Retinal, anterior segment and full eye imaging using ultrahigh speed swept source OCT with vertical-cavity surface emitting lasers.

Authors: Ireneusz Grulkowski; Jonathan J Liu; Benjamin Potsaid; Vijaysekhar Jayaraman; Chen D Lu; James Jiang; Alex E Cable; Jay S Duker; James G Fujimoto
Journal: Biomed Opt Express Date: 2012-10-03 Impact factor: 3.732

9. Optical coherence microscopy for deep tissue imaging of the cerebral cortex with intrinsic contrast.

Authors: Vivek J Srinivasan; Harsha Radhakrishnan; James Y Jiang; Scott Barry; Alex E Cable
Journal: Opt Express Date: 2012-01-30 Impact factor: 3.894

10. Real-time in vivo computed optical interferometric tomography.

Authors: Adeel Ahmad; Nathan D Shemonski; Steven G Adie; Hee-Seok Kim; Wen-Mei W Hwu; P Scott Carney; Stephen A Boppart
Journal: Nat Photonics Date: 2013-06-01 Impact factor: 38.771

17 in total

Review 1. Optical coherence tomography angiography in preclinical neuroimaging.

Authors: Woo June Choi
Journal: Biomed Eng Lett Date: 2019-07-02

Review 2. Imaging Motion: A Comprehensive Review of Optical Coherence Tomography Angiography.

Authors: Woo June Choi
Journal: Adv Exp Med Biol Date: 2021 Impact factor: 2.622

3. Extended-focus optical coherence microscopy for high-resolution imaging of the murine brain.

Authors: Szymon Tamborski; Hong Chou Lyu; Hubert Dolezyczek; Monika Malinowska; Grzegorz Wilczynski; Daniel Szlag; Theo Lasser; Maciej Wojtkowski; Maciej Szkulmowski
Journal: Biomed Opt Express Date: 2016-10-05 Impact factor: 3.732

4. Capability of physically reasonable OCT-based differentiation between intact brain tissues, human brain gliomas of different WHO grades, and glioma model 101.8 from rats.

Authors: I N Dolganova; P V Aleksandrova; P V Nikitin; A I Alekseeva; N V Chernomyrdin; G R Musina; S T Beshplav; I V Reshetov; A A Potapov; V N Kurlov; V V Tuchin; K I Zaytsev
Journal: Biomed Opt Express Date: 2020-10-28 Impact factor: 3.732

Review 5. Through the looking glass: A review of cranial window technology for optical access to the brain.

Authors: Samuel W Cramer; Russell E Carter; Justin D Aronson; Suhasa B Kodandaramaiah; Timothy J Ebner; Clark C Chen
Journal: J Neurosci Methods Date: 2021-02-15 Impact factor: 2.390

6. Extended focal depth Fourier domain optical coherence microscopy with a Bessel-beam - LP₀₂ mode - from a higher order mode fiber.

Authors: Dipankar Sen; Anton Classen; Alma Fernández; Lars Grüner-Nielsen; Holly C Gibbs; Shahriar Esmaeili; Philip Hemmer; Andrius Baltuska; Alexei V Sokolov; Rainer A Leitgeb; Aart J Verhoef
Journal: Biomed Opt Express Date: 2021-11-05 Impact factor: 3.732