Literature DB >> 26556561

Transmission in near-infrared optical windows for deep brain imaging.

Lingyan Shi1,2, Laura A Sordillo3, Adrián Rodríguez-Contreras3,4, Robert Alfano3.   

Abstract

Near-infrared (NIR) radiation has been employed using one- and two-photon excitation of fluorescence imaging at wavelengths 650-950 nm (optical window I) for deep brain imaging; however, longer wavelengths in NIR have been overlooked due to a lack of suitable NIR-low band gap semiconductor imaging detectors and/or femtosecond laser sources. This research introduces three new optical windows in NIR and demonstrates their potential for deep brain tissue imaging. The transmittances are measured in rat brain tissue in the second (II, 1,100-1,350 nm), third (III, 1,600-1,870 nm), and fourth (IV, centered at 2,200 nm) NIR optical tissue windows. The relationship between transmission and tissue thickness is measured and compared with the theory. Due to a reduction in scattering and minimal absorption, window III is shown to be the best for deep brain imaging, and windows II and IV show similar but better potential for deep imaging than window I.
© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.

Entities:  

Keywords:  deep brain imaging; golden optical tissue window; near-infrared; total attenuation length; transmittance

Mesh:

Year:  2015        PMID: 26556561      PMCID: PMC4827444          DOI: 10.1002/jbio.201500192

Source DB:  PubMed          Journal:  J Biophotonics        ISSN: 1864-063X            Impact factor:   3.207


  14 in total

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2.  Blood velocity assessment using 3D bright-blood time-resolved magnetic resonance angiography.

Authors:  Sylvain Miraux; Jean-Michel Franconi; Eric Thiaudière
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3.  Ballistic 2-d imaging through scattering walls using an ultrafast optical kerr gate.

Authors:  L Wang; P P Ho; C Liu; G Zhang; R R Alfano
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4.  Time-resolved coherent and incoherent components of forward light scattering in random media.

Authors:  K M Yoo; R R Alfano
Journal:  Opt Lett       Date:  1990-03-15       Impact factor: 3.776

5.  Imaging through a scattering wall using absorption.

Authors:  K M Yoo; F Liu; R R Alfano
Journal:  Opt Lett       Date:  1991-07-15       Impact factor: 3.776

Review 6.  Optical properties of biological tissues: a review.

Authors:  Steven L Jacques
Journal:  Phys Med Biol       Date:  2013-05-10       Impact factor: 3.609

7.  Deep two-photon microscopic imaging through brain tissue using the second singlet state from fluorescent agent chlorophyll α in spinach leaf.

Authors:  Lingyan Shi; Adrián Rodríguez-Contreras; Yury Budansky; Yang Pu; Thien An Nguyen; Robert R Alfano
Journal:  J Biomed Opt       Date:  2014-06       Impact factor: 3.170

8.  Deep optical imaging of tissue using the second and third near-infrared spectral windows.

Authors:  Laura A Sordillo; Yang Pu; Sebastião Pratavieira; Yury Budansky; Robert R Alfano
Journal:  J Biomed Opt       Date:  2014-05       Impact factor: 3.170

9.  Bond-selective imaging of deep tissue through the optical window between 1600 and 1850 nm.

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Journal:  J Biophotonics       Date:  2011-11-28       Impact factor: 3.207

10.  Optical Constants of Water in the 200-nm to 200-microm Wavelength Region.

Authors:  G M Hale; M R Querry
Journal:  Appl Opt       Date:  1973-03-01       Impact factor: 1.980
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  35 in total

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Authors:  Lingyan Shi; Lukas Lindwasser; Wubao Wang; Robert Alfano; Adrián Rodríguez-Contreras
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3.  Non-degenerate 2-photon excitation in scattering medium for fluorescence microscopy.

Authors:  Mu-Han Yang; Maxim Abashin; Payam A Saisan; Peifang Tian; Christopher G L Ferri; Anna Devor; Yeshaiahu Fainman
Journal:  Opt Express       Date:  2016-12-26       Impact factor: 3.894

4.  Near-infrared probe-based confocal microendoscope for deep-tissue imaging.

Authors:  Jiafu Wang; Hua Li; Geng Tian; Yong Deng; Qian Liu; Ling Fu
Journal:  Biomed Opt Express       Date:  2018-09-26       Impact factor: 3.732

5.  Noninvasive, in vivo rodent brain optical coherence tomography at 2.1  microns.

Authors:  Jun Zhu; Shau Poh Chong; Wenjun Zhou; Vivek J Srinivasan
Journal:  Opt Lett       Date:  2019-09-01       Impact factor: 3.776

6.  Penetration depth of photons in biological tissues from hyperspectral imaging in shortwave infrared in transmission and reflection geometries.

Authors:  Hairong Zhang; Daniel Salo; David M Kim; Sergey Komarov; Yuan-Chuan Tai; Mikhail Y Berezin
Journal:  J Biomed Opt       Date:  2016-12-01       Impact factor: 3.170

7.  Transcranial Low-Level Laser (Light) Therapy for Brain Injury.

Authors:  Connor Thunshelle; Michael R Hamblin
Journal:  Photomed Laser Surg       Date:  2016-12       Impact factor: 2.796

8.  Noninvasive assessment of hemodynamic and brain metabolism parameters following closed head injury in a mouse model by comparative diffuse optical reflectance approaches.

Authors:  David Abookasis; Boris Volkov; Ariel Shochat; Itamar Kofman
Journal:  Neurophotonics       Date:  2016-05-09       Impact factor: 3.593

9.  Alzheimer mouse brain tissue measured by time resolved fluorescence spectroscopy using single- and multi-photon excitation of label free native molecules.

Authors:  Bidyut Das; Lingyan Shi; Yury Budansky; Adrian Rodriguez-Contreras; Robert Alfano
Journal:  J Biophotonics       Date:  2017-05-02       Impact factor: 3.207

Review 10.  Metal Oxysulfides: From Bulk Compounds to Nanomaterials.

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