A fiber optoacoustic emitter with controlled ultrasound frequency for cell membrane sonoporation at submillimeter spatial resolution

A fiber optoacoustic emitter with controlled ultrasound frequency for cell membrane sonoporation at submillimeter spatial resolution

Focused ultrasound has attracted great attention in minimally invasive therapeutic and mechanism studies. Frequency below 1 MHz is identified preferable for high-efficiency bio-modulation. However, the poor spatial confinement of several millimeters and large device diameter of ∼25 mm of typical sub...

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Main Authors: Linli Shi, Ying Jiang, Yi Zhang, Lu Lan, Yimin Huang, Ji-Xin Cheng, Chen Yang
Format: Article
Language:English
Published: Elsevier 2020-12-01
Series:Photoacoustics
Subjects:
Optoacoustic
Cell modulation
Sonoporation
Online Access:http://www.sciencedirect.com/science/article/pii/S2213597920300483
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spelling doaj-23c9ea170efa4814b60a56ce64d390202021-01-02T05:09:43ZengElsevierPhotoacoustics2213-59792020-12-0120100208A fiber optoacoustic emitter with controlled ultrasound frequency for cell membrane sonoporation at submillimeter spatial resolutionLinli Shi0Ying Jiang1Yi Zhang2Lu Lan3Yimin Huang4Ji-Xin Cheng5Chen Yang6Department of Chemistry, Boston University, 580 Commonwealth Avenue, Boston, MA 02215, USADepartment of Biomedical Engineering, Boston University, 44 Cummington Mall, Boston, MA 02215, USADepartment of Physics, Boston University, 590 Commonwealth Avenue, Boston, MA 02215, USADepartment of Biomedical Engineering, Boston University, 44 Cummington Mall, Boston, MA 02215, USADepartment of Chemistry, Boston University, 580 Commonwealth Avenue, Boston, MA 02215, USADepartment of Biomedical Engineering, Boston University, 44 Cummington Mall, Boston, MA 02215, USA; Department of Electrical and Computer Engineering, 8 St. Mary’s Street, Boston, MA 02215, USA; Corresponding authors at: Department of Electrical and Computer Engineering, 8 St. Mary’s Street, Boston, MA 02215, USA.Department of Chemistry, Boston University, 580 Commonwealth Avenue, Boston, MA 02215, USA; Department of Electrical and Computer Engineering, 8 St. Mary’s Street, Boston, MA 02215, USA; Corresponding authors at: Department of Electrical and Computer Engineering, 8 St. Mary’s Street, Boston, MA 02215, USA.Focused ultrasound has attracted great attention in minimally invasive therapeutic and mechanism studies. Frequency below 1 MHz is identified preferable for high-efficiency bio-modulation. However, the poor spatial confinement of several millimeters and large device diameter of ∼25 mm of typical sub-MHz ultrasound technology suffered from the diffraction limit, severely hindering its further applications. To address it, a fiber-based optoacoustic emitter (FOE) is developed, serving as a miniaturized ultrasound point source, with sub-millimeter confinement, composed of an optical diffusion layer and an expansion layer on an optical fiber. By modifying acoustic damping and light absorption performance, controllable frequencies in the range of 0.083 MHz–5.500 MHz are achieved and further induce cell membrane sonoporation with frequency dependent efficiency. By solving the problem of compromise between sub-MHz frequency and sub-millimeter precision via breaking the diffraction limit, the FOE shows a great potential in region-specific drug delivery, gene transfection and neurostimulation.http://www.sciencedirect.com/science/article/pii/S2213597920300483OptoacousticCell modulationSonoporation
collection DOAJ
language English
format Article
sources DOAJ
author Linli Shi
Ying Jiang
Yi Zhang
Lu Lan
Yimin Huang
Ji-Xin Cheng
Chen Yang
spellingShingle Linli Shi
Ying Jiang
Yi Zhang
Lu Lan
Yimin Huang
Ji-Xin Cheng
Chen Yang
A fiber optoacoustic emitter with controlled ultrasound frequency for cell membrane sonoporation at submillimeter spatial resolution
Photoacoustics
Optoacoustic
Cell modulation
Sonoporation
author_facet Linli Shi
Ying Jiang
Yi Zhang
Lu Lan
Yimin Huang
Ji-Xin Cheng
Chen Yang
author_sort Linli Shi
title A fiber optoacoustic emitter with controlled ultrasound frequency for cell membrane sonoporation at submillimeter spatial resolution
title_short A fiber optoacoustic emitter with controlled ultrasound frequency for cell membrane sonoporation at submillimeter spatial resolution
title_full A fiber optoacoustic emitter with controlled ultrasound frequency for cell membrane sonoporation at submillimeter spatial resolution
title_fullStr A fiber optoacoustic emitter with controlled ultrasound frequency for cell membrane sonoporation at submillimeter spatial resolution
title_full_unstemmed A fiber optoacoustic emitter with controlled ultrasound frequency for cell membrane sonoporation at submillimeter spatial resolution
title_sort fiber optoacoustic emitter with controlled ultrasound frequency for cell membrane sonoporation at submillimeter spatial resolution
publisher Elsevier
series Photoacoustics
issn 2213-5979
publishDate 2020-12-01
description Focused ultrasound has attracted great attention in minimally invasive therapeutic and mechanism studies. Frequency below 1 MHz is identified preferable for high-efficiency bio-modulation. However, the poor spatial confinement of several millimeters and large device diameter of ∼25 mm of typical sub-MHz ultrasound technology suffered from the diffraction limit, severely hindering its further applications. To address it, a fiber-based optoacoustic emitter (FOE) is developed, serving as a miniaturized ultrasound point source, with sub-millimeter confinement, composed of an optical diffusion layer and an expansion layer on an optical fiber. By modifying acoustic damping and light absorption performance, controllable frequencies in the range of 0.083 MHz–5.500 MHz are achieved and further induce cell membrane sonoporation with frequency dependent efficiency. By solving the problem of compromise between sub-MHz frequency and sub-millimeter precision via breaking the diffraction limit, the FOE shows a great potential in region-specific drug delivery, gene transfection and neurostimulation.
topic Optoacoustic
Cell modulation
Sonoporation
url http://www.sciencedirect.com/science/article/pii/S2213597920300483
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