Selective disruption of vascular endothelium of zebrafish embryos by ultrafast laser microsurgical treatment

Woo, Suk-Yi; Moon, Han Seb; Kim, Tag Gyum; Lee, Heung Soon; Sidhu, Mehra S.; Kim, Changho; Jeon, Jae-Phil; Jeoung, Sae Chae

doi:10.1364/boe.6.004694

Biomed. Opt. Express

2015

DOI: 10.1364/boe.6.004694

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Selective disruption of vascular endothelium of zebrafish embryos by ultrafast laser microsurgical treatment

Suk-Yi Woo

Han Seb Moon

Tag Gyum Kim

et al.

Abstract: Abstract:In this work, we demonstrate that ultrafast laser irradiation could selectively disrupt vascular endothelium of zebrafish embryos in vivo. Ultrafast lasers minimize the collateral damage in the vicinity of the laser focus and eventually reduce coagulation in the tissues. We have also found that the threshold fluence for lesion formation of the vascular endothelium strongly depends on the developmental stage of the embryos. The threshold laser fluence required to induce apparent lesions in the vascular… Show more

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2022

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Cited by 2 publications

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Polarization effects on the fluorescence emission of zebrafish neurons using light-sheet microscopy

Ye¹,

Xu²,

Wang³

et al. 2022

Biomed. Opt. Express

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Light-sheet fluorescence microscopy (LSFM) makes use of a thin plane of light to optically section and image transparent tissues or organisms in vivo, which has the advantages of fast imaging speed and low phototoxicity. In this paper, we have employed light-sheet microscopy to investigate the polarization effects on fluorescence emission of zebrafish neurons via modifying the electric oscillation orientation of the excitation light. The intensity of the fluorescence emission from the excited zebrafish larvae follows a cosine square function with respect to the polarization state of the excitation light and reveals a 40% higher fluorescence emission when the polarization orientation is orthogonal to the illumination and detection axes. Through registration and subtraction of fluorescence images under different polarization states, we have demonstrated that most of the enhanced fluorescence signals are from the neuronal cells rather than the extracellular substance. This provides us a way to distinguish the cell boundaries and observe the organism structures with improved contrast and resolution.

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Polarization effects on the fluorescence emission of zebrafish neurons using light-sheet microscopy

Ye¹,

Xu²,

Wang³

et al. 2022

Biomed. Opt. Express

View full text Add to dashboard Cite

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Application of Ultrashort Lasers in Developmental Biology: A Review

Ilina

Ситников

2022

Photonics

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The evolution of laser technologies and the invention of ultrashort laser pulses have resulted in a sharp jump in laser applications in life sciences. Developmental biology is no exception. The unique ability of ultrashort laser pulses to deposit energy into a microscopic volume in the bulk of transparent material without disrupting the surrounding tissues makes ultrashort lasers a versatile tool for precise microsurgery of cells and subcellular components within structurally complex and fragile specimens like embryos as well as for high-resolution imaging of embryonic processes and developmental mechanisms. Here, we present an overview of recent applications of ultrashort lasers in developmental biology, including techniques of noncontact laser-assisted microsurgery of preimplantation mammalian embryos for oocyte/blastomere enucleation and embryonic cell fusion, as well as techniques of optical transfection and injection for targeted delivery of biomolecules into living embryos and laser-mediated microsurgery of externally developing embryos. Possible applications of ultrashort laser pulses for use in Assisted Reproductive Technologies are also highlighted. Moreover, we discuss various nonlinear optical microscopy techniques (two-photon excited fluorescence, second and third harmonic generation, and coherent Raman scattering) and their application for label-free non-invasive imaging of embryos in their unperturbed state or post-laser-induced modifications.

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Selective disruption of vascular endothelium of zebrafish embryos by ultrafast laser microsurgical treatment

Cited by 2 publications

References 24 publications

Polarization effects on the fluorescence emission of zebrafish neurons using light-sheet microscopy

Polarization effects on the fluorescence emission of zebrafish neurons using light-sheet microscopy

Application of Ultrashort Lasers in Developmental Biology: A Review

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