Abstract
Although the use of lasers in medical diagnosis and therapies, as well as in fundamental biomedical research is now almost routine, advanced laser sources and new laser-based methods continue to emerge. Due to the unique ability of ultrashort laser pulses to deposit energy into a microscopic volume in the bulk of a transparent material without disrupting the surrounding tissues, the ultrashort laser-based microsurgery of cells and subcellular components within structurally complex and fragile specimens such as embryos is becoming an important tool in developmental biology and reproductive medicine. In this review, we discuss the mechanisms of ultrashort laser pulse interaction with the matter, advantages of their application for oocyte and preimplantation embryo microsurgery (e.g., for oocyte/blastomere enucleation and embryonic cell fusion), as well as for nonlinear optical microscopy for studying the dynamics of embryonic development and embryo quality assessment. Moreover, we focus on ultrashort laser-based approaches and techniques that are increasingly being applied in the fundamental research and have the potential for successful translation into the IVF (in vitro fertilization) clinics, such as laser-mediated individual embryo labelling and controlled laser-assisted hatching.
Highlights
It is hard to imagine modern biology and medicine without high-tech equipment, including lasers
The rapid development of ultrashort laser technologies has promoted their application in biology and medicine
Due to the unique ability of ultrashort laser pulses to deposit energy into a microscopic volume in the bulk of a transparent material without disrupting the surrounding tissues or tissues above or below the laser focal spot, the femtosecond laser-based modification and ablation of cells and subcellular components within structurally complex and fragile specimens as embryos is becoming an important tool in developmental biology and reproductive medicine
Summary
It is hard to imagine modern biology and medicine without high-tech equipment, including lasers. The term «ultrashort» was introduced and referred to the pulse durations in the femtosecond (10−15 s) to picosecond (10−12 s) range Such a pulse is characterized by a high peak power and a broadband optical spectrum (typical bandwidth is about tens of terahertz). The aim of this study is to provide an overview of a variety of applications and novel technologies based on ultrashort laser sources of radiation in the field of assisted reproduction and developmental biology. These are essential for fundamental research, and have great potential to be introduced into clinical practice. Some applications of ultrashort laser pulses for microsurgery of a variety of externally developing organisms, for instance Drosophila melanogaster, zebrafish embryos, etc., are presented in brief
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