2020
DOI: 10.3389/fbioe.2020.602797
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Optical Tweezers Exploring Neuroscience

Abstract: Over the past decade, optical tweezers (OT) have been increasingly used in neuroscience for studies of molecules and neuronal dynamics, as well as for the study of model organisms as a whole. Compared to other areas of biology, it has taken much longer for OT to become an established tool in neuroscience. This is, in part, due to the complexity of the brain and the inherent difficulties in trapping individual molecules or manipulating cells located deep within biological tissue. Recent advances in OT, as well … Show more

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Cited by 29 publications
(30 citation statements)
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References 215 publications
(235 reference statements)
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“…In addition to other biomedical areas, there have been great advances in optical trapping and its combination with other Biophotonics tools in neuroscience research, for studying the physical properties and intrinsic forces of neurons, their communication modalities, as well as some of the fundamental neuronal growth and dynamics function [88]. Optical tweezers can be combined with Raman spectroscopy to characterize and monitor the physical and chemical properties of cells.…”
Section: The Role Of Optical Tweezers In Biophotonicsmentioning
confidence: 99%
“…In addition to other biomedical areas, there have been great advances in optical trapping and its combination with other Biophotonics tools in neuroscience research, for studying the physical properties and intrinsic forces of neurons, their communication modalities, as well as some of the fundamental neuronal growth and dynamics function [88]. Optical tweezers can be combined with Raman spectroscopy to characterize and monitor the physical and chemical properties of cells.…”
Section: The Role Of Optical Tweezers In Biophotonicsmentioning
confidence: 99%
“…61 In particular, the past decade has seen optical tweezers becoming an established tool in neuroscience, opening up the opportunity to provide further insight on molecular and neuronal dynamics, as well as on the functioning of the neural activity of model organisms as a whole. 111 Trapping with large-scale imaging such as light sheet microscopy is coming to the fore. Bambardekar et al 112 exerted optical forces on cell contacts within the early Drosophila embryo.…”
Section: Optical Trapping Combined With Imagingmentioning
confidence: 99%
“…Since the pioneering work of Arthur Ashkin, [1] study of lightmatter interactions assisted by optical manipulation has become a vibrant field of research, allowing exploring minute forces and the discovery of new and exciting characteristics of complex systems previously beyond grasp. [2,3] Vast efforts have been made in utilizing optical tweezers in a liquid medium, [4] where the forces that light exerts on a particle are purely optical. These are the intensity gradient force and the scattering force in the direction of beam propagation, which together create a stable optical trap, allowing for particle guiding, separation, and stable 3D trapping.…”
Section: Introductionmentioning
confidence: 99%