Optical Tweezers Exploring Neuroscience

Lenton, Isaac C. D.; Scott, Ethan K.; Rubinsztein‐Dunlop, Halina; Favre‐Bulle, Itia A.

doi:10.3389/fbioe.2020.602797

Cited by 28 publications

(30 citation statements)

References 215 publications

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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%

Advanced Biophotonics Techniques: The Role of Optical Tweezers for Cells and Molecules Manipulation Associated With Cancer

Spyratou

2022

Front. Phys.

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Rapid advances in Biophotonics are revolutionizing the illumination of several diseases and, among them, the monitoring of cancer pathogenesis and therapy. Today, several efforts aim to miniaturize the Biophotonics tools, leading to the namely Nanobiophotonics. This scientific field refer to the development of novel technologies, biosensors, and drug delivery systems for prevention, diagnosis, and treatment of diseases at the nanoscale, in sub-cellular and molecular level. Modern non-invasive laser-based techniques are applied in different domains, from practical, clinical applications to molecular and cellular biology fundamental research. Among the plethora of photon-based techniques, optical trapping is a very promising tool for improving the understanding of cancer at cellular level. Recently, optical tweezers are revived as a potential technique for cell characterization, tracking cells behavior and probing interactions forces between cells, cells-biomolecules, and cells-nanoparticles. In this review, we aim to exhibit the state-of the art advances of Biophotonics in the diagnostic and therapeutic field of cancer focusing on the role of optical tweezers.

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Section: The Role Of Optical Tweezers In Biophotonicsmentioning

confidence: 99%

Advanced Biophotonics Techniques: The Role of Optical Tweezers for Cells and Molecules Manipulation Associated With Cancer

Spyratou

2022

Front. Phys.

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“…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%

Optical manipulation: advances for biophotonics in the 21st century

Corsetti

Dholakia

2021

J. Biomed. Opt.

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Significance: Optical trapping is a technique capable of applying minute forces that has been applied to studies spanning single molecules up to microorganisms.Aim: The goal of this perspective is to highlight some of the main advances in the last decade in this field that are pertinent for a biomedical audience.Approach: First, the direct determination of forces in optical tweezers and the combination of optical and acoustic traps, which allows studies across different length scales, are discussed. Then, a review of the progress made in the direct trapping of both single-molecules, and even single-viruses, and single cells with optical forces is outlined. Lastly, future directions for this methodology in biophotonics are discussed.Results: In the 21st century, optical manipulation has expanded its unique capabilities, enabling not only a more detailed study of single molecules and single cells but also of more complex living systems, giving us further insights into important biological activities.Conclusions: Optical forces have played a large role in the biomedical landscape leading to exceptional new biological breakthroughs. The continuous advances in the world of optical trapping will certainly lead to further exploitation, including exciting in-vivo experiments.

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“…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%

Optical Archimedes Screw Along Arbitrary Trajectories

Zhalenchuck

Hadad

Bahabad

2022

Laser & Photonics Reviews

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Optical conveyors of airborne particles were previously demonstrated using different techniques allowing particles to be conveyed along straight trajectories either down or upstream the laser radiation direction. Here, the operation of an optical conveyor which has the geometry of an Archimedes screw whose central axis is a predefined arbitrary trajectory in 3D space allowing to convey particles along any desired paraxial trajectory, is demonstrated.

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Optical Tweezers Exploring Neuroscience

Cited by 28 publications

References 215 publications

Advanced Biophotonics Techniques: The Role of Optical Tweezers for Cells and Molecules Manipulation Associated With Cancer

Advanced Biophotonics Techniques: The Role of Optical Tweezers for Cells and Molecules Manipulation Associated With Cancer

Optical manipulation: advances for biophotonics in the 21st century

Optical Archimedes Screw Along Arbitrary Trajectories

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