Guiding neuronal growth with optical trap

Xiuzhou Feng; Chunlin Xia; Tianchun Zhu; Chunpeng Li; Minghui Wan; Ye Zhang

doi:10.1117/12.574688

18 January 2005 Guiding neuronal growth with optical trap

Xiuzhou Feng, Chunlin Xia, Tianchun Zhu, Chunpeng Li, Minghui Wan, Ye Zhang

Proceedings Volume 5630, Optics in Health Care and Biomedical Optics: Diagnostics and Treatment II; (2005) https://doi.org/10.1117/12.574688
Event: Photonics Asia, 2004, Beijing, China

Abstract

Neuronal growth cones navigate over long distances along specific pathways to find their correct targets. The prevailing opinion is that growth cones appear to be guided by four different mechanisms: contact attraction, chemoattraction, contact repulsion, and chemorepulsion. In contrast to existing methods, we use optical trap to guide neuronal growth. The optical trap is a non-contact manipulation technology which is increasingly used for micromanipulation of living cells and organisms. An intense light gradient near the focal region of a near-infrared laser beam gives rise to forces that make possible optical trapping and manipulation of a variety of micron-sized objects. In the developing nervous system, microtubule and actin play a fundamental role. To change the microtubule polymerization by control the density of tubulins or exerting a persistent force on the whole growth cone, we have shown experimentally that we can use optical trap to guide the growth direction of a neuron. In order to guide the neuronal growth direction, a self-contrived optical trap is placed in front of a specific area of the edge of the cell's growth cone. We turned the neuronal growth direction and guided it to the direction we expected. Control over neuronal growth is a fundamental objective in neuroscience and guiding neuronal growth with optical trap may be very important for the formation of neural circuits as well as nerve regeneration.

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Xiuzhou Feng, Chunlin Xia, Tianchun Zhu, Chunpeng Li, Minghui Wan, and Ye Zhang "Guiding neuronal growth with optical trap", Proc. SPIE 5630, Optics in Health Care and Biomedical Optics: Diagnostics and Treatment II, (18 January 2005); https://doi.org/10.1117/12.574688

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KEYWORDS

Axons

Optical tweezers

Neurons

Nerve

Nervous system

Signal processing

Cytoskeletons

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