通过迭代多光子自适应补偿技术对高散射组织进行体内神经成像。

In vivo neuroimaging through the highly scattering tissue via iterative multi-photon adaptive compensation technique.

作者信息

Kong Lingjie, Cui Meng

出版信息

Opt Express. 2015 Mar 9;23(5):6145-50. doi: 10.1364/OE.23.006145.

DOI:10.1364/OE.23.006145

Abstract

For in vivo deep tissue imaging, high order wavefront measurement and correction is needed for handling the severe wavefront distortion. Towards such a goal, we have developed the iterative multi-photon adaptive compensation technique (IMPACT). In this work, we explore using IMPACT to perform calcium imaging of neocortex through the intact skull of adult mice, and to image through the highly scattering white matter on the hippocampus surface.

摘要

对于体内深部组织成像，需要进行高阶波前测量和校正以处理严重的波前畸变。为了实现这一目标，我们开发了迭代多光子自适应补偿技术（IMPACT）。在这项工作中，我们探索使用IMPACT通过成年小鼠完整的头骨对新皮层进行钙成像，并通过海马体表面高度散射的白质进行成像。

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通过迭代多光子自适应补偿技术对高散射组织进行体内神经成像。

In vivo neuroimaging through the highly scattering tissue via iterative multi-photon adaptive compensation technique.

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