用于荧光微型显微镜中扩展景深成像的光瞳工程

Pupil engineering for extended depth-of-field imaging in a fluorescence miniscope.

作者信息

Greene Joseph, Xue Yujia, Alido Jeffrey, Matlock Alex, Hu Guorong, Kiliç Kivilcim, Davison Ian, Tian Lei

机构信息

Boston University, Department of Electrical and Computer Engineering, Boston, Massachusetts, United States.

Boston University, Department of Biomedical Engineering, Boston, Massachusetts, United States.

出版信息

Neurophotonics. 2023 Oct;10(4):044302. doi: 10.1117/1.NPh.10.4.044302. Epub 2023 May 8.

DOI:10.1117/1.NPh.10.4.044302

PMID:37215637

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10197144/

Abstract

SIGNIFICANCE

Fluorescence head-mounted microscopes, i.e., miniscopes, have emerged as powerful tools to analyze neural populations but exhibit a limited depth-of-field (DoF) due to the use of high numerical aperture (NA) gradient refractive index (GRIN) objective lenses.

AIM

We present extended depth-of-field (EDoF) miniscope, which integrates an optimized thin and lightweight binary diffractive optical element (DOE) onto the GRIN lens of a miniscope to extend the DoF by between twin foci in fixed scattering samples.

APPROACH

We use a genetic algorithm that considers the GRIN lens' aberration and intensity loss from scattering in a Fourier optics-forward model to optimize a DOE and manufacture the DOE through single-step photolithography. We integrate the DOE into EDoF-Miniscope with a lateral accuracy of to produce high-contrast signals without compromising the speed, spatial resolution, size, or weight.

RESULTS

We characterize the performance of EDoF-Miniscope across 5- and fluorescent beads embedded in scattering phantoms and demonstrate that EDoF-Miniscope facilitates deeper interrogations of neuronal populations in a -thick mouse brain sample and vessels in a whole mouse brain sample.

CONCLUSIONS

Built from off-the-shelf components and augmented by a customizable DOE, we expect that this low-cost EDoF-Miniscope may find utility in a wide range of neural recording applications.

摘要

意义

荧光头戴式显微镜，即微型显微镜，已成为分析神经群体的强大工具，但由于使用高数值孔径（NA）的梯度折射率（GRIN）物镜，其景深（DoF）有限。

目的

我们展示了扩展景深（EDoF）微型显微镜，它将优化的薄型轻质二元衍射光学元件（DOE）集成到微型显微镜的GRIN透镜上，以扩展固定散射样本中双焦点之间的景深。

方法

我们使用一种遗传算法，该算法在傅里叶光学前向模型中考虑GRIN透镜的像差和散射造成的强度损失，以优化DOE，并通过单步光刻制造DOE。我们将DOE以的横向精度集成到EDoF微型显微镜中，以产生高对比度信号，同时不影响速度、空间分辨率、尺寸或重量。

结果

我们对嵌入散射体模中的5微米和荧光珠的EDoF微型显微镜性能进行了表征，并证明EDoF微型显微镜有助于对厚度为的小鼠脑样本中的神经元群体和全脑样本中的血管进行更深层次的探测。

结论

由现成组件构建并通过可定制的DOE增强，我们预计这种低成本的EDoF微型显微镜可能在广泛的神经记录应用中找到用途。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/68c1/10197144/fee542f1144c/NPh-010-044302-g001.jpg

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用于荧光微型显微镜中扩展景深成像的光瞳工程

Pupil engineering for extended depth-of-field imaging in a fluorescence miniscope.

作者信息

机构信息

出版信息

SIGNIFICANCE

AIM

APPROACH

RESULTS

CONCLUSIONS

意义

目的

方法

结果

结论

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