用于啮齿动物脑成像的低成本可逆串联透镜式内窥显微镜。

Low-cost reversible tandem lens mesoscope for brain imaging in rodents.

作者信息

Jose Ashly, Cheung Pang Ying, Laouby Zahra, Vanholsbeeck Frédérique, Cheyne Juliette E

机构信息

University of Auckland, Department of Physics, Auckland, New Zealand.

Dodd-Walls Centre for Photonic and Quantum Technologies (DWC), Dunedin, New Zealand.

出版信息

Neurophotonics. 2024 Jan;11(1):014306. doi: 10.1117/1.NPh.11.1.014306. Epub 2024 Mar 8.

DOI:10.1117/1.NPh.11.1.014306

PMID:38464865

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10924044/

Abstract

SIGNIFICANCE

The development of imaging systems that are cost-efficient and modular is essential for modern neuroscience research.

AIM

In the current study, we designed, developed, and characterized a low-cost reversible tandem lens mesoscope for brain imaging in rodents.

APPROACH

Using readily available components, we assembled a robust imaging system that is highly efficient and cost-effective. We developed a mesoscope that offers high-resolution structural and functional imaging with cost-effective lenses and CMOS camera.

RESULTS

The reversible tandem lens configuration of the mesoscope offers two fields of view (FOVs), which can be achieved by swapping the objective and imaging lenses. The large FOV configuration of provides a spatial resolution up to , and the small FOV configuration of provides a resolution of up to . We demonstrate the efficiency of our system for imaging neuronal calcium activity in both rat and mouse brains .

CONCLUSIONS

The careful selection of the mesoscope components ensured its compactness, portability, and versatility, meaning that different types of samples and sample holders can be easily accommodated, enabling a range of different experiments both and . The custom-built reversible FOV mesoscope is cost-effective and was developed for under US$10,000 with excellent performance.

摘要

意义

开发具有成本效益且模块化的成像系统对于现代神经科学研究至关重要。

目的

在当前研究中，我们设计、开发并表征了一种用于啮齿动物脑成像的低成本可逆串联透镜中观显微镜。

方法

使用现成的组件，我们组装了一个高效且经济高效的强大成像系统。我们开发了一种中观显微镜，它使用具有成本效益的透镜和互补金属氧化物半导体（CMOS）相机提供高分辨率的结构和功能成像。

结果

中观显微镜的可逆串联透镜配置提供了两个视场（FOV），这可以通过交换物镜和成像透镜来实现。大视场配置提供高达的空间分辨率，小视场配置提供高达的分辨率。我们展示了我们的系统在大鼠和小鼠大脑中成像神经元钙活性的效率。

结论

对中观显微镜组件的精心选择确保了其紧凑性、便携性和通用性，这意味着可以轻松容纳不同类型的样品和样品架，从而能够在和进行一系列不同的实验。定制的可逆视场中观显微镜具有成本效益，其开发成本低于10,000美元且性能优异。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8fc7/10924044/0a43ff261f87/NPh-011-014306-g001.jpg

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用于啮齿动物脑成像的低成本可逆串联透镜式内窥显微镜。

Low-cost reversible tandem lens mesoscope for brain imaging in rodents.

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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