Widefield in vivo imaging system with two fluorescence and two reflectance channels, a single sCMOS detector, and shielded illumination.

IF 4.8 2区医学 Q1 NEUROSCIENCES

Neurophotonics Pub Date : 2024-07-01 Epub Date: 2024-06-14 DOI:10.1117/1.NPh.11.3.034310

Patrick R Doran, Natalie Fomin-Thunemann, Rockwell P Tang, Dora Balog, Bernhard Zimmerman, Kıvılcım Kılıç, Emily A Martin, Sreekanth Kura, Harrison P Fisher, Grace Chabbott, Joel Herbert, Bradley C Rauscher, John X Jiang, Sava Sakadzic, David A Boas, Anna Devor, Ichun Anderson Chen, Martin Thunemann

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引用次数: 0

Abstract

Significance: Widefield microscopy of the entire dorsal part of mouse cerebral cortex enables large-scale ("mesoscopic") imaging of different aspects of neuronal activity with spectrally compatible fluorescent indicators as well as hemodynamics via oxy- and deoxyhemoglobin absorption. Versatile and cost-effective imaging systems are needed for large-scale, color-multiplexed imaging of multiple fluorescent and intrinsic contrasts.

Aim: We aim to develop a system for mesoscopic imaging of two fluorescent and two reflectance channels.

Approach: Excitation of red and green fluorescence is achieved through epi-illumination. Hemoglobin absorption imaging is achieved using 525- and 625-nm light-emitting diodes positioned around the objective lens. An aluminum hemisphere placed between objective and cranial window provides diffuse illumination of the brain. Signals are recorded sequentially by a single sCMOS detector.

Results: We demonstrate the performance of our imaging system by recording large-scale spontaneous and stimulus-evoked neuronal, cholinergic, and hemodynamic activity in awake, head-fixed mice with a curved "crystal skull" window expressing the red calcium indicator jRGECO1a and the green acetylcholine sensor ${GRAB}_{ACh 3.0}$ . Shielding of illumination light through the aluminum hemisphere enables concurrent recording of pupil diameter changes.

Conclusions: Our widefield microscope design with a single camera can be used to acquire multiple aspects of brain physiology and is compatible with behavioral readouts of pupil diameter.

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宽视场活体成像系统，具有两个荧光通道和两个反射通道、单个 sCMOS 检测器和屏蔽照明。

意义重大：对整个小鼠大脑皮层背侧进行宽视场显微镜观察，可利用光谱兼容的荧光指示剂对神经元活动的不同方面进行大规模（"中观"）成像，并通过氧合血红蛋白和脱氧血红蛋白的吸收对血液动力学进行成像。我们需要多功能、高性价比的成像系统，对多种荧光和固有对比进行大规模、多色成像。目的：我们旨在开发一种系统，对两个荧光通道和两个反射通道进行中观成像：方法：通过外延照明实现红色和绿色荧光的激发。方法：通过外延照射实现红色和绿色荧光的激发，利用位于物镜周围的 525 和 625 纳米发光二极管实现血红蛋白吸收成像。放置在物镜和颅骨窗口之间的铝半球为大脑提供漫反射照明。信号由单个 sCMOS 检测器顺序记录：我们通过记录清醒、头部固定的小鼠的大规模自发和刺激诱发的神经元、胆碱能和血流动力学活动，证明了我们的成像系统的性能，弧形 "水晶头骨 "窗口表达了红色钙指示剂 jRGECO1a 和绿色乙酰胆碱传感器 GRAB ACh 3.0。通过铝半球屏蔽照明光，可同时记录瞳孔直径的变化：结论：我们的宽视场显微镜设计只需一台照相机，可用于采集大脑生理学的多个方面，并与瞳孔直径的行为读数兼容。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Neurophotonics Neuroscience-Neuroscience (miscellaneous)

CiteScore

7.20

自引率

11.30%

发文量

114

审稿时长

21 weeks

期刊介绍： At the interface of optics and neuroscience, Neurophotonics is a peer-reviewed journal that covers advances in optical technology applicable to study of the brain and their impact on the basic and clinical neuroscience applications.