Optical volumetric brain imaging: Speed, depth, and resolution enhancement
Journal
Journal of Physics D: Applied Physics
Journal Volume
54
Journal Issue
32
Start Page
323002
ISSN
223727
Date Issued
2021
Author(s)
Huang, Shih-Huan
Irawati, Ninik
Chien, Yu-Feng
Lin, Jyun-Yi
Tsai, Yu-Hsuan
Wang, Po-Yuan
Li, Meng-Lin
Chiang, Ann-Shyn
Tsia, Kevin K
Chu, Shi-Wei
Abstract
Understanding how the brain functions is one of the grand challenges in modern scientific research. Similar to a computer, a functional brain is composed of hardware and software. The major bottleneck lies in the difficulty to directly observe the brain 'software', i.e. the rule and operating information used by the brain that might emerge from pan-neuron/synapse connectome. A recognized strategy for probing the functional connectome is to perform volumetric imaging in brains with high spatiotemporal resolution and deep brain penetration. Among various imaging technologies, optical imaging offers appealing combinations including spatial resolution of sub-micrometer to nanometer, temporal resolution of second to millisecond, penetration depth of millimeter or deeper, and molecular contrast based on the abundant choices of fluorescent indicators. Thus, it is ideal for enabling three-dimensional functional brain mapping of small animal models. In this review, we focus on recent technological advances in optical volumetric imaging, with an emphasis on the tools and methods for enhancing imaging speed, depth, and resolution. The review could serve as a quantitative reference for physicists and biologists to choose the techniques better suited for specific applications, as well as to stimulate novel technical developments to advance brain research. © 2021 The Author(s). Published by IOP Publishing Ltd.
Subjects
camera and photodetector
imaging depth
optical microscopy
single-photon and multiphoton excitation
super-resolution
volumetric speed
Publisher
IOP Publishing Ltd
Type
review article