Long-term mesoscale imaging of 3D intercellular dynamics across a mammalian organ
- PMID: 39276776
- DOI: 10.1016/j.cell.2024.08.026
Long-term mesoscale imaging of 3D intercellular dynamics across a mammalian organ
Abstract
A comprehensive understanding of physio-pathological processes necessitates non-invasive intravital three-dimensional (3D) imaging over varying spatial and temporal scales. However, huge data throughput, optical heterogeneity, surface irregularity, and phototoxicity pose great challenges, leading to an inevitable trade-off between volume size, resolution, speed, sample health, and system complexity. Here, we introduce a compact real-time, ultra-large-scale, high-resolution 3D mesoscope (RUSH3D), achieving uniform resolutions of 2.6 × 2.6 × 6 μm3 across a volume of 8,000 × 6,000 × 400 μm3 at 20 Hz with low phototoxicity. Through the integration of multiple computational imaging techniques, RUSH3D facilitates a 13-fold improvement in data throughput and an orders-of-magnitude reduction in system size and cost. With these advantages, we observed premovement neural activity and cross-day visual representational drift across the mouse cortex, the formation and progression of multiple germinal centers in mouse inguinal lymph nodes, and heterogeneous immune responses following traumatic brain injury-all at single-cell resolution, opening up a horizon for intravital mesoscale study of large-scale intercellular interactions at the organ level.
Keywords: adaptive optics; calcium imaging; germinal centers; high-speed 3D imaging; intravital microscopy; large-scale neural recording; mesoscale; representational drift; traumatic brain injury.
Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.
Conflict of interest statement
Declaration of interests The authors declare the following competing interests: Q.D. and J.W. are founders and equity holders of Zhejiang Hehu Technology LLC. Q.D., J.W., M.W., and Yuanlong Zhang submitted patent applications related to the RUSH3D technology described in this work.
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