COMPASS
Biologists are increasingly transitioning towards more complex assays that require volumetric imaging with high spatiotemporal resolution. Whether it is a developing embryo, the formation of a cell-cell immunological synapse, breast cancer organoids migrating through a 3D collagen matrix, or cytoskeletal rearrangements in a polarized epithelial monolayer, these biological processes can only be understood when non-invasively and quantitatively evaluated in their entirety through time.
Project Philosophy
Simple to assemble, high-performance, light-sheet microscopes.
Highly optimized operation with navigate software.
Simplified optomechanical design for ease of use and maintenance.
Streamlined optoelectronics and control for robust and reliable operation.
Note
This project is under active development.
Warning
Please be advised that while the Dean Lab has implemented several safeguards, there are inherent risks associated with the use of such mechanical and optical systems. Despite these precautions, the complexity and nature of hardware can lead to unpredictable outcomes. Therefore, the Dean Lab and UT Southwestern expressly disclaim any responsibility for any damages, losses, or injuries that may arise from or be related to the use of COMPASS. Users should be aware of these risks and agree to utilize COMPASS at their own risk.
Introduction
Design Principles
Hardware Considerations
Physical Assembly
Imaging with the System
System Characterization
Funding
navigate is supported by the UT Southwestern and University of North Carolina Center for Cell Signaling, a Biomedical Technology Development and Dissemination (BTDD) Center funded by the NIH National Institute of General Medical Science (RM1GM145399), and the Center for Metastatic Tumor Imaging program, a Cellular Cancer Biology Imaging Research (CCBIR) program funded by the NIH National Cancer Institute (U54CA268072).