Vacuum-assisted tissue embedding for whole-heart imaging.

The use of combined optical imaging and tissue sectioning has potential for use in visualizing heart-wide fine structures at single-cell resolution. However, existing tissue preparation methods fail to generate ultrathin cavity-containing cardiac tissue slices with minimal deformation. This study developed an efficient vacuum-assisted tissue embedding method to prepare high-filled, agarose-embedded whole-heart tissue. Utilizing optimized vacuum parameters, we achieved 94% filled whole-heart tissue with the thinnest cut slice of 5 µm. We subsequently imaged a whole mouse heart sample using vibratome-integrated fluorescence micro-optical sectioning tomography (fMOST) with a voxel size of 0.32 µm × 0.32 µm × 1 µm. The imaging results indicated that the vacuum-assisted embedding method enabled whole-heart tissue to withstand long-term thin cutting while ensuring that slices were consistent and of high quality.