Acoustofluidic Patterning for Improved Microtissue Histology
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Author
V. Deshmukh, Dhananjay
Vuille‐dit‐Bille, Emilie
Joshi, Saumitra
Gerber, Nicola
Fux, Christine
Eichenberger, Annina
Bono, Epifania
Rimann, Markus
Heub, Sarah
Migliozzi, Daniel
DOI
10.1002/anbr.202500079
Abstract
Microtissues (such as organoids or spheroids) are useful to model healthy or diseased human tissues and organs, with application in drug testing, tissue engineering, and personalized medicine. To characterize their morphology and phenotype, microtissues are often monitored using histology and high‐resolution imaging. While this technique is well‐established and standard for macroscopic tissue sections, it remains challenging to execute and has low throughput in the context of these sub‐millimeter structures, mainly due to the fact that their size makes them difficult to locate within the embedding medium. To enhance the efficiency of microtissue histology, an acoustofluidic device is developed to arrange microtissues in a coplanar manner within HistoGel, a widely used embedding medium. Prepatterning microtissues within HistoGel streamlines downstream processing by positioning the centers of mass of the microtissues at a predefined plane in the sample, simplifying sectioning, labeling, and imaging. The method is validated using differently sized HepG2 microtissues and tumor microtissues from osteosarcoma cells (Saos‐2, MG‐63, HOS), demonstrating that this method can be applied to different microtissue sizes and types, without modifying established postprocessing techniques. Our approach substantially enhances the microtissue histology workflow and broadens possibilities for microtissue analysis.
Publication Reference
Adv. NanoBiomed Res. 2026, e202500079
Year
2026-01-20
Sponsors
This work was supported by a BRIDGE Discovery Grant (40B2-0_211752).