Towards a more objective and high-throughput spheroid invasion assay quantification method

Mungai RW, Hartman II RJ, et al.

Scientific Reports

Worcester Polytechnic Institute

RESEARCH SUMMARY

This study presents a high-throughput, objective framework for quantifying 3D invasion of multicellular spheroids embedded in collagen hydrogels. Using nuclear fluorescence imaging and a pixel-based computational pipeline, the method enables automated measurement of invasion area, distance, and directional bias independent of spheroid size or morphology. Mechanical boundary constraints introduced by static culture geometry revealed contact-guided invasion patterns that were captured using principal component analysis. The approach was validated across multiple cell types, including cancer spheroids, demonstrating its utility for mechanobiology-driven studies of collective cell invasion in 3D extracellular matrices.

CellScale MechanoCulture FX plates were used as mechanically defined culture platforms to constrain collagen hydrogel geometry during spheroid invasion assays. The integrated posts limited matrix compaction and introduced static mechanical boundary conditions that enabled analysis of contact-guided invasion and directional bias. The device was not used to perform mechanical testing, but rather to provide reproducible mechanical constraints for mechanobiology-focused invasion studies.

AUTHORS

Rozanne W. Mungai; Roger J. Hartman II; Grace E. Jolin; Kevin W. Piskorowski; Kristen L. Billiar.

PUBLICATION DETAILS

JOURNAL

Scientific Reports

YEAR

2024

INSTITUTIONS

Worcester Polytechnic Institute

COUNTRIES

United States

INSTRUMENT USED

MechanoCulture FX

TESTING METHODS

RESEARCH APPLICATIONS

Cancer MechanobiologyECM & Decellularized Matrix MechanicsMicrotissue and Spheroid Mechanics

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