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Epifluorescence-based three-dimensional traction force microscopy

Lauren Hazlett, Alexander K. Landauer, Mohak Patel, Hadley Witt, Jin Yang, Jonathan S. Reichner, Christian Franck

2020Scientific Reports35 citationsDOIOpen Access PDF

Abstract

We introduce a novel method to compute three-dimensional (3D) displacements and both in-plane and out-of-plane tractions on nominally planar transparent materials using standard epifluorescence microscopy. Despite the importance of out-of-plane components to fully understanding cell behavior, epifluorescence images are generally not used for 3D traction force microscopy (TFM) experiments due to limitations in spatial resolution and measuring out-of-plane motion. To extend an epifluorescence-based technique to 3D, we employ a topology-based single particle tracking algorithm to reconstruct high spatial-frequency 3D motion fields from densely seeded single-particle layer images. Using an open-source finite element (FE) based solver, we then compute the 3D full-field stress and strain and surface traction fields. We demonstrate this technique by measuring tractions generated by both single human neutrophils and multicellular monolayers of Madin-Darby canine kidney cells, highlighting its acuity in reconstructing both individual and collective cellular tractions. In summary, this represents a new, easily accessible method for calculating fully three-dimensional displacement and 3D surface tractions at high spatial frequency from epifluorescence images. We released and support the complete technique as a free and open-source code package.

Topics & Concepts

Traction (geology)MicroscopyFluorescence microscopeComputer scienceDisplacement (psychology)MicroscopePlane (geometry)Biological systemOpticsPhysicsGeometryGeologyMathematicsFluorescenceGeomorphologyPsychologyPsychotherapistBiologyCellular Mechanics and InteractionsForce Microscopy Techniques and ApplicationsTendon Structure and Treatment
Epifluorescence-based three-dimensional traction force microscopy | Litcius