Multiple particle tracking microrheological characterization: Fundamentals, emerging techniques and applications

Multiple particle tracking microrheology (MPT) is a passive microrheological technique that measures the Brownian motion of probe particles embedded in a sample to characterize material rheological properties. MPT is a powerful tool that quantifies material rheology in the low moduli range while requiring only small sample volumes and relatively simple data acquisition using video microscopy. MPT quantitatively characterizes spatiotemporal rheological properties and is particularly well suited for the investigation of evolving materials with complex microenvironments. MPT has expanded the study of a variety of materials including biofilms, colloidal gels, hydrogels, stimuli-responsive materials, and cell-laden biomaterials. The aim of this Tutorial is to summarize the fundamentals, illustrate the versatility, and highlight recent advances in MPT. In each application, we will highlight how MPT is uniquely positioned to gather rheological properties, which would be difficult, if not impossible, to attain with other rheological characterization techniques and highlight how MPT can be used to supplement other measurement techniques. This Tutorial should provide researchers with the fundamental basis and skills needed to use MPT and develop new MPT techniques to characterize materials for their unique applications.