The knee is meniscus-dependent, relying on the tissue's biomechanical properties to maintain joint health and function. Meniscus dysfunction has primarily been assessed by measuring tibiofemoral articular contact areas and pressures, which entail important limitations. Meniscus extrusion, excursion, and hoop strain are dynamic measures of meniscal function, which have potential advantages for clinically applicable biomechanical testing of meniscus. The objective of this study was to quantify meniscus extrusion, excursion, and hoop strain under clinically relevant loading and motion conditions in meniscus-intact and meniscus-deficient cadaveric knees using a novel model. Cadaveric knees (n=8) were dynamically tested through a functional range of motion under 30 N of compressive load in a robotic testing system to determine meniscus translations at full extension and 30