Abstract
To better understand the pathophysiology and functional outcomes of musculoskeletal and neuromotor pathologies, research is often conducted in mice models. As a key component of such research, metrics of movement, loading, symmetry, and stability all have to be assessed, ideally requiring the measurement of 3D ground reaction forces, which can be difficult. While the measurement of ground reaction forces (GRF) is well developed for humans, appropriate devices for mice remain rare or inadequate. Such devices need to combine high sensitivity with small dimensions, especially when the forces for each individual paw should be measured. As preparation for building such a device that can measure 3D GRF per paw in mice in an upcoming study, this systematic review of the literature identified 122 articles and 49 devices that measured the ground reaction forces for mice and other small animals. Based on a variety of criteria, such as sensitivity and resonance frequency, the miniaturisation of each device and/or its capability to measure the three components of the ground reaction forces in individual paws were judged. The devices were consequently classified; eight devices were classified as “can be adapted”, nine as “hard to be adapted”, and 24 as “cannot be adapted”.