Abstract
Voluntary wheel running (VWR) in rodents is used to evaluate performance and endurance and to simulate exercise. In contrast to other exercise paradigms that require aversive stimulus to induce active movement, wheel running is voluntary. VWR generally consists of placing a running wheel inside the mouse home cage. However, analyzing exercise parameters can typically only be conducted when mice are individually housed, while overall cage effects can be reported when mice are group-housed. Therefore, the current models force experimenters to choose between measuring individual exercise parameters in single-housed mice or measuring group effects in group-housed mice; depending on the research question and model, this could be limiting. Therefore, the goal of this method is to demonstrate a protocol that assesses VWR in a mouse model by quantifying running parameters in individual mice, with minimal isolation. We report on device design, preoperative preparations, and experiment setup. Results of a 6-week training protocol using this VWR model suggest it provides sufficient stimulus to increase spatial object recognition memory, comparable to the clinical effect of exercise. This simple and inexpensive model facilitates investigation into the effect of VWR on multiple measurements of wheel activity, minimizing factors that could limit or affect experimental outcomes.