%A Francis,Nikolas A. %A Kanold,Patrick O. %D 2017 %J Frontiers in Neural Circuits %C %F %G English %K mouse models,automated,Behavior, Animal,Auditory Perception,operant conditioning %Q %R 10.3389/fncir.2017.00010 %W %L %M %P %7 %8 2017-March-01 %9 Methods %+ Dr Patrick O. Kanold,Department of Biology, University of Maryland,College Park, MD, USA,pkanold@jhu.edu %+ Dr Patrick O. Kanold,A. James Clark School of Engineering, Institute for Systems Research, University of Maryland,College Park, MD, USA,pkanold@jhu.edu %# %! Automated Operant Conditioning in the Mouse Home Cage %* %< %T Automated Operant Conditioning in the Mouse Home Cage %U https://www.frontiersin.org/articles/10.3389/fncir.2017.00010 %V 11 %0 JOURNAL ARTICLE %@ 1662-5110 %X Recent advances in neuroimaging and genetics have made mice an advantageous animal model for studying the neurophysiology of sensation, cognition, and locomotion. A key benefit of mice is that they provide a large population of test subjects for behavioral screening. Reflex-based assays of hearing in mice, such as the widely used acoustic startle response, are less accurate than operant conditioning in measuring auditory processing. To date, however, there are few cost-effective options for scalable operant conditioning systems. Here, we describe a new system for automated operant conditioning, the Psibox. It is assembled from low cost parts, designed to fit within typical commercial wire-top cages, and allows large numbers of mice to train independently in their home cages on positive reinforcement tasks. We found that groups of mice trained together learned to accurately detect sounds within 2 weeks of training. In addition, individual mice isolated from groups also showed good task performance. The Psibox facilitates high-throughput testing of sensory, motor, and cognitive skills in mice, and provides a readily available animal population for studies ranging from experience-dependent neural plasticity to rodent models of mental disorders.