González-Sánchez, C.C.González-SánchezFraile, J.-C.J.-C.FrailePérez-Turiel, J.J.Pérez-TurielDamm, E.E.DammSchneider, J.G.J.G.SchneiderSchmitt, D.D.SchmittIhmig, F.R.F.R.Ihmig2022-03-052022-03-052019https://publica.fraunhofer.de/handle/publica/25802210.3390/electronics8010034Laboratory mice are used in biomedical research as ""models"" for studying human disease. These mice may be subject to significant levels of stress during transportation that can cause alterations that could negatively affect the results of the performed investigation. Here, we present the design and realization of a prototypical transportation container for laboratory mice, which may contribute to improved laboratory animal welfare. This prototype incorporates electric potential integrated circuit (EPIC) sensors, which have been shown to allow the recording of physiological parameters (heart rate and breathing rate) and other sensors for recording environmental parameters during mouse transportation. This allows for the estimation of the stress levels suffered by mice. First experimental results for capturing physiological and environmental parameters are shown and discussed.enmonitoring systemlaboratory mice transportation610620Monitoring System for Laboratory Mice Transportationjournal article