RT Journal Article SR Electronic T1 An Open-Source 3D–Printed Recording Stage with Customizable Chambers for Ex Vivo Experiments JF eneuro JO eNeuro FD Society for Neuroscience SP ENEURO.0257-24.2024 DO 10.1523/ENEURO.0257-24.2024 VO 11 IS 9 A1 Withers, Preston C. A1 Morrill, Hunter J. A1 Parrish, R. Ryley YR 2024 UL http://www.eneuro.org/content/11/9/ENEURO.0257-24.2024.abstract AB Much of what has been discovered concerning neurophysiological mechanisms can be credited to ex vivo biomedical experiments. Beyond these discoveries, ex vivo research techniques have enhanced the global understanding of human physiology and pathology in almost every biomedical specialty. Naturally, ex vivo experiments are among the most desired methods of research, particularly in the field of neuroscience. Ex vivo experiment platforms may be purchased commercially. However, their substantial cost and sometimes limited availability can render them inaccessible to many research labs. Moreover, these manufactured systems are often rigid in function with no possibility of customization, severely narrowing their capabilities. However, developing essential components for ex vivo laboratory systems with a fused deposition modeling printer provides a practical solution to each of these obstacles. Here, we provide the designs and construction process for an easily accessible, highly adaptable recording stage with modifiable submersion chambers using a 3D printer for a total cost under $15.00. With the versatility afforded by the exchangeable custom chambers, the system may be used to conduct research on a variety of ex vivo tissue preparations, paving the way for novel research.