par Dupuis, Freddy ;Shlyonsky, Vadim ;de Prelle de la Nieppe, Bertrand ;Gall, David
Référence Journal of undergraduate neuroscience, 22, 3, page (A207-A216)
Publication Publié, 2024-08
Référence Journal of undergraduate neuroscience, 22, 3, page (A207-A216)
Publication Publié, 2024-08
Article révisé par les pairs
Résumé : | The animal welfare principles are forcing undergraduate teaching to avoid the use of animals. Therefore, many hands-on lab sessions using laboratory animals are progressively replaced by computer simulations. These versatile software simulations permit the observation of the behavior of biological systems under a great variety of experimental conditions. While this versatility is important, computer simulations often work even when a student makes wrong assumptions, a situation that poses its own pedagogical problem. Hands-on learning provides pupils with the opportunity to safely make mistakes and learn organically through trial and error and should therefore still be promoted.We propose an electronic model of an excitable cell composed of different modules representing different parts of a neuron - dendrites, soma, axon and node of Ranvier. We describe a series of experiments that allow students to better understand differences between passive and active cell responses and differences between myelinated and demyelinated axons. These circuits can also be used to demonstrate temporal and spatial summation of signals coming to the neuron via dendrites, as well as the neuron coding by firing frequency. Finally, they permit experimental determination along with theoretical calculations of important biophysical properties of excitable cells, such as rheobase, chronaxie and space constant. This open-source model has been successfully integrated into undergraduate course of the physiology of excitable cells and student feedback assessment reveals that it helped students to understand important notions of the course. Thus, this neuromorphic circuit could be valuable tool for biophysics and neurosciences courses in other universities. |