Currently, resources for surgical education and training are quite limited. Even though virtual environments and sensing systems are used as surgical simulation and training tools, they lack the touch of real and casting to create spine and nerve models and use novel material technology to make the nervorgans, resulting in new residents and medical students lacking a real training environment during surgical training. conditions, and cannot be extensively trained for specific surgeries. To this end, our team has developed a bionic spine simulator with real-time signal feedback for surgical training in neuroma removal. This research will use 3D printing e model a flexible Piezoresistive sensor, when the neural model encounters pressure changes, the signal can be fed back to the panel immediately.