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AI has penetrated into every corner of our lives. From a simple voice assistant to a complex data analysis system, AI has demonstrated amazing ability in processing information and solving problems. Humanoid robots have begun to emerge in some manual labor and task execution in specific environments. For example, in some industrial production lines, humanoid robots can accurately complete assembly, handling and other work; In dangerous environments such as nuclear radiation areas or fire sites, humanoid robots can replace humans for detection and rescue work. This makes human beings face great challenges in the traditional labor field, and people need to constantly improve their skills and knowledge in order to find a foothold in the competition with these intelligent machines.This competitive pressure has not only brought about a crisis in employment, but also had an impact on psychology and physiology. From the psychological point of view, under the pressure of long-term competition with machines, human beings are prone to negative emotions such as anxiety and inferiority. The accumulation of these emotions may lead to mental health problems, such as depression and neurasthenia. Physiologically speaking, in order not to be eliminated in the competition, people are often overworked and in a state of tension for a long time, which will affect the nervous system function of the human body. For example, long-term stress may lead to headaches, insomnia and other problems, and even serious organic diseases of the nervous system.Third, the relevance of biomedicine in neurosurgery

AI has penetrated into every corner of our lives. From a simple voice assistant to a complex data analysis system, AI has demonstrated amazing ability in processing information and solving problems. Humanoid robots have begun to emerge in some manual labor and task execution in specific environments. For example, in some industrial production lines, humanoid robots can accurately complete assembly, handling and other work; In dangerous environments such as nuclear radiation areas or fire sites, humanoid robots can replace humans for detection and rescue work. This makes human beings face great challenges in the traditional labor field, and people need to constantly improve their skills and knowledge in order to find a foothold in the competition with these intelligent machines.(B) the improvement of the demand for nerve repairIn today's era of rapid development of science and technology, human beings are facing unprecedented competitive pressure from AI (artificial intelligence) and humanoid robots. The intensification of this competition is changing our social pattern in many aspects, one of which is the demand for biomedicine in neurosurgery.

In today's era of rapid development of science and technology, human beings are facing unprecedented competitive pressure from AI (artificial intelligence) and humanoid robots. The intensification of this competition is changing our social pattern in many aspects, one of which is the demand for biomedicine in neurosurgery.In order to meet the growing demand for biomedicine in neurosurgery, the research and development direction needs to be more precise and diversified. On the one hand, it is necessary to increase the research on the pathogenesis of brain diseases in order to develop more targeted drugs. For example, in-depth study of the causes of neurodegenerative diseases such as Alzheimer's disease and Parkinson's disease, so as to find effective treatment drugs. On the other hand, we should actively explore the combination of biotechnology and other technologies, such as the combination of nanotechnology and neurosurgery biomedicine, which can improve the targeting and therapeutic effect of drugs.In the process of human competition with AI and humanoid robots, human beings will inevitably face some accidents, which may cause damage to the nervous system. For example, in the competition in some high-tech fields, human beings may participate in high-risk experiments or operations, and once an accident occurs, there is a great possibility of nerve damage. Biomedicine in neurosurgery plays a key role in nerve repair. For example, some nerve growth factor drugs can promote the regeneration and repair of damaged nerves; The research of stem cell technology in neurosurgery also brings hope for the treatment of nerve injury. By transplanting stem cells to replace damaged nerve cells, the function of the nervous system can be restored.