Background: Traditionally, ultrasound is not used as a guidance tool for minimally invasive spine and peripheral nerve surgeries, instead, X-ray is used. However, X-rays cannot clearly image soft tissue structures, which increases the risk of damage to important soft tissue structures. In addition, there is no good imaging assessment tool for evaluating the completeness of peripheral nerve decompression surgery. The application of intraoperative ultrasound can clearly identify soft tissue structures, thereby improving the accuracy and safety of minimally invasive surgery. Using dynamic ultrasound, it can also be used to confirm whether peripheral nerve decompression is sufficient. Therefore, this study elucidates the application of ultrasound in minimally invasive surgery to improve patient welfare. Methods: In applying ultrasound to minimally invasive spine surgery, the specific anatomical structures of spine can be used to locate the spinal level. Ultrasound is used to display important soft tissue structures surrounding the spine, including the esophagus, nerve roots, vertebral arteries, carotid arteries, lung surfaces and pleura, intestines, kidneys, etc., to avoid puncture damage to these important structures. During minimally invasive peripheral nerve decompression surgery, dynamic ultrasound can be used to display the status of peripheral nerve movement, thereby ensuring that nerve decompression is sufficient. High-resolution ultrasound can clearly display cervical nerve roots and peripheral nerves, even the fascicles within the nerve, which can help assess nerve pathology. Through ultrasound guidance, nutrients can be accurately delivered to the nerve periphery to promote nerve regeneration. Results: The use of ultrasound in minimally invasive spine and peripheral nerve surgery can reduce radiation exposure, improve successful puncture rate, and prevent soft tissue organ damage that cannot be imaged by X-rays. Through dynamic ultrasound, it can also be used to confirm whether peripheral nerve decompression is sufficient. Conclusion: Ultrasound can assist in the conduct of minimally invasive surgery, improving accuracy and safety. We hope that through this study, physicians will become more proficient in the application of ultrasound in minimally invasive surgery, thereby improving patient welfare.