1, percutaneous puncture ozone injection The principle of ozone treatment of herniated disc: ozone has a strong oxidizing ability, as well as anti-inflammatory and analgesic effects. By injecting it into the nucleus pulposus of the herniated disc, it can instantly oxidize the proteoglycans in the nucleus pulposus and destroy the nucleus pulposus cells, so that the function of proteoglycans is lost, the cellular production of proteoglycans is reduced, and the osmotic pressure of the nucleus pulposus cannot be maintained, resulting in the loss of water and atrophy, thus reducing the pressure in the disc and eliminating the pressure on the nerve roots, and achieving the purpose of treatment. Since ozone is a very active chemical substance, it decomposes into O2 and O- very quickly (with a half-life of 20 min) after being injected into the intervertebral disc and paravertebral space, and the residual O- can be combined with each other to form O2, so there is no need to worry about long-term residual ozone causing harm. This method adopts local anesthesia and then positioned puncture under X-ray surveillance, so the positioning is accurate, the damage is small, the efficacy is exact, and it has good safety and operability. 2.Percutaneous puncture collagenase injection Collagenase injection treatment is mainly for patients with large herniated nucleus pulposus. Collagenase can dissolve the collagen in the herniated nucleus pulposus to make the herniated nucleus pulposus smaller and softer and reduce the pressure on the nerve root and dural sac, so as to relieve pain and achieve the purpose of treatment. 3.Percutaneous perforator medullary nucleus excision and aspiration The DEKOMPRESSOR 1.5mm high-efficiency rotary cutter head used in percutaneous perforator disc decompression surgery can remove the nucleus pulposus completely through a specially designed canal with the help of imaging, greatly reducing the pressure in the intervertebral disc and surrounding nerves, thus achieving the treatment purpose and avoiding postoperative complications caused by surgical procedures. It is mainly applied to small and contained intervertebral herniation. 4.Radiofrequency thermal coagulation therapy Using the functional characteristics of the radiofrequency instrument, a target puncture technique is designed to improve the therapeutic effect and reduce complications. Method According to the clinical manifestations, X-ray plain film and CT film, the target point of the compressed nerve is identified. The radiofrequency thermal coagulation target point treatment technique is to directly denature, coagulate and contract the nucleus pulposus of the pathogenic part, reduce the volume and release the compression, rarely injuring the normal nucleus pulposus tissue, while indirectly blocking the release of glycoprotein and beta protein in the nucleus pulposus fluid, and the warm-heat effect plays a role in the inflammatory reaction in the injured fibrous ring, nerve root edema and spinal canal Good therapeutic effect, the symptoms disappear or are reduced immediately after surgery, applicable to patients with cervical and lumbar intervertebral disc herniation. 5.Double-needle total annuloplasty is a kind of double-needle annuloplasty developed on the basis of disc fibrous annuloplasty. Under the guidance of X-ray machine or DSA, double-needle disc fibrous annulus puncture, through the formation of radiofrequency current between the needle tips on the fibrous annulus thermal coagulation, repair, remodeling, to achieve the purpose of disc decompression, repair and stabilization of the intervertebral disc, to fundamentally solve the inclusive disc herniation. At the same time of treatment, the unique circulation cooling technology is used to reduce the temperature of the needle tip, thus avoiding excessive temperature and damage to the spinal cord or spinal nerve. 6.Low temperature plasma ablation of intervertebral disc Low temperature radiofrequency nucleoplasty combines tissue ablation with radiofrequency thermal coagulation by dissociating cell molecules at a lower temperature, making a hole in the intervertebral disc for tissue ablation and removing part of the nucleus pulposus tissue to complete the remodeling of the nucleus pulposus tissue within the disc. Since low-temperature plasma radiofrequency myeloplasty is different from high-temperature radiofrequency knife surgery, the damage to adjacent tissues is minimal and there is no concern about thermal injury. Compared with traditional interventional methods for disc herniation (such as percutaneous disc nucleus pulposus aspiration, laser disc nucleus pulposus decompression, collagenase nucleolysis, etc.), this technique has the advantages of easy operation, little injury, high safety and good efficacy. 7, percutaneous puncture B-Twin expandable spinal fusion Clinical indications: advanced lumbar disc herniation, degenerative disc disease or lumbar spine Ⅰ. Patients with slippage and significant narrowing of the intervertebral space after disc surgery, features; percutaneous puncture implantation of the posterior rod bone of the fusion under DSA mediation, without excessive destruction of the spinal bone structure and soft tissues, maintaining the stability of the spinal substructure, open rod bone fusion of the intervertebral fusion, ensuring increased fusion rate of the intervertebral rod bone, easy operation, reducing the operation time and patient hospitalization time, raising the intraoperative nerve injury and postoperative intervertebral space infection The B-Win fusion device can be removed as needed.