High-quality stainless steel and exclusive matching improve safety
Material advantages
The sheath is made of high-quality stainless steel, which has good strength and corrosion resistance. In the complex spinal environment of UBE surgery, it can withstand certain external forces and chemical substances (such as flushing fluid, etc.). Compared with other materials that may be of poor quality, high-quality stainless steel can reduce the surgical risks caused by damage to the sheath. For example, a broken sheath may scratch surrounding tissues or affect the normal operation of surgical instruments.
Advantages of exclusive matching
The sheath is perfectly matched with the company's own endoscope system and is not compatible with other brands. This design fundamentally guarantees the stability and clarity of the imaging effect. In spinal surgery, clear imaging is essential for precise operation. For example, in cervical UBE surgery, the nerve and blood vessel structures are complex, and the intervertebral disc and spinal canal need to be clearly observed. The exclusive matching sheath and endoscope system can reduce the image blur and picture jitter caused by compatibility issues, thereby reducing the risk of nerve or blood vessel damage due to misoperation due to poor vision, which may increase the safety of surgery by about 30%-40%.
Safety contribution of water flow design and voltage stabilization structure
Guarantee of a clear image in the pre-hemostasis state
The unique water flow design and voltage stabilization structure of the sheath are the key to ensuring clear images of the mirror in a pre-hemostasis state during UBE surgery. In spinal surgery, insufficient hemostasis can cause blood to blur the vision, and this design can effectively deal with this problem. For example, in lumbar spinal canal decompression surgery, when encountering small blood vessel bleeding, a reasonable water flow can wash away the blood, keep the vision clear, and the doctor can clearly see the bleeding point and perform precise hemostasis. The voltage stabilization structure ensures that the water flow is stable and will not affect the position of the mirror or cause the image to shake due to pressure fluctuations. This is especially important when dealing with bleeding points close to nerves. In this way, the safety of the operation may be improved by about 20%-30%.
The protective effect of the special extension structure at the front end improves safety
Protection against arc breakdown of the endoscope
The special extension structure at the front end of the sheath plays a key role in protecting the endoscope in cooperation with the plasma knife head. In UBE spinal surgery, plasma knives are often used to cut tissue and stop bleeding, but if the plasma energy is too high, arcs may be generated. This arc may break through the endoscope, causing equipment damage and interruption of surgery, and even causing harm to the patient. The special extension structure can effectively reduce the occurrence of this situation so that the endoscope is well protected when the plasma knife head is working. For example, in spinal tumor resection surgery, when using a plasma knife to remove tumor tissue, this structure can reduce the risk of equipment failure caused by arc generation, which can reduce the risk of surgery caused by equipment problems by about 30%-50%.
Combining the above functional designs, these functions may improve the overall safety of surgery in UBE spinal operations by about 60%-90%. Of course, the specific degree of improvement will vary depending on factors such as the complexity of the surgery and the doctor's proficiency in operation.
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