The ultrasound-direction nerve retardation of the application to the pain after the knee joint.
Introduction
The knee joint surgery is a common procedure for the treatment of severe knee joint pain and functional impairment, including full knee joint replacements, knee joint lenses, etc. Post-operative pain management is a key factor in ensuring rapid recovery and improved quality of life for patients. The ultrasound-direction neurodetoxin (FNB), as a regional anaesthesia technique, shows a significant advantage in post-Knee arthritis sting. This paper will provide detailed information on the definition, mechanisms, advantages, clinical applications and operational techniques for the neurodeficiency of ultrasound guidance units.
Definition and mechanism of neurological retardation
The hysteria is the largest part of the waist, originating from the L2-L4 nerve root, which dominates the feelings and movements on the front and inner thighs. The neurological retardation is a commonly used neurological retardation technique, which has the effect of reducing pain in knee joints and thigh areas by cutting off the neurological transfer. After knee joints, effective neurological retardation can significantly reduce pain, reduce demand for opioids and promote early patient activity and rehabilitation.
• Precision positioning: Ultrasound guidance techniques enable doctors to observe in real time the location of needles and the spread of impregnated drugs, ensuring that target neurons are accurately blocked. • Reduction of sterilisation: Supersonicly guided can reduce the use of sterilisation and reduce the risk of cardiac and neurological damage. • Increasing the pain effect: Ultrasound neurotic retardation provides a better retardation effect and increases the efficiency of post-operative pain control. Reducing the risk of complications: Ultrasound neurotic retardation reduces the risk of intravascular injection or haematoma. • Reduction in the use of opioids: Ultrasound neurotic retardation can significantly reduce the use of intravenous pains and reduce post-operative symptoms of discomfort, vomiting and itching. • Promotion of early post-operative activities: As a result of the reduction in the use of opioids, patients recover faster after the operation and are able to move earlier into underground bed activities. • Increased patient satisfaction: Ultrasound neurological retardation provides better pain control and improves patient comfort and satisfaction.
The application of neurodetoxin in the clinical application unit of neurodetoxification in the post-Knee joint does not include, but is not limited to: • Full knee joint replacement: severe pain following full knee joint replacement, effective neurological retardation can significantly reduce pain and demand for opioids. • Lap hysterectomy: The pain after the knee hysteria is relatively light, but a nervous retardation can provide additional pain relief and reduce post-operative complications. • Broken femur: patients with fractured femurs suffer from severe post-operative pain, and neurosis can provide effective pain relief. • Ex-crossing lurch rehabilitation: post-ex-crossing lurch reconstruction, neurological retardation reduces pain in the front leg and promotes early patient activity.
• Preparation of the patient: the patient takes a penthouse and his knee is thin to relax his thigh muscles. • Ultrasounding: use of high-frequency line detectors, first to locate the unit artery and then move the probe to a close end until a nerve is found. • Identification of the anatomy signs: the neurological unit is usually located on the outer side of the femoral artery, covered by a dysentery, with a high echoing elliptical or triangle structure. • Pumping: Under ultrasound guidance, a piercing needle is inserted from the outer or internal side of the probe until it approaches the neurological unit. • Injection of sterilisation: Once the point point of the needle has been identified, the injection is administered to observe its spread around the nerve. • Attention: To avoid over-produced needle tipping to avoid neurological damage; to reduce the risk of pain and vascular injection by slow injection of sterilisation.
Symptoms and risk management for neurodeficiency ultrasound guides
Although ultrasound neurodeficiency is a relatively safe neurodeficiency technique, there is a certain risk of complications, including systemic toxicity, infection, haemorrhage and neurological damage to local anesthesia. To reduce these risks, doctors need to: • Select the appropriate anaemics and doses: the appropriate anaemics and doses are selected according to the patient’s weight and type of operation. • Close monitoring of the vital signs of the patient: close monitoring of the vital signs of the patient during and after the operation and timely detection and management of complications. The Conclusions Ultrasound Unit Neural Retardation (FNB) has a number of advantages in post-Kripps, including precision positioning, reduction of the use of impurity, increasing the effect of pain, reducing the risk of complications, reducing the use of opioids and promoting early post-operative activities. These advantages have made the FNB an important tool in post-Kripps pain management, which has helped to improve the comfort and satisfaction of patients and facilitate rapid recovery. As ultrasound technology continues to develop and clinical research deepens, the prospect of the use of the FNB in post-Knee arthritis pain is wide, and it is hoped that it will provide patients with a more comfortable and safer post-Having experience.
Knee artery damage
