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How to use imaging technology to revolutionize minimally invasive surgery?
With the advancement of science and technology, minimally invasive surgery is rapidly becoming the mainstream of modern medical care, especially in the fields of heart, vascular and neurosurgery. Behind all this, advanced imaging technology is inseparable, especially the introduction of hybrid operating rooms, which has completely changed the way surgical operations are performed. These operating rooms are equipped with advanced medical imaging equipment such as fixed C-arms, X-ray computed tomography (CT) scanners and magnetic resonance imaging (MRI) scanners, making it possible to acquire and visualize precise locations, thereby Make minimally invasive surgery more efficient and safer.
Minimally invasive surgeries typically involve smaller incisions, which are less invasive for the patient and result in faster recovery, allowing patients to return to their normal lives sooner.
Wideness of clinical application
Currently, hybrid operating rooms are mainly used in cardiac surgery, vascular surgery and neurosurgery, but they have the potential to be used in more other surgical fields in the future.
Impact of cardiac surgery
Hybrid operating rooms offer new treatment options for patients with valvular heart disease, arrhythmias and aortic aneurysms. In this type of surgery, the surgeon not only performs the surgery but also uses imaging systems to monitor the procedure in real time. This process allows surgeons to make precise plans and adjustments during surgery, increasing the success rate of the surgery.
Applications in neurosurgery
In neurosurgery, the application of hybrid operating rooms is viewed as an important tool with the potential to improve surgical outcomes. Such surgeries as spinal fusion and intracranial aneurysm repair achieve better results because they can be tracked and image-guided in real time.
With instant access to images, doctors can more accurately confirm device position, thereby reducing the risk of postoperative complications.
Advantages of Thoracic Surgery and Endobronchial Procedures
Hybrid operating rooms also show great potential in the detection and treatment of small pulmonary nodules. Using image guidance, surgeons can accurately determine the location of the nodule, which is critical for performing lung biopsy or surgical resection. Especially in video-assisted thoracoscopic surgery, imaging technology makes up for the lack of tactile perception and avoids unnecessary tissue damage.
Orthopedic trauma surgery
In orthopedic surgery, complex fractures require precise positioning of screws and surgical implants. Although minimally invasive techniques can reduce patient injuries, they also bring certain risks, such as incorrect device placement. The emergence of hybrid operating rooms provides solutions to these problems, ensuring the accuracy of every step of the operation through high-resolution imaging.
Research shows that the use of innovative imaging technology can significantly improve surgical success rates and shorten recovery times.
Emergency medical care
In emergency treatment, time is of the essence. For patients with severe injuries after car accidents, hybrid operating rooms allow doctors to perform open or endovascular treatments without having to move the patient to another location, significantly shortening treatment time.
The evolution of imaging technology
Imaging technologies used in hybrid operating rooms include fixed C-arm digital subtraction angiography (DSA) and rotational angiography. These technologies allow CT views to be acquired during surgery, providing immediate and accurate anatomical information to support surgeons' precise operations.
Real-time image updates and 3D fusion technology significantly improve the safety and smoothness of surgery.
Conclusion
As imaging technology continues to advance, hybrid operating rooms are becoming indispensable in the future of minimally invasive surgery. This not only improves the accuracy and efficiency of surgery, but also improves the overall treatment experience for patients. In the future, will imaging technology continue to lead the revolution in medical surgery and become the standard in more medical fields?
