Modern medical imaging technology has become an indispensable tool for surgeons. In the field of general surgery, in addition to traditional X-ray examinations, ultrasound and CT scans also play key roles. With the advancement of technology, wireless ultrasound scanners have become an important tool in surgery, greatly enhancing diagnostic and therapeutic efficiency with their portability and real-time capabilities.
Wireless ultrasound scanners have shown significant advantages in diagnosing vascular diseases. With this device, doctors can easily identify conditions such as portal vein cavernous transformation, Budd-Chiari syndrome, and lower limb varicose veins. Traditional ultrasound examinations typically require fixed equipment and longer preparation times, while wireless ultrasound scanners, due to their wireless nature, make tests more flexible and convenient.
In clinical applications, wireless ultrasound scanners can quickly assess the patency of blood vessels and the blood supply to organs and tissues, such as detecting vascular embolisms, stenosis, and monitoring after vascular anastomosis and liver transplantation. The real-time images from the device can help doctors make quick decisions and take appropriate medical measures, thereby increasing diagnostic accuracy and timeliness.
Wireless ultrasound scanners have also demonstrated strong application value in tissue and tumor diagnosis. This equipment can effectively identify the nature of tubular structures, such as distinguishing between blood vessels and bile ducts, and can determine the nature of solid echoes, such as distinguishing between gallbladder sludge deposits and malignant tissues within cysts.
Using wireless ultrasound scanners, doctors can judge the nature of lesions by observing the vascular distribution and blood supply within tumors. After interventional tumor treatments, this device can also assess blood supply to the focus in real-time to evaluate treatment efficacy. This real-time, precise imaging feedback provides surgeons with more reliable decision-making information, greatly improving treatment outcomes.
In the field of general surgery, wireless ultrasound scanners are also widely used to guide puncture and treatment procedures. This device makes percutaneous puncture operations more precise and safe. Specific applications include:
Tissue or tumor biopsy
Using wireless ultrasound scanners to precisely locate the biopsy point, reducing errors and damage.
Abscess aspiration and drainage
Real-time monitoring of the abscess's location and size ensures the safety of the aspiration process.
Cyst aspiration and sclerotherapy
With real-time imaging from the device, doctors can accurately perform cyst aspiration and sclerotherapy.
Biliary tract imaging (PTC) and biliary drainage (PTCD)
Helps accurately locate the biliary tract, improving surgical success rates.
Gallbladder drainage (PTGBD)
Real-time tracking of the gallbladder drainage process, reducing complications.
Intra-tumoral treatment for liver cancer
Such as anhydrous ethanol injection, microwave ablation, etc., wireless ultrasound scanners can provide real-time feedback to optimize treatment efficacy.
In summary, wireless ultrasound scanners play an important role in the diagnosis and treatment of general surgery with their seamless wireless functionality and real-time imaging capabilities. Their flexibility and convenience not only improve examination efficiency but also provide more precise imaging support for surgery. With continuous technological advancement, wireless ultrasound scanners will continue to play an increasingly significant role in the surgical field.