Neurosurgery requires extremely precise imaging support. In traditional neurosurgery, many lesions cannot be directly discovered through the brain surface, so imaging technology is needed to assist in locating and removing the lesions. In recent years, WiFi ultrasound probe has demonstrated its unique advantages in neurosurgery, making the surgical process more precise and safe.
Intracranial aneurysm is known as a "ticking time bomb" in neurosurgery, and its treatment mainly relies on open craniotomy and aneurysm clipping surgery. However, the surgical outcome can be severely affected by improper positioning or incomplete clipping of the aneurysm. In this case, WiFi ultrasound probe's real-time imaging technology is crucial.
Using the WiFi ultrasound probe for intraoperative monitoring can accurately display the real-time position of the aneurysm and the clipping effect. Its wireless transmission features enable doctors to quickly obtain imaging data during the surgery without the constraints of traditional ultrasound probe cables. This efficient imaging feedback ensures the accuracy of aneurysm clipping, significantly improving the success rate and safety of the surgery.
The treatment of brain tumors often involves craniotomy, and the tumor resection rate during surgery directly affects the patient's prognosis and the risk of tumor recurrence. WiFi ultrasound probe plays a key role in this process. Through intraoperative real-time ultrasound examination, doctors can accurately judge the position, boundary, and physical properties of the tumor, thereby optimizing the surgical plan.
The wireless function of the WiFi ultrasound probe allows doctors to move freely during surgery without being confined by cables, while simultaneously monitoring the supplying arteries and draining veins of the tumor in real-time. Using pulse Doppler technology, doctors can clearly observe the blood flow conditions of the tumor, aiding in precise localization and resection of the tumor. Intraoperative real-time monitoring also ensures thorough resection, reducing tumor residue, thus lowering the risk of recurrence.
Besides intracranial aneurysm and brain tumor surgeries, WiFi ultrasound probe has also shown wide application value in other neurosurgeries. For example, when dealing with cavernous hemangiomas and arteriovenous malformations, WiFi ultrasound probe can provide clear images to help doctors accurately identify the characteristics of the lesions.
The color Doppler function of the WiFi ultrasound probe can clearly display the structure of blood vessels and blood flow conditions, aiding doctors in identifying the supplying arteries and draining veins. This is significant for planning the surgical procedure and guiding the surgical operation. Meanwhile, the wireless design enhances the flexibility of the surgery, ensuring that doctors can operate efficiently in complex environments.
Overall, WiFi ultrasound probe provides unprecedented real-time imaging support for neurosurgery. Its wireless transmission features and high-resolution imaging capability make the surgical process more precise and efficient. With continuous technological advancements, WiFi ultrasound probe will undoubtedly play a more important role in neurosurgery, helping doctors better cope with complex surgical challenges.
EN
ja 
fr 
de 
es 
it 
ru 
pt 
ar 
tr 
id 
