Gamma Knife surgery is recognized worldwide as the preferred treatment for brain tumors, arteriovenous malformations and brain dysfunctions such as trigeminal neuralgia. It is supported by over 2,500 peer reviewed research articles that are primarily published in neurosurgery journals. The Gamma Knife' offers a non-invasive alternative for many patients for whom traditional brain surgery is not an option. Gamma Knife' surgery removes the physical trauma and the majority of risks associated with conventional surgery. This effective single session treatment may require an overnight hospital stay, but is often done in an outpatient surgical setting with periodic Most Demanded Types of Knife or Knives Sharpener. It has been proven safe over the long term and is recognized and covered by insurance plans.
The same as neurosurgery, the Gamma Knife allows noninvasive cerebral surgery to be performed in one session and with extreme precision, sparing tissues adjacent to the target. Based on preoperative radiological examinations, such as CT scans, MR scans and angiography, the unit provides highly accurate irradiation of deep-seated targets, using a multitude of collimated beams of ionizing radiation with scalpel-like precision.Gamma Knife surgery represents a major advance in brain surgery, and in the last three decades has changed the landscape within the field of neurosurgery. Its development has enhanced neurosurgical treatments offered to patients with brain tumors and vascular malformations by providing a safe, accurate and reliable treatment option. Gamma Knife enables patients to undergo a non-invasive form of brain surgery without surgical risks, a long hospital stay or subsequent rehabilitation.
Like other radiosurgery, Gamma Knife' surgery is unique in that no surgical incision is made to expose the inside of the brain, thereby reducing the risk of surgical complications and eliminating the side effects and dangers of general anesthesia. The "blades" of the Gamma Knife' are the beams of gamma radiation programmed to target the lesion at the point where they intersect. In a single treatment session, 201 beams of gamma radiation focus precisely on the lesion. Over time, most lesions slowly decrease in size and dissolve. The exposure is brief and only the tissue being treated receives a significant radiation dose, while the surrounding tissue remains unharmed.
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