Gamma Knife Radiosurgery at World Class Hospitals in India

Gamma Knife Radiosurgery, also called stereotactic radiosurgery, is a very precise form of therapeutic radiology. Even though it is called surgery, a Gamma Knife procedure does not involve actual surgery, nor is the Gamma Knife really a knife at all. It uses beams of highly-focused gamma rays to treat small to medium size lesions, usually in the brain. Many beams of gamma radiation join to focus on the lesion under treatment, providing a very intense dose of radiation without a surgical incision or opening.

Gamma Knife radiosurgery is called “surgery” because a result similar to an actual surgical procedure is created by a one-session radiation therapy treatment. The beams of radiation are very precisely focused to reach the tumor, lesion, or other area being treated with minimal effect on surrounding healthy tissue.

Gamma Knife radiosurgery is most often used to treat tumors and other lesions in the brain. It is also used to treat certain neurological conditions, such as trigeminal neuralgia (a condition in which pressure on the trigeminal nerve causes spasms of extreme facial pain) and acoustic neuroma (a noncancerous tumor in the brain that affects the nerves that control hearing).

Gamma Knife radiosurgery may be used in situations where the brain lesion cannot be reached by conventional surgical techniques. It may also be used in persons whose condition is such that they might not be able to tolerate a surgical procedure, such as craniotomy, to treat their condition. Because the therapeutic effects of a Gamma Knife procedure occur rather slowly over time, it is not used for persons whose condition requires more immediate therapy.

How Cyberknife Radiosurgery works ?

Through the use of three-dimensional, computer-aided planning and the high degree of immobilization of the patient, the treatment can minimize the amount of radiation to surrounding healthy brain tissue. There are approximately 200 sources of cobalt-60 loaded within the treatment unit. Thousands of radiation beams can be generated from these sources with a level of accuracy of more than 0.5mm, about the thickness of a strand of hair. Individually, each radiation beam is too weak to damage the normal tissues it crosses on the way to the target. But when focused precisely on that target, the beams intersect and the combined radiation is sufficient to treat the targeted area.

Because Gamma Knife radiosurgery is so accurate, the full dose of radiation can be delivered during a single session, compared with multiple visits for linear accelerator (linac) treatments, which use lower doses delivered in fractions (fractionated treatment).

Stereotactic refers to precise positioning in three-dimensional space. In Gamma Knife surgery, this means a 3-D reference frame is attached to the patient’s head during the procedure. The stereotactic frame provides a 3-D reference which can be seen on the imaging equipment to provide exact coordinates for the target and totally immobilizes the patient’s head to ensure pinpoint accuracy.

Rather than dose-contributing CT scans, most neurosurgeons use a single MRI imaging scan to establish the treatment target for Gamma Knife surgery. Other linac-based systems that don’t use the head frame require constant imaging with CT scans during treatment, further contributing to excess dosage.

Why Gamma Knife Radiosurgery is done?

Gamma Knife radiosurgery is often an appropriate alternative to standard brain surgery (neurosurgery), which requires incisions in the skull, membranes surrounding the brain and brain tissue. This type of radiation treatment is usually performed when:

• A tumor or other abnormality in the brain is too hard to reach with standard neurosurgery
• A person isn’t healthy enough to undergo standard surgery
• A person prefers a less invasive treatment

• Brain tumor. Radiosurgery is useful in the management of small noncancerous (benign) and cancerous (malignant) brain tumors. Radiosurgery damages the genetic material (DNA) in the tumor’s cells. The cells lose their ability to reproduce and may die, and the tumor may gradually shrink.
• Arteriovenous malformation (AVM). AVMs are abnormal tangles of arteries and veins in your brain. In an AVM, blood flows from your arteries to veins, bypassing smaller blood vessels (capillaries). AVMs may disrupt the normal flow of blood and lead to bleeding. Radiosurgery destroys the AVM and causes the blood vessels to close off over time.
• Trigeminal neuralgia. Trigeminal neuralgia is a disorder of one or both of the trigeminal nerves, which relay sensory information between your brain and areas of your forehead, cheek and lower jaw. This nerve disorder causes disabling facial pain that feels like an electric shock. After treatment, many people will experience pain relief within a few days to a few months.

• Acoustic neuroma. An acoustic neuroma (vestibular schwannoma), is a noncancerous (benign) tumor that develops along the main balance and hearing nerve leading from your inner ear to your brain.

  When the tumor puts pressure on the nerve, a person can experience hearing loss, dizziness, loss of balance and ringing in the ear (tinnitus). As the tumor grows, it can also put pressure on the nerves affecting sensations and muscle movement in the face. Radiosurgery may stop the growth or minimize the size of an acoustic neuroma with little risk of permanent nerve damage.

How To get Started ? Get a Free Expert Opinion from Top Medical Specialists in India ?

Please Click a picture of your recent medical reports and send to us by WhatsApp, Viber on +91 9899993637 OR

Email to us at [email protected]

Your case would be reviewed by best Specialists in India and an Expert Opinion with Treatment cost Estimate shall be sent to you with in 2 working days.