Stereotatic Radiosurgery

Stereotactic radiosurgery (SRS) uses diverse, precisely focused radiation beams to treat tumors and diseases in the brain, neck, etc.

It is not a surgery in the traditional sense because there is no incision. Instead, SRS uses 3-D imaging to target high doses of radiation towards the affected area with minimal impact on the surrounding healthy tissue.

Like other forms of radiation, stereotactic radiosurgery works by destroying the DNA of the targeted cells. The affected cells then lose the ability to reproduce, which causes tumors to shrink.
When doctors use stereotactic radiosurgery to treat tumors in areas of the body other than the brain, it's sometimes called stereotactic body radiotherapy (SRBT) or stereotactic ablative radiotherapy (SABR).

Types of stereotactic radiosurgery
Three types of technology are used to deliver radiation during stereotactic radiosurgery.

  • Linear accelerator (LINAC) machines use X-rays (photons) to treat cancerous and noncancerous abnormalities in the brain and other parts of the body. LINAC machines are also known by the brand name of the manufacturer, such as CyberKnife, Axesse, Novalis Tx, TrueBeam and XKnife. These machines can perform SRS in a single session or over three to five sessions for larger tumors, which is called fractionated stereotactic radiotherapy.
  • Gamma Knife machines use 192 or 201 small beams of gamma rays to target and treat cancerous and noncancerous brain abnormalities. Gamma Knife machines are less common than LINAC machines and are used primarily for small to medium tumors and lesions in the brain associated with a variety of conditions.
  • Proton beam (charged particle radiosurgery) is the newest type of stereotactic radiosurgery; it is available only at a few centers in the world. Apollo Hospitals is the first to bring it to India. It can treat brain cancers in a single session using stereotactic radiosurgery or use fractionated stereotactic radiotherapy to treat body tumors over several sessions.

How it works

All types of stereotactic radiosurgery and radiotherapy work in a similar manner.
The specialized equipment focuses many small beams of radiation on a tumor or other target. Each beam has very little effect on the tissue it passes through, but a targeted dose of radiation is delivered to the site where all the beams intersect.

The high dose of radiation delivered to the affected area causes the tumors to shrink and blood vessels to close off over time following treatment, robbing the tumor of its blood supply.

The precision of stereotactic radiosurgery means there's minimal damage to the healthy surrounding tissues. In most cases, radiosurgery has a lower risk of side effects compared to other types of traditional surgery or radiation therapy.