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Stereotactic Radiosurgery

Stereotactic Radiosurgery (SRS) is a non-invasive surgical procedure that provides exactly a focused radiation remedy to treat tumors or other abnormalities within the brain, spine, or other components of the frame. Despite its call, it is no longer surely surgical operation inside the conventional feel, as there's no incision concerned. Instead, more than one beam of radiation is precisely centered on the target area, even minimizing publicity to surrounding healthful tissue. This excessive stage of precision allows for effective treatment with minimal aspect effects. SRS Radiation is usually used to treat small or inaccessible tumors, arteriovenous malformations (AVMs), trigeminal neuralgia, and other conditions.

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About Stereotactic Radiosurgery

Stereotactic radiosurgery (SRS) is often related to the treatment of specific medical conditions such as brain tumors, arteriovenous malformations (AVMs), trigeminal neuralgia, or other anatomic abnormalities -and condition-related. SRT Radiation is normally given by 2 to 5 treatments over one or two weeks of the period. Stereotactic radiosurgery is a different type of treatment. It is only performed in a single session. Short-term side effects of SRS radiation may include fatigue, headache, nausea, and temporary swelling or irritation at the treatment site. Long-term adverse effects include radiation-induced changes in brain tissue, such as brain alterations or radiation stroke, although these are rare, the benefits of SRS are often outweighed by the risks, as regular follow-up by health professionals is essential Any possible side effects are monitored and treatment continues to be effective. Stereotactic radiotherapy (SRT) provides radiotherapy from multiple sites around the body. The fibers meet in the bladder. This means that the tumor receives sufficient radiation, and the surrounding tissue receives very little radiation. This reduces the risk of side effects.

Procedure of Stereotactic Radiosurgery

Imaging: High-resolution imaging, including MRI or CT scans, is used to exactly discover the tumor or abnormality and map its role when it comes to surrounding systems.

Treatment planning: Using specialized PC software, radiation oncologists and scientific physicists plan the remedy. They determine the optimal dosage and angles for turning in radiation to the goal area while minimizing publicity to healthy tissue.

Immobilization: To ensure accuracy during treatment, the affected person is placed and immobilized using a custom-made head frame, mask, or body mold. This facilitates maintaining constant positioning all through the system.

Treatment transport: During the actual remedy, the affected person lies without problems on a treatment desk whilst a system, along with a linear accelerator or gamma knife, can provide noticeably targeted radiation beams to an appropriate location of the tumor or abnormality. The radiation is centered from more than one angle to converge on the goal whilst minimizing exposure to surrounding tissues.

Monitoring and compliance with-up: After the treatment session, sufferers are typically monitored for some time to make sure there aren't any immediate headaches. Follow-up appointments are scheduled to assess the effectiveness of the treatment and monitor for any capability side effects or recurrence of the condition.

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