All of the following are true about long-term sequelae of craniospinal radiotherapy for children with CNS tumors except:

Neuropsychological sequelae are independent of radiation dose

In which of the following conditions is Stereotactic Radiosurgery primarily indicated?

Arteriovenous malformation of the brain

Medulloblastoma of the spinal cord

Stereotactic Radiotherapy is used in:

Tumor at the base of tongue with new Lymph Node enlargement

Prophylactic cranial irradiation is indicated in the treatment of all of the following conditions, except:

Small cell carcinoma of the lung

Osteoradionecrosis most commonly results from which combination of factors?

Radiation, trauma, and infection

Infection, trauma, and radiation

Trauma, radiation, and infection

Stereotactic Radiosurgery for INI-CET: High-Yield Radiology Lessons

Stereotactic Radiosurgery - Precision Zap Basics

Definition: Non-invasive radiation therapy delivering a single high dose (or 2-5 high-dose fractions) of precisely targeted ionizing radiation to well-defined intracranial or extracranial lesions.
Core Principles:
- Stereotaxy: Sub-millimeter accurate lesion localization using 3D coordinate systems (frame-based or frameless image guidance).
- Conformality: Radiation dose is meticulously shaped to closely match the 3D contour of the target volume.
- Steep Dose Gradient: Achieves a rapid decrease in radiation dose at the periphery of the target, minimizing exposure to adjacent healthy tissue.
Goal: Achieve complete biological ablation of the target tissue while preserving the integrity and function of surrounding normal structures.
Key Feature: Delivers a high Biological Effective Dose (BED) due to the large dose per fraction.

⭐ SRS is characterized by its extreme precision, allowing for the treatment of lesions, especially those that are small and well-circumscribed, even when located near critical or eloquent structures where surgery might be high risk.

Stereotactic Radiosurgery - Zap Tech Parade

Definition: High-dose, precisely focused radiation (1-5 fractions). Ablative doses, steep dose fall-off.
Key Technologies:
- Gamma Knife (GK): Multiple Cobalt-60 sources (e.g., 192, 201). Intracranial. Highly conformal.
  
  ⭐ Gamma Knife typically uses 192 or 201 Cobalt-60 sources, converging on the target to deliver a high dose with rapid fall-off.
- LINAC-based SRS: Linear accelerators.
  - Techniques: Conformal arcs, Dynamic Conformal Arcs (DCA), IMRS.
  - Versatile: Intracranial & extracranial (SBRT).
- CyberKnife: Robotic arm-mounted LINAC.
  - Real-time image guidance (X-ray/fiducials). Tracks tumor motion.
Immobilization: Critical for sub-mm accuracy.
- Invasive: Stereotactic frames.
- Non-invasive: Masks, vacuum bags.
Targeting: CT/MRI/PET fusion for delineation.

SRS Dose Distribution Comparison

Stereotactic Radiosurgery - Target Practice Time

Key Targets & Doses (Single Fraction):
- Brain Metastases: Most common (≤ 4-5 lesions).
  - Dose: 15-24 Gy (size-dependent: <2cm: 20-24 Gy; 2-3cm: 18 Gy; >3cm: 15-16 Gy).
- Arteriovenous Malformations (AVMs):
  - Goal: Obliteration. Dose: 16-25 Gy to nidus.
  - 📌 AVM: "Rule of 2s" - 2 yrs, ~80% obliteration, ~20 Gy.
- Benign Tumors:
  - Acoustic Neuroma: 12-13 Gy (hearing preservation).
  - Meningioma: 12-16 Gy. Pituitary Adenoma: 12-25 Gy.
- Functional Disorders:
  - Trigeminal Neuralgia: 70-90 Gy to nerve root.
  - Movement disorders (e.g., Essential Tremor).

Stereotactic Radiosurgery Targeting

⭐ SRS is typically for lesions < 3-4 cm; larger lesions may require fractionated SRT or surgery due to normal tissue toxicity risk.

Stereotactic Radiosurgery - Zap Zone Dangers

Contraindications:
- Large tumors (> 3-4 cm / > 20-30 cc)
- Multiple lesions (> 5-10)
- Poorly defined targets on imaging
- Prior overlapping high-dose RT
Complications:
- Acute: Edema (common; steroids), headache, nausea.
- Late: Radiation Necrosis (RN) (months-years, mimics recurrence), cranial neuropathies.
  - RN risk ↑ with dose & volume.
SRS vs. Alternatives:
- SRT: 2-5 fractions; for larger/eloquent area tumors, ↓ toxicity.
- Conventional RT: Lower dose/fraction, longer course, less precise.
- Surgery: Invasive, immediate debulking, histology; SRS for inaccessible/high-risk cases.
  
  ⭐ Radiation necrosis is a key delayed complication of SRS, often presenting months to years post-treatment and can be challenging to differentiate from tumor recurrence.

High‑Yield Points - ⚡ Biggest Takeaways

SRS delivers a single, high ablative dose of radiation with sub-millimeter accuracy.

Employs rigid immobilization (frame-based/frameless) for precise targeting of intracranial lesions.

Key indications: small brain metastases, acoustic neuromas, arteriovenous malformations (AVMs), and trigeminal neuralgia.

Technologies include Gamma Knife (cobalt-60), CyberKnife (robotic LINAC), and specialized LINACs.

Characterized by a sharp dose gradient, maximally sparing adjacent normal tissues.

Distinguished from SRT (Stereotactic Radiotherapy) which uses 2-5 fractions.

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Stereotactic Radiosurgery