Investigation of choice for acute intracerebral hemorrhage is -
In which of the following conditions is Stereotactic Radiosurgery primarily indicated?
Which common tracer in PET is usually administered in the form of a glucose sugar?
NEET-PG 2015 - Radiology NEET-PG Practice Questions and MCQs
Question 21: Investigation of choice for acute intracerebral hemorrhage is -
- A. NCCT (Correct Answer)
- B. MRI
- C. PET scan
- D. None of the options
Explanation: ***NCCT*** - **Non-contrast Computed Tomography (NCCT)** is the investigation of choice for acute intracerebral hemorrhage because it can **rapidly and reliably detect acute blood** within the brain parenchyma. - Acute hemorrhage appears as a **hyperdense (bright) lesion** on NCCT, allowing for quick diagnosis and management vital in emergency settings. *MRI* - While MRI can detect hemorrhage, its sensitivity for **acute hemorrhage** can be variable, and it is **less readily available** and takes longer to perform than NCCT. - MRI is generally preferred for subacute or chronic hemorrhage, or to investigate the **underlying cause** of the bleed (e.g., tumor, vascular malformation). *PET scan* - **Positron Emission Tomography (PET) scan** primarily measures **metabolic activity** and blood flow within the brain. - It is **not suitable for detecting acute bleeding** and is typically used for diagnosing conditions like tumors, epilepsy, or neurodegenerative diseases. *None of the options* - This option is incorrect because **NCCT** is indeed the gold standard for diagnosing acute intracerebral hemorrhage.
Question 22: In which of the following conditions is Stereotactic Radiosurgery primarily indicated?
- A. Ependymoma
- B. Arteriovenous malformation of the brain (Correct Answer)
- C. Medulloblastoma of the spinal cord
- D. Glioblastoma multiforme
Explanation: ***Arteriovenous malformation of the brain*** - **Stereotactic Radiosurgery (SRS)** is a highly effective treatment for brain AVMs, particularly those that are **small to medium-sized** and located in eloquent brain regions. - SRS delivers a **highly focused dose of radiation** directly to the AVM, causing the abnormal blood vessels to gradually close off over time, reducing the risk of hemorrhage. *Medulloblastoma of the spinal cord* - Medulloblastoma is a **highly aggressive malignant brain tumor** that often metastasizes to the spinal cord via cerebrospinal fluid. - Treatment for spinal medulloblastoma typically involves **cranio-spinal irradiation with chemotherapy**, and SRS is generally not the primary treatment modality for diffuse spinal disease. *Ependymoma* - Ependymomas are tumors arising from the **ependymal cells** lining the ventricles and spinal cord. - While surgery is the primary treatment, radiotherapy, including **conventional fractionated external beam radiation**, is often used as adjuvant therapy, but SRS is less commonly the sole primary indication. *Glioblastoma multiforme* - Glioblastoma multiforme (GBM) is the **most aggressive primary brain tumor** and is typically treated with **maximal surgical resection followed by concurrent chemoradiotherapy**. - While SRS may be used in carefully selected cases for **recurrent GBM** or as a boost in primary treatment, it is not the primary solitary indication for initial management.
Question 23: Which common tracer in PET is usually administered in the form of a glucose sugar?
- A. Aluminum - 12
- B. Fluorine 18 (Correct Answer)
- C. Carbon 11
- D. Oxygen 15
Explanation: ***Fluorine 18*** - **18F-FDG** (Fluorodeoxyglucose) is the most common PET tracer, utilizing **Fluorine-18** as its radioactive component. - FDG is a glucose analog, meaning it mimics glucose and is taken up by metabolically active cells, allowing for imaging of **glucose metabolism**. *Aluminum - 12* - **Aluminum-12** is not a common radionuclide used in PET imaging. - The most common tracers in PET are **positron emitters** like Fluorine-18, Carbon-11, Nitrogen-13, and Oxygen-15. *Carbon 11* - **Carbon-11** can be used in PET tracers (e.g., 11C-methionine), but it is **less common** than 18F-FDG due to its shorter half-life. - Its short half-life (20 minutes) requires an **on-site cyclotron** for production, limiting its widespread use. *Oxygen 15* - **Oxygen-15** is employed in PET tracers (e.g., 15O-water for cerebral blood flow), but it has an **even shorter half-life** (2 minutes) than Carbon-11. - Its extremely short half-life makes it **impractical** for routine clinical use in the form of a glucose sugar.