PET scan

A PET scan (Positron Emission Tomography) is an imaging technique widely used in oncology and other medical fields.

Here’s a pharmacist-focused definition:

PET Scan (Positron Emission Tomography)

• Principle: Uses a radioactive tracer (commonly 18F-fluorodeoxyglucose, FDG) that mimics glucose.

  • Cancer cells have high metabolic activity, so they uptake more FDG.
  • The tracer emits positrons, which collide with electrons, producing gamma rays detected by the scanner.
• Result: A 3D image showing areas of increased metabolic activity (often cancer).

Oncology Uses

• Diagnosis & staging: Detects primary tumors and metastatic disease.
• Treatment planning: Guides surgery, radiation, and systemic therapy.
• Response assessment: Evaluates early response to chemotherapy, targeted therapy, or immunotherapy.
• Surveillance/recurrence detection: Helps detect relapse earlier than CT/MRI in some cancers.

Pharmacist Considerations

• Tracer: Most common is 18F-FDG (glucose analog).

• Patient prep:
  • Fasting (≥6 hrs) to reduce background glucose uptake.
  • Avoid strenuous exercise (prevents muscle uptake).
  • Blood glucose control: Hyperglycemia can reduce test accuracy.
• Limitations:
  • Not all cancers are FDG-avid (e.g., prostate, some indolent lymphomas).
  • False positives from infection/inflammation (↑ metabolic activity).
• Radiation exposure: Low-to-moderate, but cumulative over multiple scans.

In oncology practice, PET is often combined with CT (PET/CT) for both metabolic and anatomical information.