- Scintillation cameras
- Image acquisition and reconstruction
- Common radionuclides
- SNR, subject/image contrast
- Spatial resolution
- Mechanical aspects: accuracy, precision
- Single Photon Emission Computed Tomography (SPECT)
- Positron Emission Tomography (PET)
- Modality comparison, image features, and artifacts
- Image processing and analysis
- Hybrid imaging (SPECT/CT, PET/CT, PET/MR)
- Radiopharmaceuticals
- Non-imaging devices (dose calibrators, well counters, survey meters)
- Therapeutic NM
- Applications, dose, facilities, and safety
- Internal Radiation Dosimetry
- Methods of quality control and quality assurance
- Counting principles
- Physical, biological, and effective half-life
- Decay calculators
An Incomplete Medical Physics Review
- Clinical linear accelerator principles, collimation and mechanical aspects
- Clinical kV and MV photon beam characteristics
- Clinical megavoltage electron beam characteristics
- Clinical proton beam characteristics
- Comparison of clinical photon, electron and proton beams
- Dose functions: PDD, TAR, TPR, TMR, SMR
- Basic dose (monitor unit) calculation
- Principles of radiation treatment planning
- Brachytherapy
- Radiation safety and protection, patients and personnel
- Methods of quality control and quality assurance
- Neoplastic Diseases
- Benign Disease
- Infectious Diseases
- Congenital and hereditary diseases
- Inflammatory
- Trauma
- Cardiovascular Diseases
- Neurological
- Film and Phosphors
- Gas-filled detectors
- Scintillation detectors
- Solid state detectors
- Neutron detectors
- Emerging and miscellaneous detectors
- In-vivo counting systems
- Quality control and quality assurance
- Measurement procedures
- Detection and Counting
- Applications in imaging, nuclear medicine, therapy and safety
- Basic Electricity
- General Electronics
- Nervous system
- Musculoskeletal system
- Cardiovascular system
- Respiratory system
- Digestive system
- Integumentary system
- Urinary system
- Reproductive system
- Immune system
- Endocrine system