Interactive Videos

1 - 1
Basic Physics
Particles and waves
1 - 2
Basic Physics
Atomic structure
2 - 1
Nuclear Structure and Decay
Nuclear structure and energetics
2 - 2
Nuclear Structure and Decay
Nuclear decay schemas
3 - 1
Mathematics of Nuclear Decay
Exponential decay
3 - 2
Mathematics of Nuclear Decay
Equilibrium of isotopes
4 - 1
Brachytherapy I
Brachytherapy isotopes and sources
4 - 2
Brachytherapy I
Brachytherapy exposure and dose
5 - 1
Photon Interactions with Matter
Interaction of low-energy photons
5 - 2
Photon Interactions with Matter
Interaction of high-energy photons
6 - 1
Photon beams, Dose and Kerma
Beam attenuation and spectrum
6 - 2
Photon beams, Dose and Kerma
Dose and kerma
7 - 1
Particle Interactions with Matter
Radiative energy loss
7 - 2
Particle Interactions with Matter
Collisional energy loss
7 - 3
Particle Interactions with Matter
Neutron energy loss and LET
8 - 1
X-ray Tubes and Linacs
X-ray tubes
8 - 2
X-ray Tubes and Linacs
Beam production in linear accelerators
9 - 1
Medical Linear Accelerators
Linac collimation system
9 - 2
Medical Linear Accelerators
Linear accelerator systems
10 - 1
Megavoltage Photon Beams
Basic properties of MV photon beams
10 - 2
Megavoltage Photon Beams
MV photon beams: effects in patients
11 - 1
Megavoltage Photon Beams: TMR and Dose Calculations
PDD & TMR
11 - 2
Megavoltage Photon Beams: TMR and Dose Calculations
MU calcculations
12 - 1
Photon Beam Treatment Planning I
Dose calculations algorithms
12 - 2
Photon Beam Treatment Planning I
Planning with MV photon beams
13 - 1
Photon Beam Treatment Planning II
Volume definitions and DVHs
13 - 2
Photon Beam Treatment Planning II
Plan quality, TCP, NTCP
14 - 1
IMRT & VMAT
IMRT & VMAT delivery
14 - 2
IMRT & VMAT
Inverse planning
15 - 1
Megavoltage Electron Beams
Basic physics and PDD
15 - 2
Megavoltage Electron Beams
Properties of treatment beams
16 - 1
Ionization Chambers
Introduction to dose measurement
16 - 2
Ionization Chambers
Dose measurement protocols
17 - 1
Other Radiation Measurement Devices
Diodes
17 - 2
Other Radiation Measurement Devices
Luminescent dosimeters
17 - 3
Other Radiation Measurement Devices
Film
18 - 1
Quality Assurance
Principles of QA
18 - 2
Quality Assurance
QA of linear accelerators
18 - 3
Quality Assurance
Patient-specific QA
18 - 4
Quality Assurance
QA of full dosimetry system
19 - 1
Radiographic Imaging
Basic principles of radiography
19 - 2
Radiographic Imaging
Computed Tomography (CT)
20 - 1
Imaging II
Magnetic Resonance Imaging (MRI)
20 - 2
Imaging II
Nuclear medicine & PET
20 - 3
Imaging II
Ultrasound
21 - 1
Image guidance and Motion Management
Image-guided Radiation Therapy (IGRT)
21 - 2
Image guidance and Motion Management
Motion management
22 - 1
Stereotactic Treatments
Stereotactic Radiosurgery (SRS)
22 - 2
Stereotactic Treatments
Stereotactic Body Radiation Therapy (SBRT)
23 - 1
TBI & TSET
Total Body Irradiation (TBI)
23 - 2
TBI & TSET
Total Skin Electron Therapy (TSET)
24 - 1
Particle Therapy
Proton therapy
24 - 2
Particle Therapy
Proton planning, QA and Ion beams
25 - 1
Radiation Protection
Dose equivalent and effective dose
25 - 2
Radiation Protection
Risk models, dose limits and monitoring
25 - 3
Radiation Protection
Shielding and surveys
26 - 1
Brachytherapy Applications & Radionuclides
Planar implants
26 - 2
Brachytherapy Applications & Radionuclides
Prostate brachytherapy
26 - 3
Brachytherapy Applications & Radionuclides
High-dose rate (HDR) brachytherapy
26 - 4
Brachytherapy Applications & Radionuclides
Radionuclide therapy
26 - 5
Brachytherapy Applications & Radionuclides
MIRD dosimetry
27 - 1
Patient Safety & Quality Improvement
Incident learning and Root-cause analysis
27 - 2
Patient Safety & Quality Improvement
Incident learning:clinical, national and international
27 - 3
Patient Safety & Quality Improvement
Failure mode and effects analysis (FMEA)