QA in RT Flashcards
Which laws means you have to do QA?
- IRR2017
- Approved code of practice (L121)
- Guidance notes: Equipment (PM77)
Recommendation: Manual of cancer standards 2004
Dosimetric Accuracy level
What is it?
Who defines it?
- 5% uncertainty in delivery of dose to target volume
- Accuracy of dose delivery is 5-7% (95% CI)
- ICRU Report 24
Geometric Accuracy level
What is it?
Who defines it?
- 5-10mm
- ICRU
CT QA:
Lasers
- Lasers used to position tattoo markers
- need to be accurate
CT QA:
Couch
Couch shifts used to get from reference tattoos to isocentre
shifts have to be accurate
CT QA:
Geometric Planning
- CT is used to plan
- scan phantoms and make simple measurements to assess distortions
CT QA:
Density
- Measurements of known electron densities
- Create CT to electron density curce
What’s the best way to test the entire chain and validate the whole process?
Use a phantom and put it through every single step
e.g. IPSM phantom
LINAC QA:
What do we measure performance against?
Performance standards
- IEC60976: mechanicals, flatness, symmetry
Standards established during Commissioning
- beam energy, output
LINAC QA:
6 sources of mechanical uncertainty in LINAC
- Jaw calibration (2mm)
- light field (2mm)
- lasers (1mm)
- col rotation (0.5deg)
- gantry rotation and sag (0.5deg)
- table movements (2mm, 0.5deg)
LINAC QA:
4 Dosimetric uncertainties in LINAC
Where do the tolerances come from?
- Radiation Output - Absorbed dose to water/MU (3%)
- Beam Energy - TPR20/10 (1%)
- Beam Flatness and Symmetry - Baseline profile (%2)
- Dose delivery stability - Ouput with rotation (0deg, 2%), ouput with linearity (2%)
IPEM 81
Daily QC (x4)
- Output constancy
- Safety interlocks
- laser alignment
- Light field and & cross-wires
- Monthly QC (x4)
- Phtons
- electrons
- mechanicals
- on-board imaging
Photon monthly QC (x3)
- Output
- Energy
- Flatness & Symmetry
Electron monthly QC (x4)
- Output
- Energy
- Applicator output factors
- Flatness & Symmetry
