developments in clinical reference dosimetry: updates to...
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Developments in clinical reference dosimetry: Updates to reference dosimetry protocols
Bryan Muir
August 1, 2017
NRC Measurement Science and Standards, Ottawa, Canada
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Background
Based on ion chamber calibrated
in cobalt-60
Simple ‘recipe’ for beam calibration
Covers photon and electron beams
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Review – reference dosimetry with TG-51
Starting point is 𝑁𝐷,𝑤60𝐶𝑜 for your chamber (ADCL)
Dw required in clinical beam (quality Q ≠ cobalt-60)
Requires M with 𝑁𝐷,𝑤60𝐶𝑜 and beam quality conversion factor, kQ
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Why update?
Advances since 1999 publication
Semi-analytic approach:
New chambers available
Deliberately avoided uncertainties
Extensive revision for electron beams
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Procedure and formalism remains the same
Still based on ion chamber calibrated in cobalt-60
Calculated (but updated with accurate Monte Carlo) kQ factors
Solid phantoms still prohibited
%dd(10)x and R50 for beam quality specification
Addendum published (2014) for photon beams, wider revision for electron beams
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What stays?
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Photon beam addendum to the TG-51 protocol
kQ data sets
Specifications for reference chambers
Bias voltage and ion
recombination, Pion
Polarity correction, Ppol
Application to FFF linacs
Uncertainties
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What has been the impact?
Addendum published three years ago
WGTG51 conducted online survey
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Yes
No
< 1 %
> 1 %
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What has been the impact?
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Addendum published three years ago
WGTG51 conducted online survey
Impact has been minor (expected)
Manufacturers developing new designs to address
reference-class issues (small volume chambers)
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Now for electron beams – more complicated, wider revision
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The problems with electron beams
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• Steep dose gradients and chamber positioning
Issue independent of chamber type Not much we can do – take care when positioning!
Muir et al., PMB 5953 (2014).
Assumes accurate positioning to 0.5 mm
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The problems with electron beams
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• Steep dose gradients and chamber positioning
• Plane-parallel vs cylindrical
• Plane-parallel variability and stability
• Cross-calibration against cylindrical
• Cylindrical not allowed in low-energy beams
• Measured Pgr required for cylindrical
kQ=
Complicated procedures in TG-51 Can we simplify?
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The problems with electron beams
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• Steep dose gradients and chamber positioning
• Plane-parallel vs cylindrical
• Plane-parallel variability and stability
• Cross-calibration against cylindrical
• Cylindrical not allowed in low-energy beams
• Measured Pgr required for cylindrical
• Higher uncertainty in TG-51 kQ
Need more accurate data
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Plane-parallel: PTW Roos
- Recommended for low-energy e- beams
- Cross-calibration procedure
- kQ required several assumptions (Prepl=Pwall=1)
- Measurement performance: may not be stable1,2
Plane-parallel vs cylindrical chambers
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Cylindrical: NE2571
- Not recommended for low-energy e- beams
- but based on assumptions for plane-parallel3 – variation in kQ with large (~5 %) corrections
- Very well behaved - stability in photon beams at 0.1 %
1Bass et al., PMB N115 (2009). 2Muir et al., Med. Phys. 1618 (2012). 3Wittkamper et al., PMB 1639 (1991).
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• Would eliminate problems using plane-parallel, cross-calibration
• In fact, recent survey indicates clinical physicists already doing this
“Do you use the same chamber for photon beam calibration as for e- beams?”
Muir et al., JACMP 182 (2017).
Can we simplify by using cylindrical chambers for all e- beams?
No: 18 %
Yes: 82 %
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Revisit older experiments with focus on variability
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4-5 %
So, are corrections really more variable for cylindrical chambers?
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𝑴𝟐
𝑴𝟏 𝑸𝒆𝒄𝒂𝒍
𝑸
=𝑷𝐐,𝟏𝑷𝐐,𝟐 𝑸𝒆𝒄𝒂𝒍
𝑸
• Measure corrected M for several chambers in electron beams
• Normalize in 18 MeV beam (Qecal)
• Variation/uncertainty in overall perturbation correction PQ (kQ) for similar chambers
Revisit older experiments with focus on variability
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Revisit older experiments with focus on variability
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• M measured vs. depth in 8 and 18 MeV
0
1
2
3
4
5
6
7
8
0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5
E z (
Me
V)
z (cm)
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No, corrections aren’t more variable using cylindrical chambers!
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• Variability at +/- 0.4 %, no worse than plane-parallel chambers1
• Appropriate to use cylindrical chambers in all beams using generic kQ
1Muir and McEwen, Med. Phys. (conditionally accepted, 2017).
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What about kQ and Pgr? Use Monte Carlo
Equation defining kQ:
Absorbed dose to the air in an ion chamber:
Combine and assume (W/e)air constant with beam energy
Aside: this is the principle behind photon beam kQ factors in addendum
All quantities can be calculated with Monte Carlo simulations
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Absorbed dose simulations for kQ factors
Sources: realistic accelerator models or electron beam
spectra
Simulations with EGSnrc egs_chamber1 user-code
Dw in small disc vs depth in water
1J. Wulff et al., Med. Phys. 1328 (2008).
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Ion chamber simulations for kQ factors
Dair in fully modeled chambers vs
depth in water
Image: McCaffrey et al., P.M.B. 50, N121 (2005) .
NE2571 Exradin A11
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Comparison to high-quality literature results
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• Publications report
k’R50: normalized kR50
• Excellent agreement
with published data
PTW Roos
Muir and Rogers, Med. Phys. 121722 (2013).
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Difference between MC and calorimetry (%)
Muir et al., Med. Phys. (in press, 2017).
• Recent calorimetry
measurements in
high-energy beams for kecal
• Very good agreement
for commonly used chambers
Comparison to high-quality literature results
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What about the gradient correction?
Incident beam
Where is the electron fluence really sampled?
At the center of the chamber?
Closer to the curved front surface?
How can we account for this? - Shift or correction
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Pgr = M(dref + 0.5rcav)/M(dref)
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Using TG-51 recommendation – scattered results
NE2571
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What about the gradient correction?
Muir and Rogers, Med. Phys. 121722 (2013).
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Can use different shift for Pgr to reduce scatter
NE2571
This is getting pretty small (0.6 mm) What if we take lim f 0? That is, let MC kQ take care of Pgr
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What about the gradient correction?
Muir and Rogers, Med. Phys. 121722 (2013).
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Can we avoid use of Pgr?
Most common source of electron beam calibration errors
Using MC calculated kQ
includes gradient effects
Muir and Rogers, Med. Phys. 121722 (2013). 27
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Can we avoid use of Pgr?
Most common source of electron beam calibration errors
Using MC calculated kQ
includes gradient effects
and simplifies procedure
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The (resolved) problems with electron beams
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• Steep dose gradients and chamber positioning
• Plane-parallel vs cylindrical
• Plane-parallel variability and stability
• Cross-calibration against cylindrical
• Cylindrical not allowed in low-energy beams
• Measured Pgr required for cylindrical
• Higher uncertainty in TG-51 kQ
Take care when positioning chambers1
Can use cylindrical chambers for all beams
Monte Carlo kQ include Pgr, can remove requirement
Now have high-quality data
1Ververs et al., Med. Phys. 3839 (2017).
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Summary
Reviewed TG-51 protocol – problems and reasons to update
Review of addendum published April 2014
- As expected, impact has been minor
Much wider revision for electron beams
- Just use cylindrical chambers
- No cross-calibration or Pgr
- Updated, accurate kQ factors
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Simplified (more like photons) to make life easier, reduce errors!
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Thank you
Bryan R. Muir
Research Officer
Tel: (613) 993-2715 x239
www.nrc-cnrc.gc.ca
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