Dosimetry Electron Beams - International Centre for...
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Dosimetry: Electron Beams
G. Hartmann EFOMP & German Cancer Research Center (DKFZ)
ICTP SChool On MEdical PHysics For RAdiation THerapy:
DOsimetry And TReatment PLanning For BAsic And ADvanced APplications
13 - 24 April 2015 Miramare, Trieste, Italy
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Content:
1. Dosimetry equipment
2. Calibration procedure
3. Correction factors
4. The radiation quality correction factor kQ : Determination & Calculation
5. Depth of measurement: at reference depth & at depth of maximum dose
6. Cross calibration
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1. Dosimetry Equipment Ionization chambers
Types of chambers used:
q Cylindrical (also called thimble) chambers are used in calibration of: • (Orthovoltage x-ray beams) • Megavoltage x-ray beams • Electron beams with energies
of 10 MeV and above
air-filled measuring volume
central electrode
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1. Dosimetry Equipment Ionization chambers
Types of chambers used:
q Parallel-plate (also called end window or plane-parallel) chambers are used :
• for the calibration of superficial x-ray beams
• for the calibration of electron beams with energies below 10 MeV
• for dose measurements in photon beams in the buildup region and surface dose
guard ring
back electrode
air-filled measuring volume
front electrode
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Plane Parallel Chambers Cylindrical Chambers
Farmer-Chamber
1. Dosimetry Equipment Ionization chambers
Roos-Chamber
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1. Dosimetry Equipment
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1. Dosimetry Equipment Electrometer, ioniation camber and radioactive check source
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1. Dosimetry Equipment Electrometer plus connectors
From the PTW Catalogue: "Ionizing Radiation Detectors" "The following overview of connecting systems facilitates the identification of a variety of adequate connectors"
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1. Dosimetry Equipment Phantoms
Water Phantoms
Solid Phantoms
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1. Dosimetry Equipment Phantoms
Pease note: q Water is always recommended in the IAEA Codes of Practice as
the phantom material for the calibration of megavoltage photon and electron beams.
q The phantom should extend to at least 5 cm beyond all four sides of the largest field size employed at the depth of measurement.
q There should also be a margin of at least 5 g/cm2 beyond the maximum depth of measurement except for medium energy X rays in which case it should extend to at least 10 g/cm2.
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Solid (plastic) phantom: Please note: In spite of their increasing popularity, the use of plastic phantoms is strongly discouraged for reference measurements. In general such measurements are responsible for the largest discrepancies in the determination of absorbed dose for most beam types.
1. Dosimetry Equipment Phantoms for measurements
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Solid (plastic) phantom:
1. Dosimetry Equipment Phantoms for measurements
Several disadvantages because a plastic phantom requires: • scaling of depth: zw = zpl cpl
• scaling of dosimeter
reading MQ,pl : MQ = MQ,pl hpl
where cpl is a depth scaling factor
hpl is a fluence scaling factor
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1. Dosimetry Equipment Phantoms for measurements
Values from TRS 398 for cpl and hpl
Note: The high uncertainty associated with hpl is the main reason for avoiding the use of plastic phantoms.
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2. Calibration procedure General formula
is the chamber reading in beam of quality Q and corrected for influence quantities to the reference conditions used in the standards laboratory.
is the water dose calibration coefficient provided by the standards laboratory for reference beam quality Qo.
is a factor correcting for the differences between the reference beam quality Qo and the actual user quality Q.
OQM
,, OD w QN
oQ,Qk
o ow,Q Q D,w,Q Q,Q D M N k=
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2. Calibration procedure Positioning of the ionization chamber in water
Positioning can be defined as the adjustment of the reference point of a chamber with respect to the measuring depth. Positioning of the reference point of a cylindrical chamber according to the International Code of Practice of the IAEA, TRS 398:
Purpose Beam calibration Depth dose measurement
Co-60 at measuring depth 0.6 r deeper than measuring depth
HE photons at measuring depth 0.6 r deeper than measuring depth
HE electrons 0.5 r deeper than measuring depth
0.5 r deeper than measuring depth
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Positioning of the reference point of a plane parallel chamber according to the International Code of Practice of the IAEA, TRS 398:
Purpose Beam calibration Depth dose measurement
Co-60 HE photons always at measuring depth HE electrons
2. Calibration procedure Positioning of the ionization chamber in water
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depth of measurement
Positioning for high energy electrons
cylindrical chamber plane-parallel chamber
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3. Correction factors
q If the chamber is used under conditions that differ from
the reference conditions, then the measured charge must be corrected for the influence quantities by so-called influence correction factors k.
q The three most import correction factors are:
• kT,P for air density
• kpol for polarity effects
• ksat for missing saturation effects
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4. The beam quality correction factor
q Frequently, the reference quality Qo used for the calibration of ionization chambers is the cobalt-60 gamma radiation and the symbol kQ is then normally used to designate the beam quality correction factor:
QoQ,k 60-CoQ,k= Qk=
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Determination of radiation quality correction factor kQ
Beam quality index
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Determination of the quality index for HE electrons
Definition of the quality parameter Q for HE photons • The quality parameter used for megavoltage electron beam
specification is commonly based upon the half-value depth in water, R50
The unit of R50 is gcm-2
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Determination of the quality index for HE electrons
Definition of the quality parameter Q for HE photons according TRS 398:
• R50 is measured with - a constant SSD of 100 cm - a field size at the phantom surface of
at least 10 cm x 10 cm for R50 ≤ 7 g cm-2 (E0 < 16 MeV) at least 20 cm x 20 cm for R50 > 7 g cm-2 (E0 ≤ 16 MeV).
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Determination of the quality index for HE electrons
Measurement of R50: • Problem:
The measurement with an ionization chamber yields an ionization-depth curve (dose in air), not a dose-depth curve.
• Dose in water would be: however, is dependent on energy, and hence on the depth
18 MeV
depth / cm0 2 4 6 8 10 12 14 16
PD
D
0
20
40
60
80
100
depth- ionization curve
depth- dose curve
,( ) w airw airD P D s p= ⋅ ⋅
,w airs
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Determination of the quality index for HE electrons
Solution of this problem: • The half-value of the depth-dose distribution in water R50 can be
obtained directly from measured depth ionization curves using:
R50 = 1.029 R50,ion - 0.06 g cm-2 (R50,ion ≤ 10 g cm-2)
R50 = 1.059 R50,ion - 0.37 g cm-2 (R50,ion > 10 g cm-2)
• As an alternative to the use of an ionization chamber, other detectors (for example diode, diamond, etc.) may be used to determine R50.
• In this case the user must verify that the detector is suitable for depth-dose measurements by test comparisons with an ionization chamber at a set of representative beam qualities.
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The values kQ tabulated in TRS 398 have been obtained by calculation.
Calculation of kQ
,
00
0,
w air
w air
QQ Q
W s pekW s pe
⎛ ⎞ ⋅ ⋅⎜ ⎟⎝ ⎠=⎛ ⎞ ⋅ ⋅⎜ ⎟⎝ ⎠
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5. Reference depth for HE electrons
A further reference condition for HE elctrons: • The values of are valid only if the calibration measurement
is performed at the reference depth zref
• zref is energy dependent, and obtained by: zref = 0.6 R50 - 0.1 g cm-2 (R50 in g cm-2)
• This depth is close to the depth of the absorbed-dose maximum zmax at beam qualities R50 < 4 g cm-2 (E0 <10 MeV), but at higher beam qualities is deeper than zmax.
Qk
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Absorbed dose at zmax for HE electrons
Frequently, the basic output for an electron beam is wanted to be obtained at zmax.
• This again requires the determination of a depth dose curve.
• A depth dose curve has to be converted from a measured depth ionization curve.
• The conversion is performed by multiplying the depth ionization curve with the depth dependent water to air stopping power ratio adjusted to the beam quality of the electron beam.
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Absorbed dose at zmax for HE electrons
This is the depth dependent water to air stopping power ratio adjusted to the beam quality of the electron beam:
• with x = ln(R50/cm), and y = z / R50
a = 1,0752 b = -0,50867 c = 0,08867 d = -0,08402 e = -0,42806 f = 0,06463 g = 0,003085 h = -0,1246
( )2
2 31,w aa bx cx dys zex fx gx hy
Δ + + +=
+ + + +
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6. Cross calibration in electron beams Concept
q What is a cross-calibration of an ionization chamber? • Cross-calibration refers to the calibration of a user chamber by
direct comparison in a suitable user beam against a reference chamber that has previously been calibrated.
• A particular example is the cross-calibration of a plane-parallel chamber for use in electron beams against a reference cylindrical chamber calibrated in 60Co gamma radiation.
• Despite the additional step, such a cross-calibration generally results in a determination of absorbed dose to water using the plane-parallel chamber that is more reliable than that achieved by the use of a plane-parallel chamber calibrated directly in 60Co
• The main reason is: problems associated with the pwall correction for plane-parallel chambers in 60Co, entering into the determination of kQ, are avoided.
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Uncertainty of Calibration for High Energy Electrons (from the International Code of Practice TRS 398)
cylindrical plane-parallel
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6. Cross calibration in electron beams Cross-calibration procedure
q The highest-energy electron beam available should be used; Eo > 16 MeV is recommended. Note: This is now the calibration quality!
q The reference chamber and the chamber to be calibrated are compared by alternately positioning each at the reference depth zref in water
q The calibration factor in terms of absorbed dose to water for the chamber under calibration, at the cross-calibration quality Qcross, is then given by:
, , , , ,cross
cross o cross o
cross
refQx ref ref
D w Q Dw Q Q QxQ
MN N k
M=
, , cross
xDw QN
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6. Cross calibration in electron beams Cross-calibration procedure
Such equations require some exercise for reading. However, when applied to an example, they can be “translated” Example: chamber to be cross calibrated: plane-parallel Roos chamber cross calibrated against: cylindrical Farmer chamber cross calibration performed at an electron energy of 18 MeV
, , , , ,cross
cross o cross o
cross
refQx ref ref
D w Q Dw Q Q QxQ
MN N k
M=
Farmer18MeVRoos Farmer Farmer
, ,18MeV , 18MeVRoos18MeV
Dw DwM
N N kM
=
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6. Cross calibration in electron beams Cross-calibration procedure
q Subsequent use of a cross-calibrated chamber • The cross-calibrated chamber with calibration factor
may be used subsequently for the determination of absorbed dose in a user beam of quality Q using the basic equation:
• The values for are derived using the procedure: where and are given in TRS 398, Table 19.
, , cross
xDw QN
, , , ,cross cross
x x xw Q Q Dw Q QQD M N k= ⋅ ⋅
, cross
xQQk
int
int
,,
,cross
cross
xQ Qx
QQ xQ Q
kk
k=
int,cross
xQ Qk
int,xQQk
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Summary: Beam Calibration of Electron Beams TRS 398
1) Cylindrical chambers are used in the calibration of electron beams at energies of 10 MeV and above; Parallel-plate chambers are used below 10 MeV
2) The “mother” of any calibration equation is:
3) The most important correction factors to be applied to the measured charge are:
• kT,P for air density • kpol for polarity effects
• ksat for missing saturation effects
o ow,Q Q D,w,Q Q,Q D M N k=
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Summary: Beam Calibration of Electron Beams TRS 398
4) Quality correction factors are tabulated in TRS 398. kQ can be calculated as:
5) Measurement have to be performed at energy dependent reference depths: zref = 0.6 R50 - 0.1 g cm-2 (R50 in g cm-2)
6) Cross calibration is used for plane-parallel chambers in electron dosimetry to reduce the uncertainty of the resultant absorbed dose to water
,
00
0,
w air
w air
QQ Q
W s pekW s pe
⎛ ⎞ ⋅ ⋅⎜ ⎟⎝ ⎠=⎛ ⎞ ⋅ ⋅⎜ ⎟⎝ ⎠