TPS and EPID: TPS and EPID: Connecting the dots Connecting the dots Yun Inn Tan 1,2,3 , Martin Glegg 1 , Mohamed Metwaly 1 , Alex Elliott 2 1 Radiotherapy Physics, Department of Clinical Physics & Bioengineering 2 University of Glasgow 3 National University Cancer Institute, Singapore
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TPS and EPID - Scottish+ Radiotherapy Physics Meeting 2012 · 2019-08-12 · TPS and EPID: Connecting the dots Yun Inn Tan 1,2,3, Martin Glegg 1, Mohamed Metwaly 1, Alex Elliott 2
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TPS and EPID: TPS and EPID: Connecting the dotsConnecting the dots
Yun Inn Tan1,2,3, Martin Glegg1, Mohamed Metwaly1, Alex Elliott2
1 Radiotherapy Physics, Department of Clinical Physics & Bioengineering 2 University of Glasgow
3 National University Cancer Institute, Singapore
AimAim
Prove of concept for a new EPID dosimetry model
•Transit method
•Generalised model
•Predict dose at EPID plane and at phantom/patient exit plane
Quadratic EquationQuadratic Equation
• (i,j) is the coordinate of pixel
• M is exit dose fluence
• M0 is entrance dose fluence
• T is thickness
• A and B are fitting coefficients
EPID CommissioningEPID Commissioning• Position solid water phantom at isocentre
(T=0,5,10,15,20,25,30,35cm)
• Reference beam: 6MV, 100MU, SAD 100cm, FS20cm2
• Image captured with Elekta and Varian EPID
M0 M
TPS CommissioningTPS Commissioning
IsoT
M0
M
SAD100cm
• Create virtual phantom in Eclipse and Xio
(T=0,5,10,15,20,25,30,35cm)
• Reference beam: 6MV, 100MU, SAD 100cm, FS20cm2
• Export dose planes M0 and M
Quadratic EquationQuadratic Equation
• (i,j) is the coordinate of pixel
• M is exit dose fluence
• M0 is entrance dose fluence
• T is thickness
• A and B are fitting coefficients
Relating EPID and TPSRelating EPID and TPS
EPID TPS
Common parameter T, Physical Thickness
(M/M0)(M/M0)EPIDEPID as a function of Tas a function of T
Physical Thickness (T)
0cm 5cm 10cm 15cm 20cm 25cm 30cm 35cm
Predict Predict MMEPIDEPID
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EPLTPS matrix of an object calculated from TPS M and M0
(M/M0)EPID for an object
(M/M0)EPID
(M/M0)EPID
(M/M0)EPID
(M/M0)EPID
(M/M0)EPID
(M/M0)EPID
(M/M0)EPID
(M/M0)EPID
M0
M
MEPID (OBJECT) = * M0EPID
•Compare MEPID (OBJECT) with EPID measured to verify accuracy of delivery
Predict Predict MMEPIDEPID
(M/M0)EPID
(M/M0)EPID
(M/M0)EPID
(M/M0)EPID
(M/M0)EPID
(M/M0)EPID
(M/M0)EPID
(M/M0)EPID
(M/M0)(M/M0)TPSTPS as a function of Tas a function of T
Physical Thickness (T)
0cm 5cm 10cm 15cm 20cm 25cm 30cm 35cm
Predict MPredict MTPS,exitTPS,exit
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EPLEPID matrix of an object calculated from EPID fluence
(M/M0)TPS for an object
(M/M0)TPS
(M/M0)TPS
(M/M0)TPS
(M/M0)TPS
(M/M0)TPS
(M/M0)TPS
(M/M0)TPS
(M/M0)TPS
Predict MPredict MTPSTPS (dose at Exit plane)(dose at Exit plane)
MTPS (OBJECT) = * M0TPS
•Compare MTPS (OBJECT) with TPS calculated dose at exit level to verify accuracy of delivery