Characterization of the IMRT and SBRT Performance of a Novel Biology-Guided Radiotherapy (BgRT) Machine Using ArcCHECK
AAPM ePoster Library. Narayanan M. 07/12/20; 302097; PO-GeP-T-175
Topic: Photon Therapy - SBRT/SRS
Dr. Manoj Narayanan
Contributions
Contributions
Abstract
Poster Number: PO-GeP-T-175
Abstract ID: 52239
Characterization of the IMRT and SBRT Performance of a Novel Biology-Guided Radiotherapy (BgRT) Machine Using ArcCHECK
D Zaks1, M Narayanan2*, R Bassalow3, O Volotskova4, Y Voronenko5, D Pal6, D Rigie7, J Burns8, A Purwar9, P Olcott10, G Kuduvalli11, (1) RefleXion Medical, Hayward, CA, (2) Reflexion Medical, Hayward, CA, (3) Northwest Medical Physics , Silverdale, WA, (4) Sutter Health Berkeley, CA, (5) RefleXion Medical, Hayward, CA, (6) GE Healthcare, Menlo Park, CA, (7) Reflexion Medical, Hayward, CA, (8) Reflexion Medical, Hayward, CA, (9) RefleXion Medical, Hayward, CA, (10) Reflexion Medical, Hayward, CA, (11) Reflexion Medical, Hayward, CA
Therapy General ePoster
Category: Scientific:Therapy Physics:Photon Therapy - SBRT/SRS:Treatment Delivery Techniques and Novel Applications
Purpose: To characterize the IMRT and SBRT performance of the RefleXion™ X1 biology-guided radiotherapy (BgRT) machine using the ArcCHECK (AC) dosimetry device.
Methods: Plans were first generated on the accompanying X1 TPS using CT simulation images of custom inserts designed for use with the AC. The custom inserts represented targets or OARs positioned at specific locations and included a 22 mm diameter sphere and a c-shape target with 26mm axial length with 255° partial annulus with major and minor radii of 27 mm and 12 mm, respectively. The background material in the insert was either a homogenous water medium or a water filled heterogeneous medium with a Styrofoam mesh simulating lung tissue surrounding the target.
A variety of combinations of homogenous and heterogenous inserts and custom target/OARs were used for the experiments, as follows: homogenous insert with a spherical target, homogenous insert with two targets: spherical target + C-shaped target, homogenous insert with C-shaped target, and heterogenous insert with a spherical target.
After dose delivery, the AC software was used to compare the diode dose readings with the DICOM RTDose output of the X1 TPS to determine the accuracy of dose delivery using the Gamma Index, as demonstrated by the Gamma Passing rate (GP).
Results: The following is a representative sample of 5 test cases and the corresponding GP result; 1) C-shape, homogenous insert, 2Gy, GP = 93.4%, 2) C-shape, homogenous insert, 10Gy, GP = 91.0% 3) Sphere, homogenous insert, 10Gy, GP = 99.4% 4) Sphere, heterogenous insert, 10Gy, GP = 96.9% and 5) C-shape + Sphere, homogenous insert, 10Gy, GP = 98.0%.
Conclusion: All IMRT and SBRT test cases met or exceeded the Gamma Index passing rate of at least 90% of the measurement points met or exceeded the 3%/3 mm criteria.
Taxonomy:TH- External Beam- Photons: Development (new technology and techniques)
Keywords: acceptance testing,treatment techniques,quality assurance,
Abstract ID: 52239
Characterization of the IMRT and SBRT Performance of a Novel Biology-Guided Radiotherapy (BgRT) Machine Using ArcCHECK
D Zaks1, M Narayanan2*, R Bassalow3, O Volotskova4, Y Voronenko5, D Pal6, D Rigie7, J Burns8, A Purwar9, P Olcott10, G Kuduvalli11, (1) RefleXion Medical, Hayward, CA, (2) Reflexion Medical, Hayward, CA, (3) Northwest Medical Physics , Silverdale, WA, (4) Sutter Health Berkeley, CA, (5) RefleXion Medical, Hayward, CA, (6) GE Healthcare, Menlo Park, CA, (7) Reflexion Medical, Hayward, CA, (8) Reflexion Medical, Hayward, CA, (9) RefleXion Medical, Hayward, CA, (10) Reflexion Medical, Hayward, CA, (11) Reflexion Medical, Hayward, CA
Therapy General ePoster
Category: Scientific:Therapy Physics:Photon Therapy - SBRT/SRS:Treatment Delivery Techniques and Novel Applications
Purpose: To characterize the IMRT and SBRT performance of the RefleXion™ X1 biology-guided radiotherapy (BgRT) machine using the ArcCHECK (AC) dosimetry device.
Methods: Plans were first generated on the accompanying X1 TPS using CT simulation images of custom inserts designed for use with the AC. The custom inserts represented targets or OARs positioned at specific locations and included a 22 mm diameter sphere and a c-shape target with 26mm axial length with 255° partial annulus with major and minor radii of 27 mm and 12 mm, respectively. The background material in the insert was either a homogenous water medium or a water filled heterogeneous medium with a Styrofoam mesh simulating lung tissue surrounding the target.
A variety of combinations of homogenous and heterogenous inserts and custom target/OARs were used for the experiments, as follows: homogenous insert with a spherical target, homogenous insert with two targets: spherical target + C-shaped target, homogenous insert with C-shaped target, and heterogenous insert with a spherical target.
After dose delivery, the AC software was used to compare the diode dose readings with the DICOM RTDose output of the X1 TPS to determine the accuracy of dose delivery using the Gamma Index, as demonstrated by the Gamma Passing rate (GP).
Results: The following is a representative sample of 5 test cases and the corresponding GP result; 1) C-shape, homogenous insert, 2Gy, GP = 93.4%, 2) C-shape, homogenous insert, 10Gy, GP = 91.0% 3) Sphere, homogenous insert, 10Gy, GP = 99.4% 4) Sphere, heterogenous insert, 10Gy, GP = 96.9% and 5) C-shape + Sphere, homogenous insert, 10Gy, GP = 98.0%.
Conclusion: All IMRT and SBRT test cases met or exceeded the Gamma Index passing rate of at least 90% of the measurement points met or exceeded the 3%/3 mm criteria.
Taxonomy:TH- External Beam- Photons: Development (new technology and techniques)
Keywords: acceptance testing,treatment techniques,quality assurance,
Poster Number: PO-GeP-T-175
Abstract ID: 52239
Characterization of the IMRT and SBRT Performance of a Novel Biology-Guided Radiotherapy (BgRT) Machine Using ArcCHECK
D Zaks1, M Narayanan2*, R Bassalow3, O Volotskova4, Y Voronenko5, D Pal6, D Rigie7, J Burns8, A Purwar9, P Olcott10, G Kuduvalli11, (1) RefleXion Medical, Hayward, CA, (2) Reflexion Medical, Hayward, CA, (3) Northwest Medical Physics , Silverdale, WA, (4) Sutter Health Berkeley, CA, (5) RefleXion Medical, Hayward, CA, (6) GE Healthcare, Menlo Park, CA, (7) Reflexion Medical, Hayward, CA, (8) Reflexion Medical, Hayward, CA, (9) RefleXion Medical, Hayward, CA, (10) Reflexion Medical, Hayward, CA, (11) Reflexion Medical, Hayward, CA
Therapy General ePoster
Category: Scientific:Therapy Physics:Photon Therapy - SBRT/SRS:Treatment Delivery Techniques and Novel Applications
Purpose: To characterize the IMRT and SBRT performance of the RefleXion™ X1 biology-guided radiotherapy (BgRT) machine using the ArcCHECK (AC) dosimetry device.
Methods: Plans were first generated on the accompanying X1 TPS using CT simulation images of custom inserts designed for use with the AC. The custom inserts represented targets or OARs positioned at specific locations and included a 22 mm diameter sphere and a c-shape target with 26mm axial length with 255° partial annulus with major and minor radii of 27 mm and 12 mm, respectively. The background material in the insert was either a homogenous water medium or a water filled heterogeneous medium with a Styrofoam mesh simulating lung tissue surrounding the target.
A variety of combinations of homogenous and heterogenous inserts and custom target/OARs were used for the experiments, as follows: homogenous insert with a spherical target, homogenous insert with two targets: spherical target + C-shaped target, homogenous insert with C-shaped target, and heterogenous insert with a spherical target.
After dose delivery, the AC software was used to compare the diode dose readings with the DICOM RTDose output of the X1 TPS to determine the accuracy of dose delivery using the Gamma Index, as demonstrated by the Gamma Passing rate (GP).
Results: The following is a representative sample of 5 test cases and the corresponding GP result; 1) C-shape, homogenous insert, 2Gy, GP = 93.4%, 2) C-shape, homogenous insert, 10Gy, GP = 91.0% 3) Sphere, homogenous insert, 10Gy, GP = 99.4% 4) Sphere, heterogenous insert, 10Gy, GP = 96.9% and 5) C-shape + Sphere, homogenous insert, 10Gy, GP = 98.0%.
Conclusion: All IMRT and SBRT test cases met or exceeded the Gamma Index passing rate of at least 90% of the measurement points met or exceeded the 3%/3 mm criteria.
Taxonomy:TH- External Beam- Photons: Development (new technology and techniques)
Keywords: acceptance testing,treatment techniques,quality assurance,
Abstract ID: 52239
Characterization of the IMRT and SBRT Performance of a Novel Biology-Guided Radiotherapy (BgRT) Machine Using ArcCHECK
D Zaks1, M Narayanan2*, R Bassalow3, O Volotskova4, Y Voronenko5, D Pal6, D Rigie7, J Burns8, A Purwar9, P Olcott10, G Kuduvalli11, (1) RefleXion Medical, Hayward, CA, (2) Reflexion Medical, Hayward, CA, (3) Northwest Medical Physics , Silverdale, WA, (4) Sutter Health Berkeley, CA, (5) RefleXion Medical, Hayward, CA, (6) GE Healthcare, Menlo Park, CA, (7) Reflexion Medical, Hayward, CA, (8) Reflexion Medical, Hayward, CA, (9) RefleXion Medical, Hayward, CA, (10) Reflexion Medical, Hayward, CA, (11) Reflexion Medical, Hayward, CA
Therapy General ePoster
Category: Scientific:Therapy Physics:Photon Therapy - SBRT/SRS:Treatment Delivery Techniques and Novel Applications
Purpose: To characterize the IMRT and SBRT performance of the RefleXion™ X1 biology-guided radiotherapy (BgRT) machine using the ArcCHECK (AC) dosimetry device.
Methods: Plans were first generated on the accompanying X1 TPS using CT simulation images of custom inserts designed for use with the AC. The custom inserts represented targets or OARs positioned at specific locations and included a 22 mm diameter sphere and a c-shape target with 26mm axial length with 255° partial annulus with major and minor radii of 27 mm and 12 mm, respectively. The background material in the insert was either a homogenous water medium or a water filled heterogeneous medium with a Styrofoam mesh simulating lung tissue surrounding the target.
A variety of combinations of homogenous and heterogenous inserts and custom target/OARs were used for the experiments, as follows: homogenous insert with a spherical target, homogenous insert with two targets: spherical target + C-shaped target, homogenous insert with C-shaped target, and heterogenous insert with a spherical target.
After dose delivery, the AC software was used to compare the diode dose readings with the DICOM RTDose output of the X1 TPS to determine the accuracy of dose delivery using the Gamma Index, as demonstrated by the Gamma Passing rate (GP).
Results: The following is a representative sample of 5 test cases and the corresponding GP result; 1) C-shape, homogenous insert, 2Gy, GP = 93.4%, 2) C-shape, homogenous insert, 10Gy, GP = 91.0% 3) Sphere, homogenous insert, 10Gy, GP = 99.4% 4) Sphere, heterogenous insert, 10Gy, GP = 96.9% and 5) C-shape + Sphere, homogenous insert, 10Gy, GP = 98.0%.
Conclusion: All IMRT and SBRT test cases met or exceeded the Gamma Index passing rate of at least 90% of the measurement points met or exceeded the 3%/3 mm criteria.
Taxonomy:TH- External Beam- Photons: Development (new technology and techniques)
Keywords: acceptance testing,treatment techniques,quality assurance,
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