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Journal articles on the topic 'Acuros'

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Author: Grafiati
Published: 10 December 2022
Last updated: 28 January 2023

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1

Krabch, Mohammed El Adnani, Abdelouahed Chetaine, Abdelati Nourreddine, Fatim Zohra Er-Radi, and Laila Baddouh. "Comparative study between Acuros XB algorithm and Anisotropic Analytical Algorithm in the case of heterogeneity for the treatment of lung cancer." Polish Journal of Medical Physics and Engineering 24, no. 3 (September 1, 2018): 115–19. http://dx.doi.org/10.2478/pjmpe-2018-0016.

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Abstract The aim of this study was to investigate the impact of heterogeneity on the dose calculation for two algorithms implemented in the TPS “Analytical Anisotropic Algorithm (AAA) and Acuros XB” and validated the use of Acuros XB algorithm in clinical routine. First, we compare the dose calculated by these algorithms and the dose measured at the given point P, which is found after heterogeneity insert. Second, we extend our work on clinical cases that present a complex heterogeneity. By evaluating the impact of the choice of the algorithm on the dose coverage of the tumor, and the dose received by the organs at risk for 20 patients affected by lung cancer. The result of our phantom study showed a good agreement with several studies that showed the superiority of the Acuros XB over the AAA in predicting dose when it concerns heterogeneous media. The treatment plans for 20 lung cancers were calculated by two algorithms AAA and Acuros XB, the results show a statistical significant difference between algorithms for Homogeneity Index and the maximum dose of planning target volume (HI: 0.11±0.01 vs 0.05±0.01 p = 0.04; Dmax: 69.30±3.12 vs 68.51±2.64 p = 0.02). Instead, no statistically significant difference was observed for conformity index CI and mean dose (CI: 0.98±0.18 vs 0.99±0.14 p = 0.33; Dmean: 66.3±0.65 vs 66.10 ±0.61 p = 0.54). For organs at risk, the maximum dose for spinal cord, mean dose and D37 % of lung minus GTV (dose receiving 37% of lung volume) were found to be lower for AAA plans than Acuros XB and the differences were statistically significant (p<0.05). For the heart D33% and D67% were found to be higher for AAA plans than Acuros XB and the differences were statistically significant (p<0.05), but No difference was observed for D100% of the heart. The use of the AXB algorithm is suitable in the case of presence of heterogeneity, because it allows to have a better accuracy close to the Monte Carlo calculation.
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2

Iftimia, Ileana, and Per H. Halvorsen. "Commissioning of the Acuros BV GBBS Algorithm." Brachytherapy 14 (May 2015): S88. http://dx.doi.org/10.1016/j.brachy.2015.02.349.

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3

Zifodya, Jackson M., Cameron H. C. Challens, and Wen-Long Hsieh. "From AAA to Acuros XB-clinical implications of selecting either Acuros XB dose-to-water or dose-to-medium." Australasian Physical & Engineering Sciences in Medicine 39, no. 2 (March 23, 2016): 431–39. http://dx.doi.org/10.1007/s13246-016-0436-z.

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4

de la Llana Granja, Victor, Daniel Martinez, David Miguel, Angel Del Castillo, Carlos Andrés, Monica Gomez, Delfin Alonso, Manuel Agulla, Ricardo Torres, and Jesus De Frutos. "[P224] Analytical anisotropic algorithm vs Acuros algorithm comparison." Physica Medica 52 (August 2018): 165–66. http://dx.doi.org/10.1016/j.ejmp.2018.06.515.

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5

Castrillon, Silvia Vargas, and Francisco Cutanda Henriquez. "Extended CT density range: Acuros XB algorithm performance." Physica Medica 67 (November 2019): 204–5. http://dx.doi.org/10.1016/j.ejmp.2019.09.210.

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6

Szpala, Stanislaw, James Renaud, Bryan R. Muir, Alexandra Bourgouin, Kirpal Kohli, and Malcolm McEwen. "Calorimeter measurements of absolute dose in aluminum, a surrogate of bone, to validate dose-to-medium in Acuros XB." Physics in Medicine & Biology 68, no. 1 (December 29, 2022): 015019. http://dx.doi.org/10.1088/1361-6560/aca869.

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Abstract Objective. While the accuracy of dose calculations in water with Acuros XB is well established, experimental validation of dose in bone is limited. Acuros XB reports both dose-to-medium and dose-to-water, and these values differ in bone, but there are no reports of measurements of validation in bone. This work compares Acuros XB calculations to measurements of absolute dose in aluminum (medium similar to bone). The validity of using selected relative dosimeters in aluminum is also investigated. Approach. A calorimeter with an aluminum core embedded in an aluminum phantom was selected as bone surrogate for the measurement of absolute dose. Matching the medium of the core to the medium of the phantom allowed eliminating the calculation of the conversion between media. The dose was measured at the fixed depth of 3.3 cm in aluminum (∼9 g·cm−2) with 6X, 10X, 6FFF and 10FFF photon beams from a TrueBeam Varian linac. In addition, experimental cross-calibration between water and aluminum was performed for an IBA CC13 ionization chamber, a PTW microDiamond and EBT3 Gafchromic film. Main results. Calculations with Acuros XB dose-to-medium in aluminum differed from the calorimetry data by −2.8% to −3.5%, depending on the beam. Use of dose-to-water would have resulted in about 39% discrepancy. The cross calibration coefficient between water and aluminum yielded values of about 0.87 for the CC13 chamber, 0.91 for the microDiamond, and 0.88 for the film, and independent of the beam within about ±1%. Significance. It was demonstrated the value of the dose-to-medium in aluminum (surrogate of bone) computed with Acuros XB is close to the value of the absolute dose measured with a calorimeter, and there is a significant discrepancy when dose-to-water is used instead. The use of an ionization chamber, a microDiamond and Gafchromic film in aluminum required a considerable correction from calibration in water.
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7

Jurado-Bruggeman, D., C. Muñoz-Montplet, I. Romera-Martínez, and S. Agramunt-Chaler. "PO-0823: Acuros XB algorithm sensitivity to Hounsfield Units." Radiotherapy and Oncology 111 (2014): S69. http://dx.doi.org/10.1016/s0167-8140(15)30941-5.

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8

Montplet, C. Munoz, S. Agramunt Chaler, D. Jurado Bruggeman, M. Bueno, and M. A. Duch. "EP-1343 DOSIMETRIC VALIDATION OF ACUROS XB IN WATER." Radiotherapy and Oncology 103 (May 2012): S510. http://dx.doi.org/10.1016/s0167-8140(12)71676-6.

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9

Yan, Chenyu, Anthony G. Combine, Greg Bednarz, Ronald J. Lalonde, Bin Hu, Kathy Dickens, Raymond Wynn, Daniel C. Pavord, and M. Saiful Huq. "Clinical implementation and evaluation of the Acuros dose calculation algorithm." Journal of Applied Clinical Medical Physics 18, no. 5 (August 20, 2017): 195–209. http://dx.doi.org/10.1002/acm2.12149.

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10

Bouyer, C., M. Fargier-Voiron, and A. Beneux. "13. Comparison of algorithms AAA and Acuros (AxB) on heterogenous medium." Physica Medica 44 (December 2017): 7–8. http://dx.doi.org/10.1016/j.ejmp.2017.10.038.

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11

Zhen, H., B. Hrycushko, A. Pompoš, R. Foster, Y. Yan, S. Stojadinovic, T. Solberg, and X. Gu. "Evaluation of Acuros XB for SAbR Planning of Thoracic Spinal Tumors." International Journal of Radiation Oncology*Biology*Physics 87, no. 2 (October 2013): S733. http://dx.doi.org/10.1016/j.ijrobp.2013.06.1942.

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12

Chipana, R., A. Arnoul Jarriault, T. Younes, and L. Vieillevigne. "30 Evaluation of Acuros XB dose calculation algorithm in metallic implants." Physica Medica 68 (December 2019): 19. http://dx.doi.org/10.1016/j.ejmp.2019.09.111.

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13

Gardner, Lydia, Prakash Jeevanandam, Denise Irvine, Mark Grattan, and Conor McGarry. "Validating Acuros XB with heterogeneous phantoms: can film orientation have an impact?" Physica Medica 84 (April 2021): 296. http://dx.doi.org/10.1016/j.ejmp.2021.01.035.

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14

Park, Jung-ho. "Acuros XB for Dose Calculations in External Beam Photon Radiotherapy-Mini Review." Trends Journal of Sciences Research 1, no. 1 (December 30, 2014): 26–27. http://dx.doi.org/10.31586/radiotherapy.0101.04.

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15

Bueno, M., M. A. Duch, D. Jurado-Bruggeman, S. Agramunt-Chaler, and C. Muñoz-Montplet. "Experimental verification of Acuros XB in the presence of lung-equivalent heterogeneities." Radiation Measurements 106 (November 2017): 357–60. http://dx.doi.org/10.1016/j.radmeas.2017.01.006.

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16

Chipana, R., T. Younes, and L. Vieillevigne. "EP-1750 Evaluation of Acuros XB in the presence of metallic elements." Radiotherapy and Oncology 133 (April 2019): S944. http://dx.doi.org/10.1016/s0167-8140(19)32170-x.

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17

Curran, Allen. "Dose measurement for Acuros XB (AXB) verification for 6 MV photon beams." Physica Medica 30, no. 6 (September 2014): 719–20. http://dx.doi.org/10.1016/j.ejmp.2014.06.015.

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18

Birba, I., S. Zefkili, and L. Bernard. "P34. Configuration, validation and evaluation of the dose calculation algorithm Acuros XB." Physica Medica 32 (December 2016): 381. http://dx.doi.org/10.1016/j.ejmp.2016.11.046.

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19

Rogers, Kevin, Camille Lodwick, Christopher Biggs, Terry Lee, and Daniel Reed. "A Review of Multi-Lumen Breast Brachytherapy for Savi With Acuros Software." Brachytherapy 10 (May 2011): S86. http://dx.doi.org/10.1016/j.brachy.2011.02.168.

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20

Iftimia, Ileana, Andrea B. McKee, and Per Halvorsen. "Comparison of Acuros and TG 43 Dose Calculation for SAVI APBI Treatments." Brachytherapy 16, no. 3 (May 2017): S104. http://dx.doi.org/10.1016/j.brachy.2017.04.200.

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21

Thomas, S., V. Huang, M. Milette, C. Yuen, and T. Teke. "SU-E-T-464: Implementation and Validation of 4D Acuros XB Dose Calculations." Medical Physics 42, no. 6Part19 (June 2015): 3441. http://dx.doi.org/10.1118/1.4924826.

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22

Osbourne, G., and K. Thompson. "PV-089: Transitioning to Acuros XB – Peter MacCallum Cancer Centre radiotherapy planning perspective." Radiotherapy and Oncology 141 (December 2019): S38—S39. http://dx.doi.org/10.1016/s0167-8140(20)30546-6.

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23

Ong, Chloe C. H., Khong Wei Ang, Roger C. X. Soh, Kah Ming Tin, Jerome H. H. Yap, James C. L. Lee, and Christopher M. Bragg. "Dosimetric comparison of peripheral NSCLC SBRT using Acuros XB and AAA calculation algorithms." Medical Dosimetry 42, no. 3 (2017): 216–22. http://dx.doi.org/10.1016/j.meddos.2017.05.005.

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24

Bassi, Sarah, and Elaine Tyner. "6X Acuros algorithm validation in the presence of inhomogeneities for VMAT treatment planning." Reports of Practical Oncology & Radiotherapy 25, no. 4 (July 2020): 539–47. http://dx.doi.org/10.1016/j.rpor.2020.03.018.

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25

Wang, L., K. Bush, L. Xing, and E. Mok. "SU-E-T-531: Verification of Acuros Dose Calculation Accuracy in Lung SBRT." Medical Physics 39, no. 6Part18 (June 2012): 3827. http://dx.doi.org/10.1118/1.4735620.

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26

Mikell, Justin, Oleg Vassiliev, and Firas Mourtada. "Preliminary Results from Commissioning the Heterogeneity-Based Treatment Planning System Brachyvision (BV-Acuros)." Brachytherapy 9 (April 2010): S34. http://dx.doi.org/10.1016/j.brachy.2010.02.033.

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27

Libby, Bruce, Ruben Ter-Antonyan, and Bernard F. Schneider. "Comparison of TG43 to Acuros Dose Calculations for High-Dose-Rate Gynecological Brachytherapy." Brachytherapy 10 (May 2011): S66. http://dx.doi.org/10.1016/j.brachy.2011.02.122.

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28

Kim, Leonard H., Miao Zhang, Roger W. Howell, Ning J. Yue, and Atif J. Khan. "Effect of Radiographic Contrast on Varian Acuros™ Calculations in Breast Balloon Brachytherapy." Brachytherapy 12 (March 2013): S43—S44. http://dx.doi.org/10.1016/j.brachy.2013.01.081.

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29

Mißlbeck, M., and P. Kneschaurek. "Comparison between Acuros XB and Brainlab Monte Carlo algorithms for photon dose calculation." Strahlentherapie und Onkologie 188, no. 7 (April 12, 2012): 599–605. http://dx.doi.org/10.1007/s00066-012-0100-9.

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30

Sekaran, SurekaChandra, Arjunan Manikandan, Biplab Sarkar, and Sujatha Manikandan. "Simple electronic portal imager-based pretreatment quality assurance using Acuros XB: A feasibility study." Journal of Medical Physics 44, no. 4 (2019): 231. http://dx.doi.org/10.4103/jmp.jmp_84_19.

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31

Yan, C., S. Gajdos, A. Ramalingam, M. L. Fromm, J. H. Suh, and P. Xia. "Comparing Collapsed Cone Convolution Algorithm With Acuros and Its Implication on NRG Clinical Trials." International Journal of Radiation Oncology*Biology*Physics 111, no. 3 (November 2021): e146. http://dx.doi.org/10.1016/j.ijrobp.2021.07.597.

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32

Rana, Suresh, Kevin Rogers, Terry Lee, Daniel Reed, and Christopher Biggs. "Dosimetric impact of Acuros XB dose calculation algorithm in prostate cancer treatment using RapidArc." Journal of Cancer Research and Therapeutics 9, no. 3 (2013): 430. http://dx.doi.org/10.4103/0973-1482.119328.

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33

Ojala, Jarkko. "The accuracy of the Acuros XB algorithm in external beam radiotherapy – a comprehensive review." International Journal of Cancer Therapy and Oncology 2, no. 4 (October 24, 2014): 020417. http://dx.doi.org/10.14319/ijcto.0204.17.

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34

Yan, C., T. Combine, K. Dickens, R. Wynn, D. Pavord, and M. Huq. "SU-E-T-67: Clinical Implementation and Evaluation of the Acuros Dose Calculation Algorithm." Medical Physics 41, no. 6Part12 (May 29, 2014): 237. http://dx.doi.org/10.1118/1.4888397.

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35

Simiele, S., R. Fulkerson, J. Micka, and L. DeWerd. "SU-E-T-431: Investigation of BrachyVision™ Acuros™ Using Varian Surface Applicators." Medical Physics 39, no. 6Part16 (June 2012): 3804. http://dx.doi.org/10.1118/1.4735520.

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36

Senkesen, O., E. Goksel, H. Kucucuk, M. Yilmaz, E. Tezcanli, M. Garipagaoglu, and M. Sengoz. "EP-1548: Dosimetric comparison of AAA and Acuros XB algorithms for lung stereotactic radiotherapy." Radiotherapy and Oncology 111 (2014): S183. http://dx.doi.org/10.1016/s0167-8140(15)31666-2.

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37

Khamphan, C., A. Delbaere, A. Chaikh, J. Balosso, and R. Garcia. "EP-1803: Dosimetric and radiobiological validation of Acuros XB algorithm in thoracic radiation therapy." Radiotherapy and Oncology 127 (April 2018): S969. http://dx.doi.org/10.1016/s0167-8140(18)32112-1.

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38

Defraene, G., W. Crijns, B. Vanstraelen, and F. Van den Heuvel. "PD-0277: Verification of Acuros XB and analytical anisotropic algorithm (AAA) in heterogeneous media." Radiotherapy and Oncology 106 (March 2013): S108. http://dx.doi.org/10.1016/s0167-8140(15)32583-4.

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39

Munoz Montplet, C., S. Agramunt Chaler, D. Jurado Bruggeman, I. Romera Martínez, E. Oliva, R. Fuentes, A. Roselló, and C. Auñón. "EP-1429: Dosimetric impact of Acuros XB Dose Calculation Algorithm on lung SBRT treatments." Radiotherapy and Oncology 115 (April 2015): S772—S773. http://dx.doi.org/10.1016/s0167-8140(15)41421-5.

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40

Vieillevigne, L., T. Younes, A. Tournier, P. Graff Cailleaud, C. Massabeau, J. M. Bachaud, and R. Ferrand. "PO-0812: Dosimetric impact of using Acuros algorithm for stereotactic lung and spine treatments." Radiotherapy and Oncology 123 (May 2017): S434—S435. http://dx.doi.org/10.1016/s0167-8140(17)31249-5.

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41

Bush, K., I. M. Gagne, S. Zavgorodni, W. Ansbacher, and W. Beckham. "Dosimetric validation of Acuros®XB with Monte Carlo methods for photon dose calculations." Medical Physics 38, no. 4 (March 29, 2011): 2208–21. http://dx.doi.org/10.1118/1.3567146.

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42

Fogliata, Antonella, Giorgia Nicolini, Alessandro Clivio, Eugenio Vanetti, Pietro Mancosu, and Luca Cozzi. "Dosimetric validation of the Acuros XB Advanced Dose Calculation algorithm: fundamental characterization in water." Physics in Medicine and Biology 56, no. 6 (March 1, 2011): 1879–904. http://dx.doi.org/10.1088/0031-9155/56/6/022.

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43

Fogliata, Antonella, Giorgia Nicolini, Alessandro Clivio, Eugenio Vanetti, Pietro Mancosu, and Luca Cozzi. "Dosimetric validation of the Acuros XB Advanced Dose Calculation algorithm: fundamental characterization in water." Physics in Medicine and Biology 56, no. 9 (April 11, 2011): 2885–86. http://dx.doi.org/10.1088/0031-9155/56/9/2885.

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44

Nic A Bhaird, S., and M. Gilmore. "Dosimetric Impact of Moving to Acuros (AXB) and Dose to Medium for SABR Spine." Clinical Oncology 30, no. 6 (June 2018): e61. http://dx.doi.org/10.1016/j.clon.2018.02.050.

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45

Wang, Adam, Alexander Maslowski, Todd Wareing, Josh Star‐Lack, and Taly Gilat Schmidt. "A fast, linear Boltzmann transport equation solver for computed tomography dose calculation (Acuros CTD )." Medical Physics 46, no. 2 (December 24, 2018): 925–33. http://dx.doi.org/10.1002/mp.13305.

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46

Deshpande, S., S. Naidu, K. N. Chavan, and V. Kannan. "PO-1396: Dosimetric comparison of AAA and Acuros XB algorithm for breast DIBH VMAT treatment." Radiotherapy and Oncology 152 (November 2020): S741—S742. http://dx.doi.org/10.1016/s0167-8140(21)01414-6.

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47

Ambroa Rey, E. M., P. Rodríguez Meijide, M. Pérez Fernández, and M. López Sánchez. "PO-1366: Comparison of Acuros and Anisotropic Analytical Algorithm for dose calculations in VMAT treatments." Radiotherapy and Oncology 152 (November 2020): S725—S726. http://dx.doi.org/10.1016/s0167-8140(21)01385-2.

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48

Cakir, Aydin, and Zuleyha Akgun. "Dosimetric Comparison of Integral Radiation Dose: Anisotropic Analytical Algorithm and Acuros XB in Breast Radiotherapy." International Journal of Medical Physics, Clinical Engineering and Radiation Oncology 08, no. 02 (2019): 57–67. http://dx.doi.org/10.4236/ijmpcero.2019.82006.

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49

Tsuruta, Yusuke, Manabu Nakata, Mitsuhiro Nakamura, Yukinori Matsuo, Kyoji Higashimura, Hajime Monzen, Takashi Mizowaki, and Masahiro Hiraoka. "Dosimetric comparison of Acuros XB, AAA, and XVMC in stereotactic body radiotherapy for lung cancer." Medical Physics 41, no. 8Part1 (July 24, 2014): 081715. http://dx.doi.org/10.1118/1.4890592.

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50

Lamichhane, Narottam, Vivek N. Patel, and Matthew T. Studenski. "Going the distance: validation of Acuros and AAA at an extended SSD of 400 cm." Journal of Applied Clinical Medical Physics 17, no. 2 (March 2016): 63–73. http://dx.doi.org/10.1120/jacmp.v17i2.5913.

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