Machine Learning Based Oxygen and Carbon Concentration Derivation Using Dual-Energy CT for PET-Based Dose Verification in Proton Therapy

被引:0
|
作者
Liu, Y. [1 ]
Zhou, L. [2 ]
PENG, H. [1 ,3 ]
Jia, M. [4 ]
机构
[1] Wuhan Univ, Wuhan 430072, Peoples R China
[2] Zhejiang Univ, Sir Run Run Shaw Hosp, Dept Radiol, Sch Med, Hangzhou, Peoples R China
[3] ProtonSmart Ltd, Wuhan 430072, Peoples R China
[4] Tianjin Univ, Tianjin 300072, Peoples R China
来源
MEDICAL PHYSICS | 2022年 / 49卷 / 06期
关键词
D O I
暂无
中图分类号
R8 [特种医学]; R445 [影像诊断学];
学科分类号
1002 ; 100207 ; 1009 ;
摘要
SU-J-BRC-0
引用
收藏
页码:E221 / E221
页数:1
相关论文
共 50 条
  • [31] Sensitivity Analysis of Biological Washout and Depth Selection for a Machine Learning-Based Dose Verification Framework in Proton Therapy
    Yu, S.
    Liu, Y.
    PENG, H.
    Jia, M.
    MEDICAL PHYSICS, 2022, 49 (06) : E501 - E502
  • [32] TPSPET-A TPS-based approach for in vivo dose verification with PET in proton therapy
    Frey, K.
    Bauer, J.
    Unholtz, D.
    Kurz, C.
    Kraemer, M.
    Bortfeld, T.
    Parodi, K.
    PHYSICS IN MEDICINE AND BIOLOGY, 2014, 59 (01): : 1 - 21
  • [33] Feasibility Study of Using a Dual-Energy Cone Beam CT (DECBCT) in Proton Therapy Treatment Planning
    Peng, H.
    Kanehira, T.
    Takao, S.
    Matsuura, T.
    Umegaki, K.
    Shirato, H.
    Xing, L.
    MEDICAL PHYSICS, 2016, 43 (06) : 3457 - 3458
  • [34] Experimental validation of two dual-energy CT methods for proton therapy using heterogeneous tissue samples
    Bair, Esther
    Lalonde, Arthur
    Zhang, Rongxiao
    Jee, Kyung-Wook
    Yang, Kai
    Sharp, Gregory
    Liu, Bob
    Royle, Gary
    Bouchard, Hugo
    Lu, Hsiao-Ming
    MEDICAL PHYSICS, 2018, 45 (01) : 48 - 59
  • [35] TPSPET - A TPS-Based Approach for In-Vivo Dose Verification with PET in Proton Therapy
    Frey, K.
    Bauer, J.
    Unholtz, D.
    Kurz, C.
    Kraemer, M.
    Bortfeld, T.
    Parodi, K.
    MEDICAL PHYSICS, 2013, 40 (06)
  • [36] Reducing radiation dose in routine CT scans: an AI-driven approach with deep learning–based dual-energy CT reconstruction
    Enming Cui
    European Radiology, 2024, 34 : 26 - 27
  • [37] Improving CT calibration for proton range prediction by dual-energy CT based patient-cohort analysis
    Wohlfahrt, P.
    Moehler, C.
    Enghardt, W.
    Krause, M.
    Troost, E. G. C.
    Greilich, S.
    Richter, C.
    RADIOTHERAPY AND ONCOLOGY, 2018, 127 : S43 - S44
  • [38] Deep learning-based virtual noncontrast CT for volumetric modulated arc therapy planning: Comparison with a dual-energy CT-based approach
    Koike, Yuhei
    Ohira, Shingo
    Akino, Yuichi
    Sagawa, Tomohiro
    Yagi, Masashi
    Ueda, Yoshihiro
    Miyazaki, Masayoshi
    Sumida, Iori
    Teshima, Teruki
    Ogawa, Kazuhiko
    MEDICAL PHYSICS, 2020, 47 (02) : 371 - 379
  • [39] Clinical use of dual-energy CT for proton treatment planning to reduce CT-based range uncertainties
    Wohlfahrt, P.
    Moehler, C.
    Jakobi, A.
    Baumann, M.
    Enghardt, W.
    Krause, M.
    Greilich, S.
    Richter, C.
    RADIOTHERAPY AND ONCOLOGY, 2016, 119 : S70 - S71
  • [40] Influence of intravenous contrast agent on dose calculation in proton therapy using dual energy CT
    Lalonde, Arthur
    Xie, Yunhe
    Burgdorf, Brendan
    O'Reilly, Shannon
    Ingram, William Scott
    Yin, Lingshu
    Zou, Wei
    Dong, Lei
    Bouchard, Hugo
    Teo, Boon-Ken Kevin
    PHYSICS IN MEDICINE AND BIOLOGY, 2019, 64 (12):
12345