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  • Proton dose calculation on scatter-corrected CBCT image: Feasibility study for adaptive proton therapy

    2015년 09월호
    Proton dose calculation on scatter-corrected CBCT image: Feasibility study for adaptive proton therapy

    하버드의과대학 메사추세추병원 / 박양균*

  • 출처
    Med Phys
  • 등재일
    2015 Aug
  • 저널이슈번호
    42(8):4449
  • 내용

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    [Abstract]

    PURPOSE:

    To demonstrate the feasibility of proton dose calculation on scatter-corrected cone-beam computed tomographic (CBCT) images for the purpose of adaptive proton therapy.

    METHODS:

    CBCT projection images were acquired from anthropomorphic phantoms and a prostate patient using an on-board imaging system of an Elekta infinity linear accelerator. Two previously introduced techniques were used to correct the scattered x-rays in the raw projection images: uniform scatter correction (CBCTus) and a priori CT-based scatter correction (CBCTap). CBCT images were reconstructed using a standard FDK algorithm and GPU-based reconstruction toolkit. Soft tissue ROI-based HU shifting was used to improve HU accuracy of the uncorrected CBCT images and CBCTus, while no HU change was applied to the CBCTap. The degree of equivalence of the corrected CBCT images with respect to the reference CT image (CTref) was evaluated by using angular profiles of water equivalent path length (WEPL) and passively scattered proton treatment plans. The CBCTap was further evaluated in more realistic scenarios such as rectal filling and weight loss to assess the effect of mismatched prior information on the corrected images.

    RESULTS:

    The uncorrected CBCT and CBCTus images demonstrated substantial WEPL discrepancies (7.3 ± 5.3 mm and 11.1 ± 6.6 mm, respectively) with respect to the CTref, while the CBCTap images showed substantially reduced WEPL errors (2.4 ± 2.0 mm). Similarly, the CBCTap-based treatment plans demonstrated a high pass rate (96.0% ± 2.5% in 2 mm/2% criteria) in a 3D gamma analysis.

    CONCLUSIONS:

    A priori CT-based scatter correction technique was shown to be promising for adaptive proton therapy, as it achieved equivalent proton dose distributions and water equivalent path lengths compared to those of a reference CT in a selection of anthropomorphic phantoms. 

     

    [Author information]

    Park YK1, Sharp GC1, Phillips J1, Winey BA1.

    1Department of Radiation Oncology, Massachusetts General Hospital and Harvard Medical School, Boston, Massachusetts 02114.

     

  • 연구소개
    방사선 치료 당일 CBCT 영상을 이용한 적응 방사선 치료 (ART, adaptive radiation therapy)는 치료기간 중 환자의 해부학적 변화에 따른 방사선량 분포를 추적/평가할 수 있는 첨단 기술입니다. 기존 X선을 이용한 ART에서는 선량분포가 CBCT 영상 품질에 대해 상대적으로 민감하지 않아 지금까지 많은 연구가 이루어져 왔으나, 양성자 치료(proton therapy)에서는 CBCT의 HU정확도에 따라 급격한 선량분포의 오차를 보이기 때문에, CT에 비해 HU의 정확도가 떨어지는 CBCT로는 신뢰할 만한 양성자 선량 분포를 계산할 수 없었습니다. 본 연구에서는 기존에 발표된 CBCT 산란선 보정 기술(scatter correction)을 개선/적용하여 신뢰할만한 양성자 선량 분포를 CBCT에서 계산하는 데 최초로 성공하였습니다. 최근 세계적으로 양성자 치료기에 영상유도(image guidance)를 위해 CBCT 기기가 새롭게 설치되는 트렌드를 고려할 때 본 연구가 적응 양성자 치료 (adaptive proton therapy)를 구현하는데 중요한 역할을 할 것으로 기대하고 있습니다.
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