Falcinelli Lorenzo, Palumbo Isabella, Radicchia Valentina, Arcidiacono Fabio, Lancellotta Valentina, Montesi Giampaolo, Matrone Fabio, Zucchetti Claudio, Marcantonini Marta, Bini Vittorio, Aristei Cynthia
1 Department of Onco-Haematological and Gastroenterological Science, Radiation Oncology Division, Perugia General Hospital, Perugia, Italy.
2 Radiation Oncology Section, Department of Surgical and Biomedical Sciences, University of Perugia and Perugia General Hospital, Perugia, Italy.
Br J Radiol. 2015;88(1056):20150509. doi: 10.1259/bjr.20150509. Epub 2015 Oct 14.
In radiotherapy treatment, planning target volume and organs at risk are contoured on kilovoltage CT (kVCT) images. Unlike MR images, kVCT does not provide precise information on target volume extension. Since neither kVCT nor MRI may be suitable for contouring in patients with ferrous hip prostheses, this study evaluated whether megavoltage CT (MVCT) reduced interobserver variability.
Two patients without hip prostheses and one patient (Patient 3) with hip prostheses were enrolled. Six radiation oncologists contoured prostate, rectum and bladder on kVCT (Patients 1 and 3), MRI (Patient 2) and MVCT images (Patient 3). MVCT was acquired with fine, normal and coarse modalities. Interobserver variability for each organ was analysed using conformity index (CI) and coefficient of variation (CV).
In patients without hip prostheses, CIs were higher in prostate contouring with MRI than with kVCT, indicating lower interobserver variability with MRI. Very slight variations were seen in rectum and bladder contouring. In the patient with hip prostheses (Patient 3), contouring on kVCT lowered CI and increased CV in the prostate, bladder and rectum. The differences were more marked in the prostate. Only fine modality MVCT reduced interobserver variability and only for the prostate.
Even though greater noise and less soft-tissue contrast increase contouring variability with MVCT than with kVCT, lack of artefacts on MVCT could provide better image definition by this modality in hip prosthesis patients in whom MRI is precluded.
We recommend the fine modality MVCT for contouring hip prostheses patients.
在放射治疗计划中,计划靶区和危及器官是在千伏级CT(kVCT)图像上勾画的。与磁共振成像(MRI)不同,kVCT不能提供关于靶区范围的精确信息。由于kVCT和MRI都可能不适用于有铁制髋关节假体的患者进行轮廓勾画,本研究评估了兆伏级CT(MVCT)是否能降低观察者间的变异性。
纳入两名无髋关节假体的患者和一名有髋关节假体的患者(患者3)。六名放射肿瘤学家在kVCT(患者1和3)、MRI(患者2)和MVCT图像(患者3)上勾画前列腺、直肠和膀胱。MVCT采用精细、常规和粗糙模式采集。使用一致性指数(CI)和变异系数(CV)分析每个器官的观察者间变异性。
在无髋关节假体的患者中, MRI勾画前列腺时的CI高于kVCT,表明MRI的观察者间变异性较低。直肠和膀胱勾画中观察到非常轻微的差异。在有髋关节假体的患者(患者3)中,kVCT上的勾画降低了前列腺、膀胱和直肠的CI并增加了CV。前列腺的差异更为明显。只有精细模式的MVCT降低了观察者间变异性,且仅针对前列腺。
尽管与kVCT相比,MVCT的噪声更大且软组织对比度更低,增加了轮廓勾画的变异性,但在无法进行MRI检查的髋关节假体患者中,MVCT上无伪影可通过该模式提供更好的图像清晰度。
我们建议使用精细模式的MVCT对髋关节假体患者进行轮廓勾画。