Jing Shen, Kun Zhang, Xiangyin Meng, Bo Yang, Jiabin Ma, Ke Hu, Fuquan Zhang, Xiaorong Hou
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引用次数: 0
Abstract
IntroductionBreast radiotherapy is associated with a higher risk of cardiac diseases. Although deep inspiration breath-hold (DIBH) reduces the heart dose, it is underutilized. The selection of proper candidates for DIBH remains an unresolved issue. This study compared dosimetric parameters between free breathing (FB) and DIBH, monitored myocardial enzymes, and aimed to identify factors that can predict cardiac injury thus developing a method to identify proper patients for DIBH.MethodsThis is a prospective cohort study, enrolling 58 patients with left-sided breast cancer following breast-conserving surgery. All patients underwent computed tomography scans in both FB and DIBH states. A comparative analysis of dosimetric features between DIBH and FB was conducted. Myocardial enzyme was monitored until six months post-radiation therapy. T-tests were used to assess differences between the DIBH and the FB. Pearson correlation and receiver operating characteristic (ROC) analysis was conducted to identify factors associated with the subclinical acute cardiac injury.ResultsThe mean heart dose (MHD) of the DIBH group significantly dropped as compared to the FB group (3.81 Gy vs 1.65 Gy p = 0.001). Cardiac V40, V30, V25, V10, and V5 volumes also significantly reduced. 9(15.51%) patients exhibited increased myocardial enzyme, with cTnI being the most sensitive indicator. The heart dose was a predictor for the cardiac enzyme's elevation. The ROC curve analysis revealed an area under the curve of 0.6. With an MHD threshold of 2 Gy, both sensitivity and specificity exceeded 0.7.ConclusionDIBH significantly diminishes radiation exposure to the heart and LAD compared with FB. Cardiac enzyme analysis facilitates the early detection of cardiac injury following radiation therapy. An MHD threshold of less than 2 Gy is associated with a reduced risk of subclinical cardiac injury, potentially obviating the need for DIBH, which optimizes clinical efficiency and economic viability.
乳腺放射治疗与心脏疾病的高风险相关。虽然深度吸气憋气(DIBH)减少了心脏剂量,但它没有得到充分利用。为DIBH选择合适的候选者仍然是一个未解决的问题。本研究比较自由呼吸(FB)和DIBH的剂量学参数,监测心肌酶,旨在确定可以预测心脏损伤的因素,从而开发一种确定DIBH合适患者的方法。方法:这是一项前瞻性队列研究,纳入58例左侧乳腺癌保乳手术患者。所有患者都在FB和DIBH状态下进行了计算机断层扫描。对DIBH和FB的剂量学特征进行了比较分析。心肌酶监测直到放射治疗后6个月。使用t检验来评估DIBH和FB之间的差异。通过Pearson相关和受试者工作特征(ROC)分析来确定与亚临床急性心脏损伤相关的因素。结果与FB组相比,DIBH组的平均心脏剂量(MHD)显著降低(3.81 Gy vs 1.65 Gy p = 0.001)。心脏V40、V30、V25、V10和V5体积也显著减小。9例(15.51%)患者心肌酶升高,其中cTnI为最敏感指标。心脏剂量是心脏酶升高的一个预测指标。ROC曲线分析显示曲线下面积为0.6。MHD阈值为2 Gy,敏感性和特异性均超过0.7。结论与FB相比,dibh可显著减少心脏和LAD的辐射暴露。心脏酶分析有助于放射治疗后心脏损伤的早期检测。小于2 Gy的MHD阈值与亚临床心脏损伤风险降低相关,潜在地避免了DIBH的需要,从而优化了临床效率和经济可行性。
期刊介绍:
Technology in Cancer Research & Treatment (TCRT) is a JCR-ranked, broad-spectrum, open access, peer-reviewed publication whose aim is to provide researchers and clinicians with a platform to share and discuss developments in the prevention, diagnosis, treatment, and monitoring of cancer.
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