Correlation of new two-dimensional geometrical parameters to lung and heart dose-volume parameters in breast cancer radiation therapy.

Journal of cancer research and therapeutics Pub Date : 2024-07-01 Epub Date: 2024-09-19 DOI:10.4103/jcrt.jcrt_2351_23

Maryam Bahador, Simin Soltaninejad, Mosayyeb Mobasheri

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Abstract

Objective: To develop new two-dimensional geometric parameters for pulmonary and cardiac dose estimation in left-sided breast cancer radiation therapy without dose-volume histogram (DVH).

Methods: On the CT image of 90 patients with left breast cancer, treatment planning was performed using two opposed tangent fields with/without supraclavicular. The field-in-field technique and 6MV photons were used. From DVH dosimetric parameters of mean dose, Vx (x (Gy) =5, 10, 15, 20, 30, 40, 50) were calculated, and from heart and lung outlines on the beam's eye view, new geometric parameters of percent of lung area in tangent and supraclavicular fields (%area of the lung in the tangent (ALT), %ALS) and percent of heart in tangent field (%area of the heart in the tangent (AHT)) were measured. Correlation, regression, and diagnostic performance by receiver operating characteristic curve (ROC) were investigated for statistical analysis.

Results: The Pearson coefficient between %ALT and Vx (x = 10, 15, 20, 30, 40) show strong correlation in patient treatment with only opposed tangents (>0.85) and weaker in treatment by opposed tangents with supraclavicular (0.56-0.88), the %ALS indicate weak correlation (<0.5) and %AHT show strong correlation (0.93-0.98). The regression analysis shows a positive relation between %ALT and mean dose (R2 = 0.8), V20Gy (R2 = 0.9) in the lung (tangent treatment), and between %AHT and mean dose (R2 = 0.9), V20Gy (R2 = 1.0) in the heart. The ROC analysis shows by %ALT <20.3 for treatment by just opposed fields, %ALT <22.1% for treatment tangents with supra, and %AHT <11.6%, practical lung and heart dose constraints are addressed.

Conclusion: The proposed geometric parameters could replace previous one-dimensional maximum and central distances for predicting doses to lung and heart.

Advances in knowledge: This study presents simple geometric parameters that could estimate pulmonary and cardiac dose in left breast cancer treatment from a 2D radiograph.

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乳腺癌放射治疗中新的二维几何参数与肺和心脏剂量-体积参数的相关性。

目的在没有剂量-体积直方图（DVH）的情况下，为左侧乳腺癌放射治疗中的肺和心脏剂量估算开发新的二维几何参数：在 90 名左侧乳腺癌患者的 CT 图像上，使用有/无锁骨上切线的两个相对切线场进行治疗规划。采用场中场技术和 6MV 光子。根据 DVH 计算出平均剂量的剂量学参数 Vx（x（Gy）=5、10、15、20、30、40、50），并根据束眼视图上的心肺轮廓，测量出切线场和锁骨上场中肺面积百分比（切线场中肺面积百分比（ALT）、ALS）和切线场中心脏面积百分比（切线场中心脏面积百分比（AHT））的新几何参数。对相关性、回归性和接收者操作特征曲线（ROC）的诊断性能进行了统计分析：结果：ALT%和 Vx（x = 10、15、20、30、40）之间的皮尔逊系数显示，在仅使用对置切线的患者治疗中相关性较强（>0.85），而在使用锁骨上对置切线的患者治疗中相关性较弱（0.56-0.88），ALS%显示相关性较弱：所提出的几何参数可取代以前的一维最大距离和中心距离，用于预测肺部和心脏的剂量：本研究提出了简单的几何参数，可通过二维X光片估算左侧乳腺癌治疗中的肺部和心脏剂量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of cancer research and therapeutics

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