King Martin T, Maxim Peter G, Diehn Maximilian, Loo Billy W, Xing Lei
Department of Radiation Oncology, Stanford University, Stanford, California.
Department of Radiation Oncology, Stanford University, Stanford, California.
Int J Radiat Oncol Biol Phys. 2015 Jul 1;92(3):683-90. doi: 10.1016/j.ijrobp.2015.02.037. Epub 2015 Apr 28.
To determine whether regional ventilation, as measured using 4-dimensional computed tomography (4D-CT), declines after radiation therapy (RT).
We analyzed pretreatment 4D-CT scans associated with 2 RT courses. We quantified regional pulmonary function over equivalent dose in 2 Gy (EQD2α/β=3) intervals of 0 to 5 Gy, 5 to 20 Gy, 20 to 40 Gy, and >40 Gy using percentile-normalized intensity-based (VentInt) and Jacobian-based (VentJac) ventilation metrics. We modeled the impact of dose on mean ventilation (Vent¯) and regional tidal volume (rTV: tidal volume [TV] within a dose interval normalized to total lung TV). We also identified clinical and dosimetric factors that affected regional ventilation changes (ΔVent¯ and ΔrTV) after RT for the >20 Gy dose interval.
After RT, Vent¯Int exhibited statistically significant dose-dependent declines within the 20 to 40 Gy (-5.0%; P=.03) and >40 Gy (-6.8%; P<.01) intervals. Vent¯Jac exhibited a declining trend after RT only for the >40 Gy interval (-4.6%; P=.07). Factors associated with ΔVent¯Int for the >20 Gy dose interval included airway stenosis progression (P=.03) and gross tumor volume (P=.09). Both rTVInt and rTVJac were associated with small (<2%) but significant declines after RT for 20 to 40 Gy and >40 Gy intervals. Factors associated with declining rTVInt (P<.05) for the >20 Gy dose interval included airway stenosis progression, greater V20 (volume of lung receiving >20 Gy), and smaller fraction of emphysema in V20. The association between the absence of chronic obstructive pulmonary disease and declining rTV trended toward significance (P=.09).
Regional ventilation, as measured using 4D-CT, demonstrates a dose-dependent decline after RT. Our results support the use of 4D-CT ventilation imaging for monitoring regional pulmonary function change after RT.
确定使用四维计算机断层扫描(4D-CT)测量的局部通气在放射治疗(RT)后是否下降。
我们分析了与2个RT疗程相关的治疗前4D-CT扫描。我们使用基于百分位数归一化强度(VentInt)和基于雅可比行列式(VentJac)的通气指标,在0至5 Gy、5至20 Gy、20至40 Gy和>40 Gy的2 Gy等效剂量(EQD2α/β=3)间隔内量化局部肺功能。我们对剂量对平均通气(Vent¯)和局部潮气量(rTV:剂量间隔内的潮气量[TV]相对于全肺TV进行归一化)的影响进行建模。我们还确定了影响>20 Gy剂量间隔RT后局部通气变化(ΔVent¯和ΔrTV)的临床和剂量学因素。
RT后,Vent¯Int在20至40 Gy(-5.0%;P=.03)和>40 Gy(-6.8%;P<.01)间隔内表现出统计学上显著的剂量依赖性下降。Vent¯Jac仅在>40 Gy间隔(-4.6%;P=.07)RT后呈现下降趋势。与>20 Gy剂量间隔的ΔVent¯Int相关的因素包括气道狭窄进展(P=.03)和大体肿瘤体积(P=.09)。rTVInt和rTVJac在20至40 Gy和>40 Gy间隔RT后均与小幅度(<2%)但显著的下降相关。与>20 Gy剂量间隔rTVInt下降(P<.05)相关的因素包括气道狭窄进展、更大的V20(接受>20 Gy照射的肺体积)以及V20中肺气肿比例更小。慢性阻塞性肺疾病的缺失与rTV下降之间的关联有显著趋势(P=.09)。
使用4D-CT测量的局部通气在RT后表现出剂量依赖性下降。我们的结果支持使用4D-CT通气成像来监测RT后局部肺功能变化。
