Incidence of radiation pneumonitis after thoracic irradiation: Dose-volume correlates

PURPOSE: To define clinical and dosimetric parameters correlated with the risk of clinically relevant radiation pneumonitis (RP) after thoracic radiotherapy. METHODS AND MATERIALS: Records of consecutive patients treated with definitive thoracic radiotherapy were retrospectively reviewed for the incidence of RP of Grade 2 or greater by the Common Toxicity Criteria. Dose-volume histograms using total lung volume (TL) and TL minus gross tumor volume (TL-G) were created with and without heterogeneity corrections. Mean lung dose (MLD), effective lung volume (V(eff)), and percentage of TL or TL-G receiving greater than or equal to 10, 13, 15, 20, and 30 Gy (V10-V30, respectively) were analyzed by logistic regression. Receiver operating characteristic (ROC) curves were generated to estimate RP predictive values. RESULTS: Twelve cases of RP were identified in 92 eligible patients. Mean lung dose, V10, V13, V15, V20, and V(eff) were significantly correlated to RP. Combinations of MLD, V(eff), V20, and V30 lost significance using TL-G and heterogeneity corrections. Receiver operating characteristic analysis determined V10 and V13 as the best predictors of RP risk, with a decrease in predictive value above those volumes. CONCLUSIONS: Intrathoracic radiotherapy should be planned with caution when using radiotherapy techniques delivering doses of 10 to 15 Gy to large lung volumes.     

肺低剂量区体积预测急性放射性肺炎价值探讨

目的 观察胸部肿瘤三维适形放疗患者放射性肺炎发生情况,分析其与各临床、剂量学因素关系,探讨低剂量区体积对放射性肺炎的预测价值.方法 2005-2008年本科收治的中晚期非小细胞肺癌(NSCLC)及食管癌患者共161例接受了三维适形放疗,其中局部晚期NSCLC患者53例,处方剂量60 Gy分30～34次,均行长春瑞滨+顺铂同期化疗;食管癌患者108例,处方剂量58～70 Gy分29～35次,单纯放疗46例,余62例接受亚叶酸钙+氟尿嘧啶+顺铂同期化疗.对急性放射性肺炎进行Spearman等级相关分析、Logistic因素分析及受试者工作特征(ROC)曲线分析.结果 随访率100%.全组急性放射性肺炎总发生率为57.8%(93例),其中NSCLC组为94%(50例,4、5级各1例),食管癌组为39.8%(43例,无≥4级病例).等级相关分析结果显示患者性别(r=0.19,P=0.016)、大体肿瘤体积(r=0.52,P=0.000))、平均肺剂量(r=0.33,P=0.000)、肺正常组织并发症概率(r=0.30,P=0.000)、接受5、10、15、20、25、30 Gy照射的肺体积百分比(肺V5～V30,r=0.21～0.29,P=0.000～0.027)均与放射性肺炎发生相关.Logistic因素分析结果显示肺V5(X2=7.07,P=0.008)、大体肿瘤体积(X2=10.21,P=0.001)是预测≥2级放射性肺炎最有价值指标.ROC曲线分析结果显示曲线下面积为0.684,P=0.000;曲线界值为V5=55%.肺V5≥55%组与<55%组≥2级放射性肺炎发生率分别为43%(36/84)和18%(14/77).结论 平均肺剂量、正常组织并发症概率、V5～V30可较好预测放射性肺炎的发生,其中V5可能是最有价值的预测性指标.当V5>55%时≥2级的急性放射性肺炎的发生率可能会明显增加,制定治疗计划时除平均肺剂量、V20、V30外,还应将低剂量区体积限制在适当范围内.     

A prospective study on radiation pneumonitis following conformal radiation therapy in non-small-cell lung cancer: clinical and dosimetric factors analysis.

BACKGROUND AND PURPOSE: Clinical and dosimetric prognostic factors for radiation pneumonitis (RP) have been reported after three-dimensional conformal radiotherapy (3D-CRT) in patients with non-small cell lung cancer (NSCLC). PATIENTS AND METHODS: Ninety-six patients who received 3D-CRT for stage IA to IIIB NSCLC were evaluated prospectively. Surgery was performed before radiation in 51% of the patients (n = 49). RP was diagnosed six-eight weeks after 3D-CRT using the Lent-Soma classification. Factors evaluated included treatment factors such as total mean lung dose (MLD), and dose-volume histogram (DVH) thresholds for several radiation dose steps. These thresholds were originally determined from the median of the irradiated lung volume at each step. RESULTS: Six patients could not be evaluated for RP six weeks after 3D-CRT. Of the 90 remaining patients, 40 (44%) had RP (i.e. grade > or =1) at 6 weeks, including 7 patients (7.8%) with severe RP (grade > or =2). Regarding the whole toxicity (grade > or =1), age (> or =60 years), MLD, V20 and V30 were significantly related to RP. DVH thresholds determined for radiation doses from 20 to 40 Gy were also predictive of RP. Considering only severe RP (grade > or =2), only MLD, V20 and V30 remained associated with increased acute pulmonary toxicity. CONCLUSIONS: In this study, dosimetric factors (MLD, V20, V30) and age (> or =60 years) were predictive of RP regarding the whole pulmonary toxicity (grade > or =1). In addition, thresholds from 20 to 40 Gy, based on a stratification according to the median of the percentage of irradiated lung volume, were also predictive factors. They may, therefore, help discriminate patients at high and low risk for RP. However, only MLD, V20 and V30 remained associated with severe RP (grade > or =2), probably due to the small number of severe events in our series.     

Radiation pneumonitis: correlation of toxicity with pulmonary metabolic radiation response

PURPOSE: To characterize the relationship between radiation pneumonitis (RP) clinical symptoms and pulmonary metabolic activity on post-treatment [(18)F]-fluorodeoxyglucose positron emission tomography (FDG-PET). PATIENTS AND METHODS: We retrospectively studied 101 esophageal cancer patients who underwent restaging FDG-PET/computed tomography imaging 3-12 weeks after completing thoracic radiotherapy. The National Institutes of Health Common Toxicity Criteria, version 3, was used to score the RP clinical symptoms. Linear regression was applied to the FDG-PET/computed tomography images to determine the normalized FDG uptake vs. radiation dose. The pulmonary metabolic radiation response (PMRR) was quantified as this slope. Modeling was performed to determine the interaction of PMRR, mean lung dose (MLD), and the percentage of lung receiving >20 Gy with RP outcomes. RESULTS: Of the 101 patients, 25 had Grade 0, 10 had Grade 1, 60 had Grade 2, 5 had Grade 3, and 1 had Grade 5 RP symptoms. Logistic regression analysis demonstrated that increased values of both MLD and PMRR were associated with a greater probability of RP clinical symptoms (p = 0.032 and p = 0.033, respectively). Spearman's rank correlation found no association between the PMRR and the dosimetric parameters (planning target volume, MLD, percentage of lung receiving >5-30 Gy). Twofold cross-validation demonstrated that the combination of MLD and PMRR was superior to either alone for assessing the development of clinical RP symptoms. The combined MLD (or percentage of lung receiving >20 Gy) and PMRR had a greater sensitivity and accuracy (53.3% and 62.5%, respectively) than either alone. CONCLUSION: The results of this study have demonstrated a significant correlation between RP clinical symptoms and the PMRR measured by FDG-PET/computed tomography after thoracic radiotherapy.     

Predictive value of dose-volume histogram parameters for predicting radiation pneumonitis after concurrent chemoradiation for lung cancer

PURPOSE: To clarify whether the percentage of pulmonary volume irradiated to >20 Gy (V20) is related to the incidence and grade of radiation pneumonitis (RP) in cases of lung cancer treated with concurrent chemoradiation. METHODS AND MATERIALS: The subjects comprised 71 patients with lung cancer who were treated with conventionally fractionated definitive concurrent chemoradiation. The chemotherapy agents were carboplatin or cisplatin combined with taxane for most patients. Radiotherapy was delivered at 1.8-2.0 Gy fractions once daily to a total of 48-66 Gy (median 60). We analyzed the relation between RP grade and V20. Univariate and multivariate analyses were performed to assess patient- and treatment-related factors, including age, gender, smoking history, pulmonary function (forced expiratory volume in 1 s), tumor location (upper lobe vs. middle/lower lobe), chemotherapy regimen (platinum + taxane vs. other), total dose, overall radiation periods in addition to V20. RESULTS: With a median follow-up of 7.5 months, an RP grade of 0, 1, 2, 3, and 5 was observed in 16, 35, 17, 1, and 2 patients, respectively; the corresponding mean V20 values were 20.1%, 22.0%, 26.3%, 27.0%, and 34.5%. The 6-month cumulative incidence of RP greater than Grade 2 was 8.7%, 18.3%, 51%, and 85% in patients with a V20 of or=31%, respectively (p <0.0001). According to both univariate and multivariate analyses, V20 was the only factor associated with RP of Grade 2 or greater. CONCLUSION: The incidence and grade of RP are significantly related to the V20 value. Thus, V20 appears to be a factor that can be used to predict RP after concurrent chemoradiation for lung cancer.     

Dose-volume histogram analysis as predictor of radiation pneumonitis in primary lung cancer patients treated with radiotherapy

PURPOSE: To determine the relationship between various parameters derived from lung dose-volume histogram analysis and the risk of symptomatic radiation pneumonitis (RP) in patients undergoing radical radiotherapy for primary lung cancer. METHODS AND MATERIALS: The records of 156 patients with lung cancer who had been treated with radical radiotherapy (>/=45 Gy) and for whom dose-volume histogram data were available were reviewed. The incidence of symptomatic RP was correlated with a variety of parameters derived from the dose-volume histogram data, including the volume of lung receiving 10 Gy (V(10)) through 50 Gy (V(50)) and the mean lung dose (MLD). RESULTS: The rate of RP at 6 months was 15% (95% confidence interval 9-22%). On univariate analysis, only V(30) (p = 0.036) and MLD (p = 0.043) were statistically significantly related to RP. V(30) correlated highly positively with MLD (r = 0.96, p < 0.001). CONCLUSION: V(30) and MLD can be used to predict the risk of RP in lung cancer patients undergoing radical radiotherapy.     

肺癌、纵隔肿瘤及食管癌放疗后放射性肺炎发生因素的对比研究

 目的　对肺癌（肺靶区）与纵隔肿瘤及食管癌（纵隔靶区）三维适形放疗中放射性肺炎（RP）发生的影响因素及剂量体积直方图（DVH）参数进行对比研究。方法　回顾性分析接受放射治疗的肺癌、纵隔肿瘤及食管癌患者83例的临床资料,采用χ2 检验对临床因素（性别、年龄、肿瘤部位、分期、化疗）与RP发生的相关性进行分析;分别对两靶区的DVH参数与RP的发生进行相关性分析;用t检验对肺靶区与纵隔靶区DVH参数进行比较。结果　≥2级 RP 发生率为36.5 %（31／81）。各临床因素与≥2级RP发生无关（χ2 值分别为0.377、0.215、0.018、0.717、0.215,均P＞0.05）。两靶区的DVH参数中,V5、V10、V20、V30、全肺平均剂量（MLD）与RP的发生均具有明显相关性。两靶区发生RP的患者V5[（50.9±17.8）%、（69.9±20.4）%]（t＝2.745,P＜0.05）、V10[（38.6±15.2）%、（53.5±18.8）%]（t＝2.434,P＜0.05）差异均有统计学意义,而V20（t＝0.388,P＞0.05）、V30（t＝0.005,P＞0.05）及MLD（t＝0.138,P＞0.05）差异均无统计学意义。两靶区未发生RP患者的DVH参数t检验后得到类似结果。结论　在肺靶区、纵隔靶区的放疗中,RP的发生与DVH参数密切相关,尤其是V20、V30及MLD对RP的发生有重要的影响。     

Radiation pneumonitis in pediatric Hodgkin lymphoma patients receiving radiation therapy to the chest

Purpose

The purpose of this study is to determine the incidence of radiation pneumonitis (RP) in children receiving radiation therapy (RT) for Hodgkin lymphoma (HL).

肺癌同期放化治疗中放射性肺损伤的相关因素分析

 目的 观察三维适形放疗联合同期化疗治疗局部晚期非小细胞肺癌中放射性肺损伤情况,对其相关因 素进行分析,寻找合理的预测性 指标。 方法 47例符合入组条件的非小细胞肺癌患者接受三维适形放疗及同期化疗。处方剂量为60Gy常规 放疗,同期化疗方案为NP方案,对三维适形治疗计划及临床资料进行单因素、多因素分析,评 价肺损伤情况。 结果 （1）完全缓解3例, 部分缓解42例,总有效率为95.74%,1年生存率75.78%。全组发生急性放 射性肺炎0级2例,1级20 例,2级17例,3级8例,无4级放射性肺炎发生。（2）与严重放射性肺炎发生呈正相关的剂量 学因素为MLD、肺NTCP,肺V5、 V15、V20。临床资料中仅发现肿瘤GTV与严重放射性肺炎发生相关;多因素分析显示全肺平均 剂量为放射性肺炎的独立影 响因素。 结论 剂量学因素（MLD、肺NTCP,肺V5、V15、V20）可以较好地预测严重放射性肺炎的发生,全肺 平均剂量是放射性肺炎发生的独立影响因素。     

Dose–volume factors predicting radiation pneumonitis in patients receiving salvage radiotherapy for postlobectomy locoregional recurrent non-small-cell lung cancer

Background The correlation between treatment-related factors and lung toxicity has not been sufficiently evaluated in salvage radiotherapy. Methods Twenty-one patients with recurrent non-small- cell lung cancer (NSCLC) after lobectomy received salvage radiotherapy to a total dose of 46–60 Gy. The effects of radiotherapy parameters on the development of radiation pneumonitis (RP) were examined using dose–volume histograms. Results Grade 1 RP was observed in 4, grade 2 in 2, and grade 3 in 1 patient. Patients who developed RP had a significantly higher value in V dose (V13, V20) parameters and mean lung dose (MLD) than those who did not develop RP. Concerning G2 or higher RP, 3 patients who developed ≥G2 RP had a significantly higher value in V20, V13, and MLD than the remaining patients with P values of 0.01, 0.015, and 0.016, respectively. The mean V20, V13, and MLD in these 3 patients were 27%, 29.3%, and 14.8 Gy, respectively, whereas the mean V20, V13, and MLD in the remaining 18 patients were 15.8%, 18.3%, and 8.8 Gy, respectively. Three of 6 patients with a V20 ≥20% developed ≥G2 RP whereas this did not occur in the remaining patients (P = 0.015). Similarly, 3 of 6 patients with a V13 ≥23% developed ≥G2 RP whereas this did not occur in the remaining patients (P = 0.015). Conclusions These data suggest that a somewhat lower V dose value or MLD, as compared with the setting of definitive radiotherapy, could be a surrogate for RP in patients undergoing salvage radiotherapy for recurrent NSCLC.     

Fatal pneumonitis associated with intensity-modulated radiation therapy for mesothelioma

PURPOSE: To describe the initial experience at Dana-Farber Cancer Institute/Brigham and Women's Hospital with intensity-modulated radiation therapy (IMRT) as adjuvant therapy after extrapleural pneumonectomy (EPP) and adjuvant chemotherapy. METHODS AND MATERIALS: The medical records of patients treated with IMRT after EPP and adjuvant chemotherapy were retrospectively reviewed. IMRT was given to a dose of 54 Gy to the clinical target volume in 1.8 Gy daily fractions. Treatment was delivered with a dynamic multileaf collimator using a sliding window technique. Eleven of 13 patients received heated intraoperative cisplatin chemotherapy (225 mg/m(2)). Two patients received neoadjuvant intravenous cisplatin/pemetrexed, and 10 patients received adjuvant cisplatin/pemetrexed chemotherapy after EPP but before radiation therapy. All patients received at least 2 cycles of intravenous chemotherapy. The contralateral lung was limited to a V20 (volume of lung receiving 20 Gy or more) of 20% and a mean lung dose (MLD) of 15 Gy. All patients underwent fluorodeoxyglucose positron emission tomography (FDG-PET) for staging, and any FDG-avid areas in the hemithorax were given a simultaneous boost of radiotherapy to 60 Gy. Statistical comparisons were done using two-sided t test. RESULTS: Thirteen patients were treated with IMRT from December 2004 to September 2005. Six patients developed fatal pneumonitis after treatment. The median time from completion of IMRT to the onset of radiation pneumonitis was 30 days (range 5-57 days). Thirty percent of patients (4 of 13) developed acute Grade 3 nausea and vomiting. One patient developed acute Grade 3 thrombocytopenia. The median V20, MLD, and V5 (volume of lung receiving 5 Gy or more) for the patients who developed pneumonitis was 17.6% (range, 15.3-22.3%), 15.2 Gy (range, 13.3-17 Gy), and 98.6% (range, 81-100%), respectively, as compared with 10.9% (range, 5.5-24.7%) (p = 0.08), 12.9 Gy (range, 8.7-16.9 Gy) (p = 0.07), and 90% (range, 66-98.3%) (p = 0.20), respectively, for the patients who did not develop pneumonitis. CONCLUSIONS: Intensity-modulated RT treatment for mesothelioma after EPP and adjuvant chemotherapy resulted in a high rate of fatal pneumonitis when standard dose parameters were used. We therefore recommend caution in the utilization of this technique. Our data suggest that with IMRT, metrics such as V5 and MLD should be considered in addition to V20 to determine tolerance levels in future patients.     

Radiation pneumonitis following concurrent accelerated hyperfractionated radiotherapy and chemotherapy for limited-stage small-cell lung cancer: Dose-volume histogram analysis and comparison with conventional chemoradiation

PURPOSE: The aim of this study was twofold: to determine whether the dose-volume metrics are valuable in predicting radiation pneumonitis (RP) in small-cell lung cancer (SCLC) patients treated with accelerated hyperfractionated radiotherapy and chemotherapy (AHFRT + CT); and to clarify how AHFRT influences the risk of RP in comparison to conventional once-daily radiotherapy and chemotherapy (QDRT + CT). METHODS AND MATERIALS: Study subjects were 43 patients with SCLC treated with AHFRT + CT. Radiotherapy was delivered at 1.5 Gy/fraction (fr) twice daily to 45 Gy/30 fr/3 weeks. We analyzed the relation between RP incidence and several dosimetric factors. We also compared this series data with our previously published data from lung cancer patients treated with QDRT + CT. RESULTS: Radiation pneumonitis Grades 1, 2, and 3 were observed in 28 patients, 7 patients, and 1 patient, respectively. Univariate analysis revealed that the percentage of lung volume receiving more than 15 Gy, 20 Gy, and 30 Gy (V15, V20, V30) and normal tissue complication probability were of predictive value for the development of RP. The 12-month cumulative incidences of RP greater than Grade 2 were 0%, 7.1%, 25%, and 42.9% in patients with a V20 of < or =20%, 21-25%, 26-30%, and > or =31%, respectively. These incidences were lower than that of our patients treated with QDRT + CT. CONCLUSIONS: Dosimetric factors are valuable in predicting RP in SCLC patients treated with AHFRT + CT. Regarding the incidence of RP, AHFRT appears to have some advantage over QDRT.     

血浆白细胞介素6、血管紧张素转换酶水平及放射剂量体积直方图参数对放射性肺炎预测的临床价值

 目的　研究血浆中白细胞介素6（IL-6）、血管紧张素转换酶（ACE）水平及剂量体积直方图（DVH）参数与放射性肺炎发生的相关性,并评价其在预测放射性肺炎中的临床价值。方法　常规给予60例不能手术切除或者不愿意手术切除的局部晚期非小细胞肺癌患者三维适形放疗。分别在放疗前、放疗中（放疗第1周至第6周）、放疗后（放疗第8、12周）采用酶联免疫吸附法（ELISA）检测血浆中IL-6及ACE的含量。 依照美国放射肿瘤学协作组（RTOG）放射性肺损伤标准进行放射性肺炎诊断及分级,以出现放射性肺炎组为观察组,未出现放射性肺炎组为对照组,统计两组血浆中IL-6、 ACE、DVH参数V20、V30、平均肺剂量（MLD）及正常组织并发症概率（NTCP）。结果　60例患者中16例发生放射性肺炎,其中5例发生于放疗中,10例发生于放疗结束后1个月内,1例发生于放疗结束后2个月内;包括Ⅱ级11例,Ⅲ级5例。放疗前、中、后血浆IL-6水平变化在观察组与对照组间差异均有统计学意义,ACE在放疗中第3周至第6周两组间差异有统计学意义（均P＜0.05）。V20、V30、MLD及NTCP在观察组与对照组分别为（46.2±4.5）%比（30.5±7.5）%、（37.5±5.6）%比（20.5±5.6）%、（20.4±2.3）Gy比（15.5±3.5）Gy、（25.2±8.2）%比（9.9±4.5）%,两组间差异有统计学意义（均P＜0.05）。结论　血浆中IL-6、ACE水平、V20、V30、MLD及NTCP指标均与放射性肺炎的发生有关。     

非小细胞肺癌三维适形放疗同期化疗后急性放射性肺炎发生因素分析

目的 分析三维适形放疗同期化疗非小细胞肺癌急性放射性肺炎(RP)的发生率及相关因素.方法 搜集2006年1月到2008年10月间首程行三维适形放疗并同期化疗的非小细胞肺癌病例90例,对相关放射剂量体积资料和治疗毒性的临床资料进行统计分析.结果 1级急性RP的发生率为32.2%,2级30.0%,3级5.6%,4级0%,5级1.1%.临床因素单因素分析有统计学差异的是原发肿瘤部位.剂量学方面当平均肺剂量以17 Gy,V_5、V_(10)、V_(20)、V_(30)、V_(40)分别以47%、36%、24%、23%、22%为界分组时组间差异有统计学意义.多因素分析显示平均肺剂量是独立预测因子.结论 RP的发生发展受到多因素综合作用,制定肺癌尤其是中下叶肺癌的三维放疗计划时应将平均肺剂量控制在17 Gy以下.     

肺癌患者急性放射性肺损伤发生的相关因素分析

[目的]分析肺癌患者放射治疗后急性放射性肺损伤发生的影响因素。[方法]选取171例肺癌放射治疗的患者,采用Logistic回归分析研究性别、年龄、是否化疗、放疗剂量、V5、V20、平均肺剂量(MLD)等因素与患者3级及以上急性放射性肺损伤发生率的相关性。[结果]171例肺癌放射治疗的患者中,发生3级及以上急性放射性肺损伤50例(29.3%)。单因素分析发现,吸烟、放疗前化疗周期数多、同期放化疗、V5>40%、V20>25%、V20>28%、MLD>10Gy、MLD>13Gy均可导致肺癌患者3级及以上放射性肺损伤发生率的升高。多因素分析显示,吸烟、放疗前化疗周期数多、V20>28%、MLD>13Gy与3级及以上放射性肺损伤发生率有关。[结论]在肺癌放疗计划设计中,应针对中国肺癌患者的特点,设定适合的物理参数;此外,还需考虑患者的吸烟史、化疗史等个体化因素,尽可能降低急性放射性肺损伤的发生率。     

Ⅲ+Ⅳ期非小细胞肺癌三维适形或调强放疗中复合指标预测放射性肺炎前瞻性临床研究

目的 探讨非小细胞肺癌三维适形或调强放疗正常肺V5和V10联合V20评价放射性肺炎(RP)的意义.方法 采用三维适形或调强后程加速超分割放疗经病理或细胞学证实初治非小细胞肺癌患者90例,其中Ⅲa期6例、Ⅲb期29例、Ⅳ期55例.放疗剂量61～80 Gy,中位数70 Gy.由剂量体积直方图计算全肺V5、V10、V20、V30、平均肺剂量(MLD),对侧肺V5、V10及同侧肺V30.用CTC3.0标准评估肺损伤.结果 90例患者中发生RP为1级29例、2级23例、3级5例、4级1例、5级1例.全肺V5、V10、V20、对侧肺V10、大体肿瘤体积(GTV)、计划靶体积、射野数目与≥1级RP相关(χ2=2.04、2.05、2.01、4.62、6.50、5.61、5.61,P=0.044、0.043、0.047、0.030、0.010、0.020、0.020),全肺V5、V10、V20和V30、MLD与≥2级RP相关(χ2=2.05、2.20、2.96、4.96、5.20,P=0.040、0.030、0.000、0.030、0.020).多因素分析显示GTV与≥1级RP发生相关(χ2=4.06,P=0.044),V20与≥2级RP发生相关(χ2=9.61,P=0.002).全肺V5、V10、V20的中位数分别为66%、48%、31%.V20>31%时≥2级RP概率增加,V20>31%+V10>48%+V5>66%时≥2级RP概率增加,V20>31%+V5>66%时≥2级RP概率增加;V20>31%时V10>48%与<48%比较RP概率相似,V20≤31%时V5>66%与<66%、V10>48%与<48%比较RP概率也相似.性别、年龄、临床分期、病理类型、治疗方式、KPS与≥1、2级RP无关.结论 肺V5、V10联合V20评价放射性肺炎的发生可能提高预测放射性肺炎的能力.     

非小细胞肺癌三维适形放疗放射性肺损伤剂量学因素分析

目的 观察非小细胞肺癌三维适形放疗患者急性放射性肺炎的发生情况,并分析其与各剂 量学因素的关系。方法 收集2010年6月—2010年12月间首程行三维适形放疗的非小细胞肺癌患者68 例。从治疗计划系统的剂量体积直方图中获取以下剂量学参数：处方剂量、平均肺剂量(MLD)、正常 肺体积剂量（V5~V50间隔5 Gy）等,分别采用单因素及多因素分析各个剂量学参数与放射性肺炎之 间的关系,并采用受试者工作特征曲线寻找预测界值。结果 V5是放射性肺炎发生的独立预后因素 （χ2=5.15,P=0.023）。患者肺脏的V5超过57%时放射性肺炎的发生率可能会增加。结论 临床医师 在审核治疗计划时,除了要考虑V20、V30、MLD等常用参数外,还应关注V5的大小。     

Three-dimensional conformal radiation therapy for non-small-cell lung cancer: a phase I/II dose escalation clinical trial

PURPOSE: A prospective Phase I/II dose escalation study was conducted to determine the maximum tolerated dose (MTD) in three-dimensional conformal radiation therapy (3D-CRT) for non-small-cell lung cancer (NSCLC). MATERIALS AND METHODS: MTD would be reached via a dose escalation study. After 42 Gy/21 fractions, 4.2 weeks by conventional fractionated irradiation through anteroposterior/posteroanterior fields, the 3D-CRT technique was used as boost. The planned total dose escalation depended on lung volume irradiated. According to the percentage of lung volume receiving >20 Gy, the patients were divided into three subgroups (i.e., <25%, 25%-37%, and >37%). The scheduled dose escalation began with 69 Gy and continued to 78 Gy. The boost doses were delivered at 3 Gy per fraction, once per day, five fractions per week. Each dose level includes 5 patients. Besides radiotherapy, all patients received neoadjuvant and adjuvant chemotherapy with MVP regimen (Mitomycin, Vindesine, cis-platium). The criterion for stopping further dose escalation was > or =20% of patients with > or =RTOG Grade 3 radiation pneumonitis. RESULTS: Between June 1999 and February 2001, 50 patients had been enrolled in this study, including 4 with Stage II disease, 31 with Stage IIIa disease, and 15 with Stage IIIb disease. The dose escalation plan has been completed. All subgroups reached the highest predetermined dose levels (i.e., 78 Gy for the <25% subgroup, 78 Gy for the 25-37% subgroup, and 75 Gy for the >37% subgroup). Although none of the subgroups developed more than 20% of >/=Grade 3 acute pneumonitis, dose escalation was terminated because long-term follow-up was needed to observe late complications. Median follow-up time (MFT) for the entire group was 18 months (6-37 months). The most common acute complication was esophagitis in 56% of patients with RTOG Grade 1-2, and in 4% with Grade 3. Acute radiation pneumonitis developed in 36% of patients with RTOG Grade 1-2. Only 1 patient had Grade 3 pneumonitis, which was in the 25-37% subgroup at 75 Gy. The hematopoietic toxicity appeared in 58% of patients with Grade 1-2, and 8% with Grade 3. As to late complications, only 30% of patients developed pulmonary fibrosis of RTOG Grade 1-2. The median survival time for the entire group was 18 months. Two-year overall survival, locoregional progression-free rate, and distant metastasis rate were 44%, 40%, and 41%, respectively. CONCLUSIONS: Although MFT was 18 months, it had not yet been declared because a longer follow-up was needed to observe the late complications. The 2-year overall survival of 44% was very encouraging and implied that 3D-CRT combined with chemotherapy would improve the outcome for locally advanced NSCLC.     

Final toxicity results of a radiation-dose escalation study in patients with non-small-cell lung cancer (NSCLC): predictors for radiation pneumonitis and fibrosis

PURPOSE: We aimed to report the final toxicity results on a radiation-dose escalation trial designed to test a hypothesis that very high doses of radiation could be safely administered to patients with non-small-cell lung cancer (NSCLC) by quantifying the dose-volume toxicity relationship of the lung. METHODS AND MATERIALS: A total of 109 patients with unresectable or medically inoperable NSCLC were enrolled and treated with radiation-dose escalation (on the basis of predicted normal-lung toxicity) either alone or with neoadjuvant chemotherapy by use of 3D conformal techniques. Eighty-four patients (77%) received more than 69 Gy, the trial was stopped after the dose reached 103 Gy. Estimated median follow-up was 110 months. RESULTS: There were 17 (14.6%) Grade 2 to 3 pneumonitis and 15 (13.8%) Grade 2 to 3 fibrosis and no Grade 4 to 5 lung toxicity. Multivariate analyses showed them to be (1) not associated with the dose prescribed to the tumor, and (2) significantly (p<0.001) associated with lung-dosimetric parameters such as the mean lung dose (MLD), volume of lung that received at least 20 Gy (V20), and the normal-tissue complication probability (NTCP) of the lung. If cutoffs are 30% for V20, 20 Gy for MLD, and 10% for NTCP, these factors have positive predictive values of 50% to 71% and negative predictive value of 85% to 89%. CONCLUSIONS: With long-term follow-up for toxicity, we have demonstrated that much higher doses of radiation than are traditionally administered can be safely delivered to a majority of patients with NSCLC. Quantitative lung dose-volume toxicity-based dose escalation can form the basis for individualized high-dose radiation treatment to maximize the therapeutic ratio in these patients.     

3DCRT计划中不同肺定义对肺癌放疗的影响

目的 探讨3DCRT计划中双肺－GTV、CTV、PTV三种定义下正常肺DVH参数差异及对RP的预测价值。方法 对2006—2010年间行3DCRT的147例NSCLC患者分别定义双肺－GTV、CTV、PTV正常肺并收集相关DVH剂量学信息,比较参数值差异及其对RP的预测价值。剂量学参数间差异采用成组t检验,用ROC曲线分析各剂量学因素的预测价值。结果 以MLD为例,双肺－GTV定义下与双肺－CTV、PTV的差值分别为(1.16±0.96)、(3.45±1.43) Gy。同一患者不同定义下MLD最大差值为8.73 Gy。双肺－GTV下MLD对≥2、3级RP预测价值优于双肺－CTV、PTV的,表现为ROC曲线下面积较大,分别为0.614和0.678、0.566和0.602、0.551和0.616(P=0.024和0.056、0.269和0.226、0.317和0.167)。对肺V₅—V₅₀的分析也得出类似结论。结论 基于不同定义下所得的剂量学参数存在较大差异,临床不能忽视;基于双肺－GTV所得相关剂量学参数对RP预测价值最佳,建议采用。