Sara Ramella

Predicting Radiation Pneumonitis After Chemoradiation Therapy for Lung Cancer: An International Individual Patient Data Meta-analysis

BACKGROUND Radiation pneumonitis is a dose-limiting toxicity for patients undergoing concurrent chemoradiation therapy (CCRT) for non-small cell lung cancer (NSCLC). We performed an individual patient data meta-analysis to determine factors predictive of clinically significant pneumonitis. METHODS AND MATERIALS After a systematic review of the literature, data were obtained on 836 patients who underwent CCRT in Europe, North America, and Asia. Patients were randomly divided into training and validation sets (two-thirds vs one-third of patients). Factors predictive of symptomatic pneumonitis (grade ≥2 by 1 of several scoring systems) or fatal pneumonitis were evaluated using logistic regression. Recursive partitioning analysis (RPA) was used to define risk groups. RESULTS The median radiation therapy dose was 60 Gy, and the median follow-up time was 2.3 years. Most patients received concurrent cisplatin/etoposide (38%) or carboplatin/paclitaxel (26%). The overall rate of symptomatic pneumonitis was 29.8% (n=249), with fatal pneumonitis in 1.9% (n=16). In the training set, factors predictive of symptomatic pneumonitis were lung volume receiving ≥20 Gy (V(20)) (odds ratio [OR] 1.03 per 1% increase, P=.008), and carboplatin/paclitaxel chemotherapy (OR 3.33, P<.001), with a trend for age (OR 1.24 per decade, P=.09); the model remained predictive in the validation set with good discrimination in both datasets (c-statistic >0.65). On RPA, the highest risk of pneumonitis (>50%) was in patients >65 years of age receiving carboplatin/paclitaxel. Predictors of fatal pneumonitis were daily dose >2 Gy, V(20), and lower-lobe tumor location. CONCLUSIONS Several treatment-related risk factors predict the development of symptomatic pneumonitis, and elderly patients who undergo CCRT with carboplatin-paclitaxel chemotherapy are at highest risk. Fatal pneumonitis, although uncommon, is related to dosimetric factors and tumor location.

Adjuvant radiotherapy in non-small cell lung cancer with pathological stage I: definitive results of a phase III randomized trial

BACKGROUND AND PURPOSE To evaluate the benefits and the drawbacks of post-operative radiotherapy in completely resected Stage I (a and b) non-small cell lung cancer (NSCLC). MATERIALS AND METHODS Patients with pathological Stages Ia and Ib NSCLC have been randomized into two groups: Group 1 (G1) received adjuvant radiotherapy, Group 0 (G0) the control group did not receive any adjuvant therapy. Local control, toxicity and survival have been evaluated. RESULTS Between July 1989 and June 1997, 104 patients with pathological stage I NSCLC have been enrolled in this study. Fifty-one patients were randomized to G1 and 53 to G0. Six patients have been excluded from the study due to incomplete follow-up data. Regarding local control, one patient in the G1 group had a local recurrence (2.2%) while in the G0 12 local recurrences have been observed (23%). Seventy-one percent of patients are disease-free at 5 years in G1 and 60% in G0 (P=0.039). Overall 5-year survival (Kaplan-Meier) showed a positive trend in the treated group: 67 versus 58% (P=0.048). Regarding toxicity in G1, six patients experienced a grade 1 acute toxicity. Radiological evidence of long-term lung toxicity, with no significant impairment of the respiratory function, has been detected in 18 of the 19 patients who have been diagnosed as having a post-radiation lung fibrosis. CONCLUSIONS Adjuvant radiotherapy gave good results in terms of local control in patients with completely resected NSCLC with pathological Stage I. Overall 5-year survival and disease-free survival showed a promising trend. Treatment-related toxicity is acceptable.

Predicting Esophagitis After Chemoradiation Therapy for Non-Small Cell Lung Cancer: An Individual Patient Data Meta-Analysis

PURPOSE Concurrent chemoradiation therapy (CCRT) improves survival compared with sequential treatment for locally advanced non-small cell lung cancer, but it increases toxicity, particularly radiation esophagitis (RE). Validated predictors of RE for clinical use are lacking. We performed an individual-patient-data meta-analysis to determine factors predictive of clinically significant RE. METHODS AND MATERIALS After a systematic review of the literature, data were obtained on 1082 patients who underwent CCRT, including patients from Europe, North America, Asia, and Australia. Patients were randomly divided into training and validation sets (2/3 vs 1/3 of patients). Factors predictive of RE (grade≥2 and grade≥3) were assessed using logistic modeling, with the concordance statistic (c statistic) used to evaluate the performance of each model. RESULTS The median radiation therapy dose delivered was 65 Gy, and the median follow-up time was 2.1 years. Most patients (91%) received platinum-containing CCRT regimens. The development of RE was common, scored as grade 2 in 348 patients (32.2%), grade 3 in 185 (17.1%), and grade 4 in 10 (0.9%). There were no RE-related deaths. On univariable analysis using the training set, several baseline factors were statistically predictive of RE (P<.05), but only dosimetric factors had good discrimination scores (c>.60). On multivariable analysis, the esophageal volume receiving ≥60 Gy (V60) alone emerged as the best predictor of grade≥2 and grade≥3 RE, with good calibration and discrimination. Recursive partitioning identified 3 risk groups: low (V60<0.07%), intermediate (V60 0.07% to 16.99%), and high (V60≥17%). With use of the validation set, the predictive model performed inferiorly for the grade≥2 endpoint (c=.58) but performed well for the grade≥3 endpoint (c=.66). CONCLUSIONS Clinically significant RE is common, but life-threatening complications occur in <1% of patients. Although several factors are statistically predictive of RE, the V60 alone provides the best predictive ability. Efforts to reduce the V60 should be prioritized, with further research needed to identify and validate new predictive factors.

Phase I Trial of Weekly Gemcitabine and Concurrent Radiotherapy in Patients With Inoperable Non–Small-Cell Lung Cancer

PURPOSE To report the evidence of a phase I trial planned to determine the maximum-tolerated dose (MTD) and related toxicity of weekly gemcitabine (GEM) and concurrent radiotherapy in patients with non--small-cell lung cancer (NSCLC). In addition, the response to treatment was evaluated and reported. PATIENTS AND METHODS Thirty-six patients with histologically confirmed NSCLC deemed unresectable because of advanced stage were observed and treated according to a combined chemoradiation protocol with GEM as chemotherapeutic agent. GEM was given weekly for 5 consecutive weeks as a 30-minute intravenous infusion concurrent with radiotherapy (1.8 Gy/d; total dose, 50.4 Gy). The initial dose was 100 mg/m(2). Pulmonary, esophageal, cardiac, hematologic, and skin toxicities were assessed. The dose of GEM was increased by 50 mg/m(2) up to a dose of 250 mg/m(2); an additional increase by 25 mg/m(2) up to the MTD was planned and realized. Three patients were enrolled for each dose level. RESULTS Dose-limiting toxicity was identified for the 375-mg/m(2) level with two episodes of grade 2 esophagitis and two of grade 3 pulmonary actinic interstitial disease. The weekly dose of GEM 350 mg/m(2) was well tolerated. CONCLUSION A weekly GEM dose of 350 mg/m(2) concurrent with radiotherapy was well tolerated. Promising results regarding response to treatment were observed and reported.

Adding Ipsilateral V20 and V30 to Conventional Dosimetric Constraints Predicts Radiation Pneumonitis in Stage IIIA–B NSCLC Treated With Combined-Modality Therapy

PURPOSE To determine lung dosimetric constraints that correlate with radiation pneumonitis in non-small-cell lung cancer patients treated with three-dimensional radiation therapy and concurrent chemotherapy. METHODS AND MATERIALS Between June 2002 and December 2006, 97 patients with locally advanced non-small-cell lung cancer were treated with concomitant radiochemotherapy. All patients underwent complete three-dimensional treatment planning (including dose-volume histograms), and patients were treated only if the percentage of total lung volume exceeding 20 Gy (V(20)) and 30 Gy (V(30)), and mean lung dose (MLD) had not exceeded the constraints of 31%, 18%, and 20 Gy, respectively. The total and ipsilateral lung dose-volume histogram parameters, planning target volume, and total dose delivered were analyzed and correlated with pneumonitis incidence. RESULTS If dose constraints to the total lung were respected, the most statistically significant factors predicting pneumonitis were the percentage of ipsilateral lung volume exceeding 20 Gy (V(20)ipsi), percentage of ipsilateral lung volume exceeding 30 Gy (V(30)ipsi), and planning target volume. These parameters divided the patients into low- and high-risk groups: if V(20)ipsi was 52% or lower, the risk of pneumonitis was 9%, and if V(20)ipsi was greater than 52%, the risk of pneumonitis was 46%; if V(30)ipsi was 39% or lower, the risk of pneumonitis was 8%, and if V(30)ipsi was greater than 39%, the risk of pneumonitis was 38%. Actuarial curves of the development of pneumonitis of Grade 2 or higher stratified by V(20)ipsi and V(30)ipsi were created. CONCLUSIONS The correlation between pneumonitis and dosimetric constraints has been validated. Adding V(20)ipsi and V(30)ipsi to the classical total lung constraints could reduce pulmonary toxicity in concurrent chemoradiation treatment. V(20)ipsi and V(30)ipsi are important if the V(20) to the total lung, V(30) to the total lung, and mean lung dose have not exceeded the constraints of 31%, 18%, and 20 Gy, respectively.

Application of a practical method for the isocenter point in vivo dosimetry by a transit signal

This work reports the results of the application of a practical method to determine the in vivo dose at the isocenter point, D(iso), of brain thorax and pelvic treatments using a transit signal S(t). The use of a stable detector for the measurement of the signal S(t) (obtained by the x-ray beam transmitted through the patient) reduces many of the disadvantages associated with the use of solid-state detectors positioned on the patient as their periodic recalibration, and their positioning is time consuming. The method makes use of a set of correlation functions, obtained by the ratio between S(t) and the mid-plane dose value, D(m), in standard water-equivalent phantoms, both determined along the beam central axis. The in vivo measurement of D(iso) required the determination of the water-equivalent thickness of the patient along the beam central axis by the treatment planning system that uses the electron densities supplied by calibrated Hounsfield numbers of the computed tomography scanner. This way it is, therefore, possible to compare D(iso) with the stated doses, D(iso,TPS), generally used by the treatment planning system for the determination of the monitor units. The method was applied in five Italian centers that used beams of 6 MV, 10 MV, 15 MV x-rays and (60)Co gamma-rays. In particular, in four centers small ion-chambers were positioned below the patient and used for the S(t) measurement. In only one center, the S(t) signals were obtained directly by the central pixels of an EPID (electronic portal imaging device) equipped with commercial software that enabled its use as a stable detector. In the four centers where an ion-chamber was positioned on the EPID, 60 pelvic treatments were followed for two fields, an anterior-posterior or a posterior-anterior irradiation and a lateral-lateral irradiation. Moreover, ten brain tumors were checked for a lateral-lateral irradiation, and five lung tumors carried out with three irradiations with different gantry angles were followed. One center used the EPID as a detector for the S(t) measurement and five pelvic treatments with six fields (many with oblique incidence) were followed. These last results are reported together with those obtained in the same center during a pilot study on ten pelvic treatments carried out by four orthogonal fields. The tolerance/action levels for every radiotherapy fraction were 4% and 5% for the brain (symmetric inhomogeneities) and thorax/pelvic (asymmetric inhomogeneities) irradiations, respectively. This way the variations between the total measured and prescribed doses at the isocenter point in five fractions were well within 2% for the brain treatment, and 4% for thorax/pelvic treatments. Only 4 out of 90 patients needed new replanning, 2 patients of which needed a new CT scan.

Integration between in vivo dosimetry and image guided radiotherapy for lung tumors

The article reports a feasibility study about the potentiality of an in vivo dosimetry method for the adaptive radiotherapy of the lung tumors treated by 3D conformal radiotherapy techniques (3D CRTs). At the moment image guided radiotherapy (IGRT) has been used for this aim, but it requires taking many periodic radiological images during the treatment that increase workload and patient dose. In vivo dosimetry reported here can reduce the above efforts, alerting the medical staff for the commissioning of new radiological images for an eventual adaptive plan. The in vivo dosimetry method applied on 20 patients makes use of the transit signal St on the beam central axis measured by a small ion chamber positioned on an electronic portal imaging device (EPID) or by the EPID itself. The reconstructed in vivo dosimetry at the isocenter point Diso requires a convolution between the transit signal St and a dose reconstruction factor C that essentially depends on (i) tissue inhomogeneities along the beam central axis and (ii) the in-patient isocenter depth. The C factors, one for every gantry angle, are obtained by processing the patients computed tomography scan. The method has been recently applied in some Italian centers to check the radiotherapy of pelvis, breast, head, and thorax treatments. In this work the dose reconstruction was carried out in five centers to check the Diso in the lung tumor during the 3D CRT, and the results have been used to detect the interfraction tumor anatomy variations that can require new CT imaging and an adaptive plan. In particular, in three centers a small ion chamber was positioned below the patient and used for the St measurement. In two centers, the St signal was obtained directly by 25 central pixels of an a-Si EPID, equipped with commercial software that enabled its use as a stable detector. A tolerance action level of +/- 6% for every checked beam was assumed. This means that when a difference greater than 6% between the predicted dose by the treatment planning system, Diso,TPS, and the Diso was observed, the clinical action started to detect possible errors. 60% of the patients examined presented morphological changes during the treatment that were checked by the in vivo dosimetry and successively confirmed by the new CT scans. In this work, a patient that showed for all beams Diso values outside the tolerance level, new CT scans were commissioned for an adaptive plan. The lung dose volume histograms (DVHs) for a Diso,TPs=2 Gy for fraction suggested the adaptive plan to reduce the dose in lung tissue. The results of this research show that the dose guided radiotherapy (DGRT) by the Diso reconstruction was feasible for daily or periodic investigation on morphological lung tumor changes. In other words, since during 3D CRT treatments the anatomical lung tumor changes occur frequently, the DGRT can be well integrated with the IGRT.

18f-choline positron emission tomography/computed tomography-driven high-dose salvage radiation therapy in patients with biochemical progression after radical prostatectomy: Feasibility study in 60 patients

PURPOSE To retrospectively review data of a cohort of patients with biochemical progression after radical prostatectomy, treated according to a uniform institutional treatment policy, to evaluate toxicity and feasibility of high-dose salvage radiation therapy (80 Gy). METHODS AND MATERIALS Data on 60 patients with biochemical progression after radical prostatectomy between January 2009 and September 2011 were reviewed. The median value of prostate-specific antigen before radiation therapy was 0.9 ng/mL. All patients at time of diagnosis of biochemical recurrence underwent dynamic (18)F-choline positron emission tomography/computed tomography (PET/CT), which revealed in all cases a local recurrence. High-dose salvage radiation therapy was delivered up to total dose of 80 Gy to 18F-choline PET/CT-positive area. Toxicity was recorded according to the Common Terminology Criteria for Adverse Events, version 3.0, scale. RESULTS Treatment was generally well tolerated: 54 patients (90%) completed salvage radiation therapy without any interruption. Gastrointestinal grade ≥2 acute toxicity was recorded in 6 patients (10%), whereas no patient experienced a grade ≥2 genitourinary toxicity. No grade 4 acute toxicity events were recorded. Only 1 patient (1.7%) experienced a grade 2 gastrointestinal late toxicity. With a mean follow-up of 31.2 months, 46 of 60 patients (76.6%) were free of recurrence. The 3-year biochemical progression-free survival rate was 72.5%. CONCLUSIONS At early follow-up, (18)F-choline PET/CT-driven high-dose salvage radiation therapy seems to be feasible and well tolerated, with a low rate of toxicity.

Multimodality Treatment of Stage III Non-small Cell Lung Cancer: Analysis of a Phase II Trial Using Preoperative Cisplatin and Gemcitabine with Concurrent Radiotherapy

Introduction: We report the results of a phase II trial exploring the efficacy and the feasibility of combination of gemcitabine and cisplatin concurrent with radiotherapy followed by surgery in patients with stage III non-small cell lung cancer. Methods: Patients with histocytologically confirmed non-small cell lung cancer were treated with cisplatin 80 mg/sqm/wk of 1 and 4 or 20 mg/sqm/d of weeks 1 and 4 and weekly gemcitabine at 300 to 350 mg/m2 plus involved field radiotherapy. A 3D-conformal radiotherapy was delivered up to 50.4 Gy, with daily fractionation of 1.8 Gy. After clinical, radiologic, and pneumological reassessment, patients who reentered criteria for resectability were operated. Results: The stage at diagnosis was IIIA-N2 in 29 patients and IIIB-T4N0-2 for vascular direct infiltration for the remaining 21. Fifteen patients (30%) experienced acute grade 3 to 4 hemathological toxicity, whereas acute grade 3 esophageal toxicity was recorded in three patients (6%). One patient developed a grade 4 pulmonary toxicity (2%). Clinical response was 40 (80%) partial response, one (2%) stable disease, and nine (18%) progressive disease. Thirty-six patients (72%) underwent surgery. Final pathology showed a downstaging to stage 0 to I in 25 cases (50%). Median overall survival for all patients was 21.8 months, with a 3-year survival of 40.2%. Conclusions: The results of this phase II trial confirm the feasibility and the efficacy of concurrent chemoradiotherapy followed by surgery.

Novel prognostic groups in thymic epithelial tumors: assessment of risk and therapeutic strategy selection.

PURPOSE To assess the role of multimodality treatment on patients with thymic epithelial tumors (TETs) (i.e., thymomas and thymic squamous cell carcinoma) and to define the prognostic classes according to the Masaoka and World Health Organization histologic classification systems. METHODS AND MATERIALS Primary surgery was the mainstay of therapy. Extended thymectomy was performed in all cases. The cases were primarily staged according to the Masaoka system. Adjuvant radiotherapy was given to patients diagnosed with Masaoka Stage II, III, and IVA TET. Adjuvant chemotherapy was administered in selected cases. RESULTS We reviewed the records of 120 patients with TETs, with a mean follow-up of 13.8 years. Of the 120 patients, 98 (81.6%) received adjuvant radiotherapy. Of these 98 patients, Grade 1-2 pulmonary or esophageal toxicity was acute in 12 (12.2%) and late in 8 (8.2%). The median overall survival was 21.6 years. Of the 120 patients, 106 were rediagnosed and reclassified according to the World Health Organization system, and the survival rate was correlated with it. Three different prognostic classes were defined: favorable, Masaoka Stage I and histologic grade A, AB, B1, B2 or Masaoka Stage II and histologic grade A, AB, B1; unfavorable, Stage IV disease or histologic grade C or Stage III and histologic grade B3; intermediate, all other combinations. The 10- and 20-year survival rate was 95% and 81% for the favorable group, 90% and 65% for the intermediate group, and 50% and 0% for the unfavorable group, respectively. Local recurrence, distant recurrence, and tumor-related deaths were also evaluated. CONCLUSION The analysis of our experience singled out three novel prognostic classes and the assessment of risk identified treatment selection criteria.