We evaluated treatment outcomes of thymic carcinomas to determine prognostic factors for survival.
Between May 1988 and May 2009, 41 patients had pathologic diagnosis of thymic carcinoma in Seoul National University Hospital, Seoul, Korea. Of these, 40 patients were followed up to 188 months after treatment. The mean age of all patients was 58.3 years and male to female ratio was 23 to 17.
Among 30 patients who underwent surgical resection, 26 achieved R0 resection and postoperative radiotherapy (PORT) was performed in 22 patients (73%). Various chemotherapeutic regimens were given with local treatment modalities, surgery and/or radiotherapy, in 12 patients. The 5-year locoregional control (LRC), distant metastasis-free survival, progression-free survival (PFS), and overall survival were 79.4%, 53.0%, 42.6%, and 63.6%, respectively. Patients with Masaoka stage I or II showed excellent prognosis of 5-year PFS around 90%. In advanced stages, invasion of the great vessels or atrium by thymic carcinomas was negative prognostic factor for PFS in univariate analysis. Lymph node involvement was statistically significant factor for LRC and PFS. Local or regional recurrence was infrequent after surgical resection followed by PORT, while distant metastasis was the major component of treatment failure.
Complete resection followed by PORT provided remarkable local control without severe acute toxicities in patients with stage II and favorable stage III thymic carcinoma. Invasion of the great vessels or atrium was statistically significant prognostic factor for PFS.
Thymic tumors are the most common tumor arising in the thymus, which include both thymomas and thymic carcinomas. Thymic carcinomas account for less than 1% of thymic malignancies [
The pathologic classification of thymic carcinomas had been somewhat confused until World Health Organization (WHO) pathologic classification system was published in 2004, and thus, most of previous studies reporting treatment outcomes of thymic carcinoma had included well-differentiated thymic carcinoma (WHO type B3) and thymic carcinoma (WHO type C) together and regarded them as one disease category, thymic carcinoma. Given that histologic type of the carcinoma is one of the crucial determinants of prognosis, it is necessary to evaluate treatment outcomes of thymic carcinomas separately. Granting its rare incidence, clinical studies of true thymic carcinomas are very few. Therefore, we retrospectively reviewed the clinical and pathologic data of patients with thymic carcinomas to evaluate treatment outcomes and to find prognostic factors for survivals.
Between May 1988 and May 2009, 41 patients were diagnosed as thymic carcinoma with tissue confirmation in Seoul National University Hospital, Seoul, Korea. Of these, 40 patients were the subject of the present study excluding one patient with immediate follow-up loss after treatment. The present study was approved by Institutional Review Board.
The stage of thymic carcinoma was classified based on the Masaoka staging system for thymomas and histologic subtypes were determined by findings from microscopy and immunohistochemical staining according to 2004 WHO histologic classification. We only included patients with true thymic carcinoma (type C), excluding well-differentiated thymic carcinoma (type B3), small cell carcinoma, or carcinoid tumors.
All patients were followed up for at least 12 months or until the time of their death. The median follow-up of patients was 51.0 months ranging from 6.7 to 187.5 months. After completing treatment, treatment responses were evaluated through computed tomography (CT) scan and/or positron emission tomography scan with some intervals. Disappearance of all measurable lesions was defined as complete remission (CR) and tumor size decrease less than 30% of initial long diameter as partial remission (PR). Tumor size increase larger than 20% of initial long diameter or new lesions on imaging scans was defined as progressive disease (PD), and other condition that does not meet both PR and PD as stable disease (SD).
The radiotherapy-related toxicities were evaluated by Common Terminology Criteria for Adverse Events (CTCAE) ver. 3.0.
The statistical analysis using the SPSS ver. 18 (SPSS Inc., Chicago, IL, USA) was performed, assuming that p-value less than 0.05 is statistically significant. The survival curves were generated using the Kaplan-Meier method and compared with log-rank test. The Cox proportional hazards model was applied for multivariate analysis and Fisher exact test to calculate the possibility of relationship between prognostic factors. Analysis of variance was adopted to compare the means of age between the Masaoka stages.
Patient characteristics and histologic subtypes according to the stage are summarized in
Ten patients were inoperable because of their medical problem in 2 patients, the great vessel encasement or invasion in 4, and distant metastatic disease in 4, respectively. They underwent mediastinoscopic or open biopsy. Surgical resection was generally avoided in patients with pleural implants or distant metastases. Twenty-eight of 30 (93.3%) operable patients underwent curative resection and the other 2 with pleural drop metastases did thymectomy and metastasectomy for tumor debulking.
Total thymectomy with en bloc resection of tumor was most commonly performed; wedge resection of involved lung was also performed when indicated. In 7 patients with innominate vein and/or superior vena cava (SVC) invasion, reconstruction using Gore-Tex was performed after partial resection of invaded structures. Chest wall reconstruction was done in one patient after en bloc resection of invaded chest wall. Resection margin status was as follows: R0 resection in 26 patients, R1 in 2, and R2 in 2, respectively.
A total of 12 patients underwent chemotherapy (
Among all patients, 32 underwent radiation therapy. Curative radiotherapy was performed in 5 patients with stage III and in one patient having lymph node metastasis on initial CT scan, respectively. Palliative radiotherapy was given to another 5 patients with stage IV. Preoperative and postoperative radiotherapy were performed in one and 23 patients, respectively. The patient with stage I was not candidate for PORT. Among 9 patients with stage II, 8 underwent PORT except one patient who was not fit for PORT owing to severe postoperative complication. Among 8 patients with stage III, who underwent surgical resection, PORT was delivered in 7. In stage IV, 9 of 12 patients underwent PORT, including one patient treated with total thymectomy and metastasectomy.
Megavoltage machines were utilized in treating patients. Two-dimensional radiotherapy planning system was used until 2003 and three-dimensional conformal radiotherapy was adopted thereafter. The median dose to tumor, tumor bed, and the mediastinum was 55.8 Gy (range, 54 to 61.2 Gy), 54.0 Gy (range, 45 to 60 Gy), and 45.0 Gy (range, 25.2 to 54 Gy), respectively. As for the response of radiotherapy, CR was achieved in 3 patients (21.4%) and PR in 8 (64.3%), respectively. Disease progression during radiotherapy was observed in 2 patients (14.3%).
For all patients, 5-year locoregional control (LRC), distant metastasis-free survival (DMFS), progression-free survival (DFS), and overall survival (OS) were 79.4%, 53.0%, 42.6%, and 63.5%, respectively. The OS curves according to the Masaoka stage were displayed in
The patient with stage I was disease-free at last follow-up. Among 9 patients with stage II, one distant failure had developed at 3.2 months after treatment. The 5-year LRC, DMFS, and PFS for stage II patients were 100%, 88.9%, and 88.9%, respectively.
Locoregional failure after surgical resection and PORT was not observed in patients (n = 7) with stage III; 2 local recurrences were found in patients (n = 5) who underwent definitive radiotherapy. Seven patients developed distant metastases, which were the main cause of failure in stage III. The 5-year LRC, DMFS, and DFS for stage III patients were 82.1%, 46.2%, and 38.5%, respectively.
The survivals of 17 patients with stage IV were very disappointing. All patients except 4 developed regional and/or distant metastases, which were manifested mostly within 24 months. The 5-year LRC, DMFS, and DFS for stage IV patients were 67.1%, 42.9%, and 23.5%, respectively.
Isolated local recurrence was observed in one patient who underwent definitive radiotherapy alone at 41 months of follow-up. The site of regional nodal recurrence was pulmonary lymph node outside of radiation field (n = 1), supraclavicular lymph node at the margin of radiation field (n = 1), and neck lymph node in whom not undergoing radiotherapy (n = 1), respectively. Simultaneous recurrences of local, regional, and/or distant metastasis developed in 3 patients. Locoregional recurrence rate of radiotherapy alone was 18.2% (2 of 11) and that of PORT was 8.7% (2 of 23), respectively. The most common site of metastasis was the lungs (44.4%) followed by pleura (33.3%), and liver (27.8%).
Acute side effects of radiotherapy were observed in 21 patients (61.8%); 19 in grade 1 and 2 in grade 2, respectively. Late radiation fibrosis was found in 6 patients and radiation pneumonitis in 2.
When comparing clinical and pathologic factors of all patients, under the age of 60 years old, atrium invasion by thymic carcinomas, lymph node involvement were statistically significant factors predicting PFS (
In patients with stage III, IOGVs by thymic carcinoma was detrimental to PFS (p = 0.035) in univariate analysis, but the others were not statistically significant (
The status of resection is one of the widely accepted prognostic factors for survival [
Although surgical resection remains the mainstay in the treatment of thymic carcinoma, it is unclear which combination of treatment modalities is best for improving the survival of patients with advanced disease. Moreover, the role of PORT in thymic carcinomas is still controversial. In patients with R1 or R2 resection margin, PORT serves additional local control [
The IOGVs by thymic carcinomas is a poor prognostic factor for survival, often indicating unresectable disease. Blumberg et al. [
The prognosis of patients with locally advanced disease is dismal that to improve therapeutic outcomes, several studies addressed the potential role of neoadjuvant chemotherapy. In the present study, 6 patients underwent neoadjuvant chemotherapy and obtained clinical response of 33.3% which is similar to other studies [
The staging system of thymic carcinoma is a point of dispute. Although Masaoka staging system is being widely used, the prognostic value of this system has not been proved. Some authors [
There are some limitations of the present study. Besides of its retrospective nature, the heterogeneity of chemotherapeutic agents and schedules made it difficult to evaluate the appropriate efficacy of chemotherapy. Small number of patients, which may result in a few events, is another critical limitation of the present study.
In conclusion, complete resection followed by PORT provided remarkable local control without severe toxicity in stage II and favorable stage III thymic carcinoma. IOGVs and/or atrial invasion by thymic carcinomas were significant negative predictive factors for PFS. In patients with IOGVs and/or atrial invasion, multidisciplinary approach such as neoadjvuant chemotherapy followed by local treatment, surgery and/or radiotherapy, should be considered, given the high incidence of distant failure.
This work was supported by a grant No. 04-2012-0440 from the Seoul National University Hospital Research Fund, a grant of the Korea Healthcare Technology R&D Project, Ministry of Health & Welfare, Republic of Korea (A111098 and A120313), and National R&D Program through the Dongnam Institute of Radiological & Medical Sciences funded by the Ministry of Education, Science and Technology (50595-2012).
No potential conflict of interest relevant to this article was reported.
The Kaplan-Meier overall survival curves were displayed according to the Masaoka stage. There was no difference between the Masaoka stages.
The progression-free survival curve of stage III with great vessel invasion and/or atrial invasion was not different from that of stage IV (p = 0.957).
Patients characteristics and histopathologic features according to the Masaoka stage
ECOG PS, Eastern Cooperative Oncology Group performance status.
Distribution of the patients according to treatment methods
RT, radiation therapy; PORT, postoperative radiation therapy; ACT, adjuvant chemotherapy; NACT, neoadjuvant chemotherapy.
Prognostic factors for LRC, DMFS, and PFS of all patients
LRC, locoregional control; DMFS, distant metastasis-free survival; PFS, progression-free survival; UNI, univariate analysis; MULTI, multivariate analysis; ECOG PS, Eastern Cooperative Oncology Group performance status.
Prognostic factors for LRC, DMFS, and PFS in patients with Masaoka stage III
LRC, locoregional control; DMFS, distant metastasis-free survival; PFS, progression-free survival; UNI, univariate analysis; MULTI, multivariate analysis; ECOG PS, Eastern Cooperative Oncology Group performance status.