Rodney E Wegner1, Stephen Abel2, Shaakir Hasan2, Zachary D Horne2, Athanasios Colonias2, Benny Weksler3, Vivek Verma2. 1. Allegheny Health Network Cancer Institute, Division of Radiation Oncology, United States. Electronic address: Rodney.wegner@ahn.org. 2. Allegheny Health Network Cancer Institute, Division of Radiation Oncology, United States. 3. Allegheny Health Network, Esophagus and Lung Institute, United States.
Abstract
BACKGROUND: Atypical bronchopulmonary carcinoid tumors are rare but carry high recurrence rates following resection. The role of adjuvant therapy remains unclear owing to a lack of high-volume data. To address this knowledge gap, we examined predictors of adjuvant therapy and effects on outcome. METHODS: We queried the National Cancer Database for patients with resected stage I-III atypical carcinoid. Adjuvant therapy was defined as chest radiation, chemotherapy, or a combination thereof. Multivariable logistic regression identified predictors of adjuvant therapy. Multivariable Cox regression evaluated predictors of survival. Propensity matching accounted for indication biases. RESULTS: Overall, 533 stage I/II and 129 stage III patients were identified. Predictors for adjuvant therapy in stage I/II disease were stage II, positive margins, lymph node ratio (LNR) of 1-25%, and more remote year of treatment. Predictors for adjuvant therapy in stage III were female gender and LNR of 26-50%. Median overall survival in stage I/II and III was 116 months and 61 months, respectively. Predictors for survival in stage I/II were age, margins, comorbidity score, and LNR; factors for stage III disease were LNR and more remote year of treatment. Delivery of adjuvant therapy was not independently associated with survival in either stage I/II or III patients. Furthermore, propensity matched analysis did not reveal a benefit to adjuvant therapy. CONCLUSIONS: This study shows no clear survival benefit with adjuvant radiotherapy and/or chemotherapy, even in stage III disease. Although this implies that adjuvant therapy should not be routinely delivered, individualized judgment is still recommended.
BACKGROUND: Atypical bronchopulmonary carcinoid tumors are rare but carry high recurrence rates following resection. The role of adjuvant therapy remains unclear owing to a lack of high-volume data. To address this knowledge gap, we examined predictors of adjuvant therapy and effects on outcome. METHODS: We queried the National Cancer Database for patients with resected stage I-III atypical carcinoid. Adjuvant therapy was defined as chest radiation, chemotherapy, or a combination thereof. Multivariable logistic regression identified predictors of adjuvant therapy. Multivariable Cox regression evaluated predictors of survival. Propensity matching accounted for indication biases. RESULTS: Overall, 533 stage I/II and 129 stage III patients were identified. Predictors for adjuvant therapy in stage I/II disease were stage II, positive margins, lymph node ratio (LNR) of 1-25%, and more remote year of treatment. Predictors for adjuvant therapy in stage III were female gender and LNR of 26-50%. Median overall survival in stage I/II and III was 116 months and 61 months, respectively. Predictors for survival in stage I/II were age, margins, comorbidity score, and LNR; factors for stage III disease were LNR and more remote year of treatment. Delivery of adjuvant therapy was not independently associated with survival in either stage I/II or III patients. Furthermore, propensity matched analysis did not reveal a benefit to adjuvant therapy. CONCLUSIONS: This study shows no clear survival benefit with adjuvant radiotherapy and/or chemotherapy, even in stage III disease. Although this implies that adjuvant therapy should not be routinely delivered, individualized judgment is still recommended.