To report single-institutional clinical outcomes and toxicity with SBRT for cholangiocarcinoma. Methods From March 2009 to July 2011, 10 patients with 12 unresectable primary (n = 6) or recurrent (n = 6) cholangiocarcinoma lesions underwent abdominal SBRT. Sites treated included liver (n = 10), abdominal lymph nodes (n = 1), and adrenal gland (n = 1). SBRT was delivered in three (n = 2) or five (n = 10) consecutive daily fractions over one week. The median prescription dose was 55 Gy (range, 45–60). Treatment response was graded by RECIST v.1.1, and toxicities were scored by CTCAE v.4.0. Data was analyzed using the Kaplan-Meier method to determine rates of local control (LC), freedom from distant progression (FFDM) and overall survival (OS). Results The median follow-up was 14 months (range, 2–26 months). LC, defined as freedom from progression within the SBRT field, was 100%, but four patients treated to intrahepatic sites experienced progression elsewhere in the liver. Estimates for FFDM at 6 and 12 months were 73% and 31%, respectively. Sites of disease relapse included liver (n = 3), liver and lymph nodes (n = 1), liver and lungs (n = 1), lymph nodes (n = 1), and mesentery (n = 1). OS estimates for the cohort at 6 and 12 months were 83% and 73%, respectively. The most common Grade ≥2 early toxicities were Grade 2 nausea and vomiting (n = 5) and gastrointestinal pain (n = 2). Late ≥2 toxicities included Grade 2 gastrointestinal pain (n = 3), Grade 3 biliary stenosis (n = 1), and Grade 5 liver failure (n = 1). Conclusions SBRT shows promise as an effective local therapy for properly-selected patients with cholangiocarcinoma. Further follow-up is needed to better quantify the risk of late complications associated with SBRT.
R E S E A R C HOpen Access Clinical outcomes and toxicity using Stereotactic Body Radiotherapy (SBRT) for advanced cholangiocarcinoma 1,2* 11 1 Brandon M Barney, Kenneth R Olivier , Robert C Millerand Michael G Haddock
Abstract Background:To report singleinstitutional clinical outcomes and toxicity with SBRT for cholangiocarcinoma. Methods:From March 2009 to July 2011, 10 patients with 12 unresectable primary (n= 6)or recurrent (n= 6) cholangiocarcinoma lesions underwent abdominal SBRT. Sites treated included liver (n= 10),abdominal lymph nodes (n= 1),and adrenal gland (n= 1).SBRT was delivered in three (n= 2)or five (n= 10)consecutive daily fractions over one week. The median prescription dose was 55 Gy (range, 45–60). Treatment response was graded by RECIST v.1.1, and toxicities were scored by CTCAE v.4.0. Data was analyzed using the KaplanMeier method to determine rates of local control (LC), freedom from distant progression (FFDM) and overall survival (OS). Results:The median followup was 14 months (range, 2–26 months). LC, defined as freedom from progression within the SBRT field, was 100%, but four patients treated to intrahepatic sites experienced progression elsewhere in the liver. Estimates for FFDM at 6 and 12 months were 73% and 31%, respectively. Sites of disease relapse included liver (n= 3),liver and lymph nodes (n= 1),liver and lungs (n= 1),lymph nodes (n= 1),and mesentery (n= 1).OS estimates for the cohort at 6 and 12 months were 83% and 73%, respectively. The most common Grade≥2 early toxicities were Grade 2 nausea and vomiting (n= 5)and gastrointestinal pain (n= 2).Late≥2 toxicities included Grade 2 gastrointestinal pain (n= 3),Grade 3 biliary stenosis (n= 1),and Grade 5 liver failure (n= 1). Conclusions:SBRT shows promise as an effective local therapy for properlyselected patients with cholangiocarcinoma. Further followup is needed to better quantify the risk of late complications associated with SBRT. Keywords:Stereotactic body radiotherapy, Stereotactic radiosurgery, Cholangiocarcinoma, Locally advanced
Background Cholangiocarcinoma is a rare, locallyaggressive malignancy of the biliary tree that is traditionally classified as either intra or extrahepatic, based on its location within the bile ducts. Currently, the only known curative therapy for cho langiocarcinoma is surgical resection [1,2]. Unfortunately, the majority of patients present with unresectable disease, and even when all disease is amenable to resection, local recurrence is common [1,3]. Nonsurgical options for patients with unresectable or recurrent disease include combinations of chemotherapy, external beam radiotherapy
* Correspondence: barney.brandon@mayo.edu 1 Department of Radiation Oncology, Mayo Clinic, Rochester, MN, USA 2 Mayo Clinic, 200 First Street SW, Rochester, MN 55905, USA
(EBRT), transarterial chemoembolization (TACE), radio frequency ablation (RFA), and/or photodynamic therapy (PDT) [48], although EBRT is the most common local therapy utilized for patients without metastatic disease. Yet even with this diverse array of treatment modalities, the median survival for locallyadvanced or recurrent cho langiocarcinoma is approximately 9 months, and 5year overall survival is less than 5% [9]. While the majority of patients eventually progress within the highdose region when treating with standard fractionation EBRT [5], most contemporary series have demonstrated a clinical dose–response relationship [5,10,11]. This has resulted in a renewed interest in doseescalation as a means of improving disease control and survival. One way in which dose escalation may be achieved is through the use