Integrating radiation oncology into the management of pancreatic cancer
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Although some improvements have been made in recent years, the prognosis of pancreatic ductal adenocarcinoma remains poor. Surgical resection followed by adjuvant systemic therapy is the only curative treatment option in early stage disease. The role of radiotherapy in the treatment of pancreatic cancer is not well defined and still controversially discussed. Following the results of the ESPAC-1 trial, adjuvant radiochemotherapy (RCT) was no longer employed in most European countries. Nevertheless, in high-risk situations for local recurrence, the addition of adjuvant radiochemotherapy to adjuvant systemic therapy should be discussed, as it may lead to prolonged local tumor control. In resectable tumors, neoadjuvant radiochemotherapy or stereotactic body radiation therapy combined with systemic therapy showed encouraging results in phase I/II trials without increasing postoperative morbidity. Until the results of prospective randomized trials are available, neoadjuvant therapy in resectable pancreatic cancer is only recommended in clinical trials. In borderline resectable and locally advanced tumors, the addition of radiochemotherapy to systemic therapy leads to improved tumor response, and 20–30% of locally advanced tumors can be resected after neoadjuvant therapy. In locally advanced tumors with stable disease after systemic therapy, the addition of radiochemotherapy should be discussed to increase local control and prolong time to local progression. Modern radiotherapy with image guidance, intensity-modulated radiotherapy, and stereotactic body radiotherapy offer new perspectives for the future and will be part of modern multimodal treatment concepts to improve the outcome of pancreatic cancer.
KeywordsPancreatic ductal adenocarcinoma Neoadjuvant therapy Radiotherapy Chemoradiation Stereotactic body radiation therapy
Pancreatic ductal adenocarcinoma is one of the most challenging diseases of the twenty-first century and is still associated with a fatal prognosis. With a survival expectancy of 5–10% at 5 years, the prognosis has not improved over the past 10 years. 80% of the patients are diagnosed with locally advanced disease or metastasis. Only approximately 20% of the patients present with potentially curable (resectable/borderline resectable) disease. Standard treatment for resectable disease is upfront surgery followed by adjuvant systemic therapy. Even if the multidisciplinary approach has made some progress, 5‑year overall survival (OS) rates only reach 25–30% at best . The role of radiotherapy in the treatment of pancreatic cancer is controversially discussed and not yet clearly defined. While the National Comprehensive Cancer Network (NCCN) recommends radio(chemo)therapy more widely, European guidelines limit the use of radiotherapy to the borderline resectable situation after chemotherapy, in clinical trials, or in the palliative setting [2, 3]. Which patients benefit most from radiotherapy cannot yet be fully answered. The aim of this short review is to summarize possibilities and limitations of modern radiotherapy in the treatment of pancreatic cancer as well as to give a future perspective.
5-year survival following surgery with curative intent is less than 20%. Many efforts involving adjuvant chemotherapy, radiotherapy, or the combination of both have been made to improve survival. Adjuvant chemotherapy with gemcitabine was a long-time standard, reaching a 5-year overall survival of 24 months. The results of the ESPAC-4 trial suggest that the addition of capecitabine to gemcitabine results in improved survival . That adjuvant chemotherapy with mFOLFIRINOX is superior to gemcitabine with significantly improved disease-free, metastasis-free, and overall survival has been recently published . The GITSG 9173 trial compared postoperative radiotherapy combined with 5‑FU to no adjuvant treatment for resected adenocarcinoma of the pancreas. Patients who received postoperative radiochemotherapy (RCT) had improved survival (20 vs. 11 months median survival) . Referring to this trial, adjuvant RCT is still an acceptable choice for adjuvant treatment of pancreatic cancer in the US.
Most data comparing adjuvant RCT and chemotherapy did not show a clear advantage of the addition of radiation therapy. Results of ESPAC-1 even suggest that the addition of radiation to adjuvant 5‑FU chemotherapy may be harmful . We learn from the ESPAC-4 results that there is still a need for improvement of local control after curative resection of pancreatic cancer: 50% of the patients suffer from local recurrence, and R1-resected patients did not show a clear improvement of median overall survival (23.0 vs. 23.7 months) through the addition of capecitabine compared to R0-resected patients (27.9 vs. 39.5 months) . The EORTC-40013-22012/FFCD-9203/GERCOR phase II study randomly assigned patients to receive either four cycles of gemcitabine (control arm) or gemcitabine for two cycles followed by weekly gemcitabine with concurrent radiation (50.4 Gy; 1.8 Gy per fraction; RCT arm). Median OS was 24 months in both arms. The rate of local recurrence alone as first progression was notably lower in the CRT arm (11 vs. 24%). The authors concluded that adjuvant gemcitabine-based RCT is feasible, well-tolerated, and not deleterious. Further adding RCT to full-dose adjuvant gemcitabine after resection of pancreatic cancer should be evaluated in a phase III trial . A multi-institutional retrospective review of 955 patients with resected pancreatic cancer evaluated the use of adjuvant RCT (50.4 Gy; 1.8 Gy per fraction) in combination with 5‑FU or capecitabine chemotherapy compared to adjuvant chemotherapy alone. The results of this analysis showed improved survival with adjuvant RCT compared to chemotherapy alone (median overall survival 39.9 vs. 24.8 months) . Another analysis of the National Cancer Data Base observed superior survival among patients with resected pancreatic adenocarcinoma treated with adjuvant RCT versus adjuvant chemotherapy alone (median overall survival 22.3 vs. 20.0 months). This benefit was pronounced for patients with risk factors for locoregional recurrence, including node positivity and microscopically positive resection margins .
In conclusion, the role of adjuvant RCT remains controversial and needs further investigation to clearly define which patients benefit from the addition of RCT to adjuvant chemotherapy. Modern radiotherapy concepts such as stereotactic body radiotherapy (SBRT), intensity-modulated radiotherapy (IMRT), and simultaneous integrated boost (SIB) concepts offer the possibility to apply higher radiation doses to the tumor bed. Whether the combination of these radiation concepts to adjuvant chemotherapy leads to improved survival outcome needs to be validated by randomized trials in the future. The general use of adjuvant RCT cannot be supported according to the present data. Individual therapy concepts including the addition of radiochemotherapy to adjuvant chemotherapy especially for patients with high-risk criteria for locoregional recurrence such as R1 resection and positive nodal status should be discussed in interdisciplinary tumor boards and may lead to improved local tumor control.
Due to the relation of the pancreas to adjacent organs and vessels, even patients with resectable pancreatic cancer show a very high rate of R1 resections, especially at retroperitoneal margins. The implementation of a standard pathological protocol showed an increased R1 resection rate up to 76% . In addition, CONKO-001 as well as ESPAC-4 showed that the rate of patients receiving full-dose adjuvant therapy does not exceed 65% [4, 12]. The potential benefits of neoadjuvant therapy include a higher proportion of patients with resectable disease experiencing an R0 resection as well as receiving full-dose systemic therapy. Furthermore, down-sizing of the tumor as well as early treatment of micrometastasis could be achieved by the neoadjuvant approach. However, patients with resectable disease receiving neoadjuvant treatment may develop complications which could delay surgery, lead to tumor progression, and even carry the risk of becoming unresectable.
Neoadjuvant radiochemotherapy in resectable pancreatic cancer
The role of neoadjuvant RCT in resectable pancreatic cancer has been investigated in many clinical trials. Several prospective trials comparing neoadjuvant RCT and surgery to surgery alone showed that neoadjuvant RCT is feasible, safe, and efficacious. However, as a result of slow recruitment and early termination, only non-significant results were obtained [13, 14]. The recently published GEMCAD 10-03 trial studied the use of neoadjuvant gemcitabine/erlotinib followed by neoadjuvant concomitant RCT (45 Gy; 1.8 Gy per fraction) with gemcitabine/erlotinib. Adverse effects were limited to mild gastrointestinal disorders. The resectability rate was 76%, with an R0 rate of 63%. R0-resected patients had a better median overall survival compared to R1 or non-resected patients. With a promising median overall survival of 23.4 months, the authors support further investigation in neoadjuvant strategies in resectable pancreatic cancer . A meta-analysis and systematic review were conducted to determine overall survival, mortality rate, and complete resection rate after neoadjuvant RCT compared to resection alone in patients with resectable pancreatic cancer. The analysis revealed that the neoadjuvant group may have an overall survival benefit as compared to the resection alone group, although it did not reach statistical significance. No difference in the in-hospital mortality rate was found. The complete resection rate was significantly higher in the neo-adjuvant group than in the surgery alone group (p = 0.012) . Clinical trials such as the phase III NEOPA trial (NCT01900327), which is comparing neoadjuvant gemcitabine RCT to upfront surgery, are still recruiting . According to the available data, neoadjuvant RCT probably leads to higher R0 resection rates in resectable pancreatic cancer but cannot yet be recommended out of clinical trials.
Neoadjuvant radiochemotherapy in borderline resectable pancreatic cancer
Compared to resectable tumors, borderline resectable tumors are generally amenable for resection but bear an increased risk of incomplete resection and thus poor prognosis. Small retrospective studies and two meta-analyses including patients with resectable and borderline resectable lesions have reported an even better survival outcome after neoadjuvant treatment for these patients than for those with immediately resectable tumors [18, 19]. More recent studies combined induction chemotherapy followed by RCT to improve the results of neoadjuvant treatment. Katz et al. reported on 84 patients treated at the MD Anderson Cancer Center with 2–4 months of gemcitabine-based chemotherapy followed by RCT (50.4 Gy in 28 fractions or 30 Gy in 10 fractions with concomitant 5‑FU, paclitaxel, gemcitabine, or capecitabine). 32 patients (38%) underwent resection and showed negative margins in 96.8%. Median overall survival in resected patients was 40 months versus 15 months in unresected patients (p = 0.001) . Another group investigated induction FOLFIRINOX followed by chemoradiation (50.4 Gy; 1.8 Gy per fraction) with concomitant gemcitabine or capecitabine in patients suffering from borderline resectable pancreatic cancer. 15 of 18 patients underwent surgery, with 3 found to have occult metastatic disease intraoperatively; 12 (80%) successfully underwent R0 resection. FOLFIRINOX followed by RCT was found to be safe and did not adversely affect completion of all intended therapy, including chemoradiation and surgery. In addition, resection rates were favorable and final pathology results were encouraging in this high-risk population . The Alliance A021101 trial evaluated patients with borderline resectable pancreatic cancer. These patients received modified FOLFIRINOX and chemoradiation (50.4 Gy in 28 fractions) with concurrent capecitabine (825 mg/m2, twice a day) prior to intended surgical resection and postoperative gemcitabine (1000 mg/m2 on days 1, 8, and 15 for two cycles). Among 22 patients who started protocol therapy, all 22 completed FOLFIRINOX and 21 (95%) completed chemoradiation. Among the 15 (68%) patients who underwent pancreatectomy, 14 (93%) had negative margins. The patients who underwent resection had an 18-month overall survival rate of 67% versus 43% for those who had not undergone resection (p = 0.001). Median survival of the overall group was 21.7 months . The ongoing ALLIANCE trial A021501 is investigating preoperative extended chemotherapy (eight cycles of mFOLFIRINOX) versus chemotherapy (seven cycles of mFOLFIRINOX) followed by stereotactic body radiation therapy (SBRT; 33–40 Gy in 5 fractions) in patients with borderline resectable pancreatic cancer . The first results of the PREOPANC study group were presented at ASCO 2018. The study recruited 246 patients with resectable or borderline resectable pancreatic cancer. Patients were randomized either to immediate surgery or to preoperative chemotherapy (gemcitabine) and chemoradiotherapy (36 Gy in 15 fractions of 2.4 Gy with concomitant gemcitabine) followed by surgery. The resection rate in the immediate surgery group was non-significantly increased compared to the group which received preoperative therapy (72% vs. 61%; p = 0.087). However, there was a significant improvement in the R0 resection rate in the neoadjuvant group (63% vs. 31%; p = 0.001). The reported adverse events were not significantly different. There was an improved survival in the intention to treat analysis, with 17.1 months in the neoadjuvant group compared to 13.7 months in the immediate surgery group, which didn’t reach the level of significance (p = 0.074). Median disease-free survival was significantly better in the neoadjuvant group, with 9.9 months versus 7.9 months (p = 0.023). The median distant metastasis-free interval was 18.4 months in the neoadjuvant arm versus 10.6 months in the immediate surgery arm (p = 0.013). Additionally, the locoregional recurrence-free interval was improved with neoadjuvant therapy compared to surgery and adjuvant therapy (median: not reached vs. 11.8 months; p < 0.001). A subgroup analysis of patients who actually underwent resection and started adjuvant gemcitabine was performed and showed a median overall survival of 19.1 months in the immediate surgery arm versus 42.1 months in the neoadjuvant treatment arm (p < 0.001) . According to the favorable results of neoadjuvant therapy in borderline resectable pancreatic cancer, upfront resection is no longer recommended by the NCCN Guidelines . As long as results from randomized trials are still lacking, patients with borderline resectable lesions should be included in clinical trials. In routine practice, if a patient is not included in a trial, a period of chemotherapy (gemcitabine or FOLFIRINOX) followed by RCT and surgery is recommended by the EMSO practical guidelines .
Treatment of locally advanced disease
About one third of the patients with pancreatic carcinoma present with unresectable tumors but without distant metastasis. These tumors are defined as locally advanced disease and are commonly considered as incurable. The treatment of locally advanced tumors has been evaluated in many trials and consists of either systemic therapy alone or in combination with RCT. Regardless of the treatment strategy, median overall survival remains poor, with 12–15 months. The advantage of RCT over best supportive care was evaluated in a small randomized trial and showed significantly improved overall survival, better quality of life, and a lower rate of distant metastasis in the RCT group . The GITSG trial demonstrated the superiority of 5‑FU based RCT over radiotherapy alone in locally advanced pancreatic cancer. In the RCT group, mean overall survival was significantly better than in the radiotherapy arm with 10.4 vs. 6.3 months. The trial further showed that a dose escalation of 60 Gy compared to 40 Gy did not improve survival but caused higher treatment-related toxicity . Three prospective randomized trials have been conducted comparing the use of RCT to chemotherapy alone in locally advanced pancreatic cancer. In the FFCD/SFRO phase III trial, 119 patients with locally advanced tumors were randomly assigned to either induction chemoradiotherapy (60 Gy; 2 Gy per fraction, combined with 5‑FU/cisplatin) or gemcitabine without radiotherapy. Both arms received maintenance gemcitabine up to disease progression or severe treatment-related toxicity. Overall survival was lower in the RCT group, with 8.6 months compared to 13 months in the chemotherapy group. In must be acknowledged that in the RCT group, only 42% of the patients received at least 75% of the scheduled radiation and chemotherapy dose . In another trial comparing RCT (50.4 Gy; 1.8 Gy per fraction) with concomitant gemcitabine to gemcitabine alone, overall survival was significantly improved in the chemoradiation arm (11.1 vs. 9.2 months). Gemcitabine in combination with radiotherapy caused increased but manageable toxicities compared to chemotherapy alone . The LAP07 randomized trial investigated the effect of chemoradiotherapy (54 Gy; 1.8 Gy per fraction with concurrent capecitabine) versus chemotherapy alone on survival in patients with locally advanced pancreatic cancer, controlled after 4 months of gemcitabine with or without erlotinib. Median overall survival was not significantly different between chemotherapy with 16.5 months and RCT with 15.2 months. RCT was associated with decreased local progression and didn’t show an increase in grade 3 to 4 toxicity, except for nausea. The median delay until treatment reinduction was significantly longer in the RCT group, with 6.1 months compared to 3.7 months in the chemotherapy group (p = 0.02) . A systematic review and meta-analysis of response and resection percentages after neoadjuvant therapy showed that approximately one third of initially non-resectable pancreatic tumors became resectable after neoadjuvant therapy. Survival was comparable with initially resected patients . These results could be confirmed by Habermehl et al. After neoadjuvant RCT (52.2 Gy; 1.8 Gy per fraction) with concomitant gemcitabine, 26% of initially unresectable locally advanced pancreatic cancers were able to undergo secondary resection. Clear margins could be achieved in 39.2%. Patients with complete resection after RCT showed significantly increased median overall survival of 22.1 compared to 11.9 months in non-resected patients . A recently published retrospective analysis evaluated the additional use of preoperative RCT after induction FOLFIRINOX for borderline or locally advanced pancreatic adenocarcinoma. Patients with additional RCT had significantly higher R0 resection rates (89.2% vs. 76.3%; p = 0.017), ypN0 rates (76.2% vs. 48.5%; p < 0.001), as well as higher rates of pathologic major response (33.3% vs. 12.9%; p = 0.001). Patients receiving FOLFIRINOX and RCT had a lower rate of locoregional relapse (28.3% vs. 50.7%; p = 0.004) and significantly longer overall survival (57.8 vs. 35.5 months; p = 0.007) . The role of RCT in the treatment of locally advanced tumors is still controversially discussed. Ongoing prospective randomized trials such as the ABCSG P02 trial, investigating the additional use of RCT after induction FOLFIRINOX in locally advanced pancreatic cancer, should be supported. Patients with locally advanced unresectable tumors showing no signs of tumor progression after 3 cycles of chemotherapy should be evaluated for RCT and secondary resection.
New concepts: intensity-modulated radiation therapy, image guidance, dose escalation, and stereotactic body radiotherapy
Many recently published phase I–II trials have explored the benefit of stereotactic body radiation therapy (SBRT) in the treatment of pancreatic cancer, especially in borderline resectable und locally advanced disease. SBRT implements highly conformal and precise delivery of radiotherapy to apply local ablative doses to treatment volumes. SBRT is well established in the treatment of central nervous system lesions as well as pulmonary lesions. Nowadays, improvements in image guidance and patient positioning allow SBRT even to upper abdominal areas. To date, several early phase prospective trials exploring the safety and efficacy of SBRT in the treatment of pancreatic cancer have been conducted. A systemic review and pooled analysis of 19 trials of SBRT for locally advanced pancreatic cancer was recently published by Petrelli et al. The delivered dose ranged from 18 to 50 Gy in 1 to 8 fractions, with generally acceptable grade 3 to 4 toxicities . The short treatment time offers new interesting possibilities to integrate SBRT in the treatment course of full-dose systemic therapy. However, a definitive validation of this treatment modality in large randomized trials is required. Especially neoadjuvant concepts with short-course SBRT followed by full-dose systemic therapy and resection are probably one of the most interesting treatment strategies for the future.
Treating pancreatic cancer with radio(chemo)therapy is challenging due to the anatomic neighborhood of highly radiosensitive organs such as the small bowel, the kidneys, and the spinal cord. Toxicities vary depending on the dose and the schedule of radiation delivered. The major toxicities reported are related to injury of the duodenum due to the low tolerance of the intestinal mucosa to radiation. Smaller treatment volumes and more conformal dose application (IMRT, VMAT) in combination with image guidance have reduced treatment-related toxicities over the years. An important confounding factor for toxicity is the use of concurrent chemotherapeutic agents such as gemcitabine, infusional 5‑FU, or capecitabine. Modern radiotherapy allows a combination with systemic therapy, still causing only mild and manageable treatment-related toxicities. Reported adverse toxic events in the LAP07 randomized trial were not different between the chemotherapy and the RCT group except for 6 patients (5.9%) in the RCT group who suffered from grade 3 or 4 nausea . Preliminary results of the PREOPANC trial comparing neoadjuvant RCT to immediate surgery for resectable and borderline resectable pancreatic cancer did not show an increased rate of serious adverse events in the RCT arm (39% vs. 46%; p = 0.28) . That IMRT (median 54 Gy) with concurrent capecitabine (1600 mg/m2 daily in two divided doses, 5 days a week) is well tolerated could be demonstrated by Ben-Josef et al. 53% of the patients suffered from grade 1/2 nausea/vomiting and 60% of the patients developed grade 1/2 hematologic toxicity. Only 1 patient (7%) experienced grade 3 toxicity, which consisted of gastric ulceration and bleeding that responded to conservative treatment . A systematic review of SBRT for locally advanced pancreatic cancer reported a generally acceptable rate of acute grade 3 to 4 toxicities. Only 3 out of 19 studies detected grade 3 and 4 gastrointestinal toxicity rates of >10%. The proportion of chronic (late) grade 3 to 4 events did not exceed 11% (range 0–11%). In six series the grade 3 to 4 toxicity rate was 0% . In conclusion, modern radiotherapy concepts, even in combination with systemic therapy, are generally well tolerated, and treatment-related toxicities are limited to manageable grade 2–3 toxicities. Nevertheless, high dose radiotherapy may also cause severe adverse events. Therefore, treatment volumes and radiation exposure to organs at risks must be wisely considered, especially when radio-sensitizing systemic agents are concurrently applied.
The role of radiotherapy in the treatment of pancreatic cancer is still not well defined and has been controversially discussed. Most present guidelines do not recommend standard use of radiochemotherapy out of clinical trials. In the adjuvant setting, individual therapy concepts including the addition of radiochemotherapy to adjuvant chemotherapy for patients with high-risk features for locoregional recurrence, such as R1 resection and positive nodal status, should be discussed in interdisciplinary tumor boards and may lead to improved local tumor control. In the neoadjuvant setting, RCT and SBRT concepts lead to higher R0 resection rates and better local tumor control. Especially neoadjuvant concepts with short course SBRT followed by full-dose systemic therapy and resection will be one of the most interesting treatment strategies in the future. For borderline resectable disease, outside of clinical studies, a period of chemotherapy (gemcitabine or FOLFIRINOX) followed by RCT and evaluation for surgery is a feasible strategy in routine practice. Patients with locally advanced unresectable tumors showing no sign of tumor progression after three cycles of chemotherapy should be evaluated for RCT and secondary resection. The results of prospective randomized trials are needed to define the role of radiotherapy in the treatment of pancreatic cancer. Especially the evaluation of modern radiotherapy concepts such as IMRT and SBRT in combination with modern systemic agents will hopefully improve outcomes in the future.
Open access funding provided by University of Innsbruck and Medical University of Innsbruck.
Conflict of interest
R. Jäger, R. Weigel, B. Forthuber, and U. Ganswindt declare that they have no competing interests.
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