Abstract
Background/Aim: The value of neoadjuvant radiochemotherapy for high rectal cancers is controversial. This study compared surgery plus neoadjuvant radiochemotherapy to surgery alone. Patients and Methods: Fifty-two patients with stage II/III high rectal cancers treated with surgery plus neoadjuvant radiochemotherapy were matched (1:4) to 208 patients treated with surgery alone. Matching criteria included age (≤65 vs. >65 years), gender and UICC-stage (II vs. III). These criteria were identical in all five patients used for each 1:4 matching. Both groups were compared for overall survival (OS). Results: On univariate analyses, age ≤65 years (p<0.001) was significantly associated with improved OS. A trend towards improved OS was found for neoadjuvant radiochemotherapy (p=0.078) and UICC-stage II (p=0.060). On multivariate analysis, age (p<0.001) remained significant, and neoadjuvant radiochemotherapy showed a trend towards better OS (p=0.073). Conclusion: Given the limitations of this study, the results showed that neoadjuvant radiochemotherapy may improve OS in patients with stage II/III high rectal cancers. However, these results need to be verified in a prospective randomized trial.
For patients with rectal cancers of the lower third (≤5.0 cm from the anal verge according to the European Society for Medical Oncology ESMO) and the middle third (5.1-10.0 cm), treatment should include neoadjuvant radiotherapy or radiochemotherapy followed by surgery and adjuvant chemotherapy (1). However, the treatment recommendations for high rectal cancers (upper third, 10.1-15.0 cm) are less clear. Controversy exists whether high rectal cancers are more appropiately treated as colon cancers (surgery followed by chemotherapy) or as true rectal cancers including neoadjuvant radiotherapy or radiochemotherapy. Current guidelines are difficult to follow and require interpretation. For example, the recommendation of the ESMO guidelines state that a tumor located >12 cm from the anal verge (above the peritoneal reflection) should be treated as a colon cancer, which was not supported by other studies (1). Furthermore, the choice of >12 cm as cut-off did not match with the ESMO definition of high rectal cancers (i.e. 10.1-15 cm from the anal verge). Moreover, the results from randomized trials are conflicting. According to a trial from Sweden and the 5-year results of a Dutch trial, neoadjuvant radiotherapy or radiochemotherapy did not significantly improve the outcomes of patients with high rectal cancers (2, 3). In contrast, an additional analysis of a trial from Germany and the MRC CR07/NCIC-CTG C016 trial found that the addition of neoadjuvant radiotherapy or radiochemotherapy improved patient outcomes (4, 5). When considering the conflicting results from the available trials, it becomes clear that further research focusing particularly on high rectal cancers is warranted. The present study compared surgery preceded by neoadjuvant radiochemotherapy to surgery alone in patients with locally advanced high rectal cancers.
Patients and Methods
Fifty-two patients with stage II/III high rectal cancer (10.1 to 15.0 cm from the anal verge on endoscopy based on the ESMO guidelines (1)) treated with surgery preceded by neoadjuvant radiochemotherapy between 2008 and 2017 (group A) were matched (1:4) to 208 patients treated with surgery without neoadjuvant radio-chemotherapy (group B). Thus, the total number of patients included in this study was N=260. The matching criteria included age at surgery (≤65 vs. >65 years), gender and tumor stage according to the Union for International Cancer Control (UICC) (stage II vs. III) (Table I). The three criteria had to be identical in all five patients used for each 1:4 matching.
In the radio-chemotherapy group, radiotherapy was administered with 1.8 Gy fractions five times per week up to a total of 50.4 Gy. One patient refused the last fraction and received a total dose of 48.6 Gy. Irradiated volumes included the primary tumor and the regional lymph nodes. The concurrent chemotherapy consisted mainly of two cycles of 5-flourouracil or capecitabine, which were supplemented by oxaliplatin in three patients. In both treatment groups, surgery was generally performed as total mesorectal excision. Following surgery, up to 6 additional courses of chemotherapy were administered.
Both treatment groups were compared for OS, which like in the Dutch rectal cancer trial (3, 6), was referenced from the date of surgery, applying the Kaplan–Meier method (7). In addition, age, gender and UICC-stage were investigated for potential associations with OS. Differences between the Kaplan–Meier curves were calculated using the Wilcoxon test (univariate analyses). Those factors that were significant (p<0.05) or showed a trend (p<0.10) on univariate analyses were additionally evaluated for independence in a multivariate manner with the Cox regression model.
Results
In the entire cohort, the OS rates at 1, 2, 3, 4 and 5-years were 92%, 84%, 76%, 69% and 65%, respectively. On univariate analyses, age ≤65 years (p<0.001) was significantly associated with improved OS. In addition, a trend was found for the addition of neoadjuvant radiochemotherapy (p=0.078, Figure 1) and UICC-stage II (p=0.060). Detailed results of the univariate analysis of OS are shown in Table II. On multivariate analysis, age (risk ratio (RR)=2.56, 95% confidence interval (CI)=1.63–4.10, p<0.001) maintained significance, and neoadjuvant radiochemotherapy showed a trend towards improved OS (RR=1.86, 95%CI=0.95-4.22, p=0.073). The UICC-stage was not significant on multivariate analysis (RR=1.53, 95%CI=0.89-2.84, p=0.13).
Discussion
Rectal cancer is a very common tumor with an annual incidence of 15-25 new cases per 100,000 inhabitants in the European Union, which is expected to further increase in the future (1). Therefore, considerable efforts have been undertaken to discover new more active systemic agents, radiochemotherapy protocols and surgical techniques, in order to improve the outcomes for these patients (8-12). One important question that has not been answered clearly is whether patients with high rectal cancers benefit more from neoadjuvant radiotherapy or radio-chemotherapy like patients with rectal cancers of the lower and middle third. No randomized trial is available that was particularly focused on this subgroup of rectal cancer patients. Recommendations are currently based on subgroup analyses of existing trials. However, these data did not indicate the best treatment. One important trial was published in 2005, which compared surgery preceded by short-course radiotherapy with 5×5 Gy to surgery alone in 908 patients with rectal cancer (2). In the entire cohort, 243 patients had high rectal cancer, which was defined as located ≥11 cm from the anal verge. In this subgroup, the local recurrence rates were 8% with and 12% without neoadjuvant radiotherapy (p=0.3). Similar results were obtained from a Dutch trial of 1,748 eligible patients, of whom 533 patients had high rectal cancer located 10.1-15-0 cm from the anal verge, that also compared surgery plus neoadjuvant radiotherapy with 5×5 Gy to surgery alone (3, 6). At 2 years, the local recurrence rates in patients with high rectal cancer were 3.8% without and 1.3% with neoadjuvant radiotherapy (p=0.17) (6). At 5 years, the local recurrence rates were 6.2% and 3.7%, respectively (p=0.12) (3). In contrast to these trials, the addition of neoadjuvant radiotherapy or radiochemotherapy led to better outcomes in subgroup analyses of two other trials (4, 5). In the MRC CR07 trial, 207 of 1,350 patients had high rectal cancer (10.1-15.0 cm from the anal verge) (4). Patients received either neoadjuvant radiotherapy with 5×5 Gy followed by surgery or surgery alone. In the minority of patients with an involvement of the circumferential resection margin, surgery was supplemented by adjuvant radiochemotherapy (45 Gy in 1.8-Gy fractions plus concurrent 5-FU). Three-year local recurrence rates were 1.2% in patients with and 6.2% in patients without neoadjuvant radiotherapy (hazard ratio(HR)= 0.16; 95% confidence interval(CI)= 0.07-0.47, p<0.05) (4). In an update analysis of a randomized trial from Germany (13), 5-year local recurrence rates were 2.5% in patients with high rectal cancers (10.0-16.0 cm from anal verge) receiving preoperative radiochemotherapy (N=83) compared to 10.4% in those patients with high rectal cancers (N=45) who did not receive preoperative or postoperative radiochemotherapy (5).
Since the results from these prospective trials are conflicting, additional comparative studies, particularly focusing on the treatment of high rectal cancers, are needed. Therefore, the present study compared surgery with and without neoadjuvant radiochemotherapy in patients with locally advanced high rectal cancer. To our knowledge, this is the first study particularly focusing on patients with high rectal cancers. Our previous study including almost the same radiochemotherapy cohort as this study demonstrated that the regimen used for neoadjuvant radiochemotherapy was well tolerated (14). Grade 3 acute toxicities were observed in 19% of patients, and were less common than in the neoadjuvant treatment group of the German trial (27% grade 3 or 4 toxicities) (13, 14). Late toxicities were mild or moderate. Forty-three percent of the patients experienced at least one surgery-related complication, but all complications were managed (14).
In the present study, 52 patients receiving a neoadjuvant radiochemotherapy regimen were matched and compared to 208 patients who received no neoadjuvant treatment. In both univariate and multivariate analyses, addition of radiochemotherapy showed a trend towards better OS. Thus, neoadjuvant radiochemotherapy may provide a benefit for patients with high rectal cancers and not only for those patients with tumors of the lower and middle third. When interpreting these results, the limitations of the present study need to be considered including its retrospective design, which bears the risk of hidden selection biases, and the fact that the patients were matched for only three criteria. However, results of a properly designed, prospective randomized trial will likely not be available soon. Hopefully, the present study will pave the way for such a trial.
In summary, given the limitations of this study, neoadjuvant radiochemotherapy showed a trend for improved OS in patients with stage II/III high rectal cancers. However, the results need to be verified in a prospective randomized trial. The findings of the present study suggest that the role of neoadjuvant radiochemotherapy, which currently is not the standard treatment for high rectal cancers, may be underestimated. This study will hopefully encourage physicians treating rectal cancer patients to initiate a randomized trial comparing surgery preceded by radiochemotherapy to surgery alone in patients with high rectal cancers.
Acknowledgements
The study is part of the project InnoCan, which is funded by Interreg Deutschland-Danmark with funds from the European Regional Development Fund.
Footnotes
Conflicts of Interest
On behalf of all Authors, the corresponding Author states that there is no conflict of interest related to this study.
- Received October 29, 2018.
- Revision received November 2, 2018.
- Accepted November 5, 2018.
- Copyright© 2018, International Institute of Anticancer Research (Dr. George J. Delinasios), All rights reserved