Are We Predicting Disease Progress of the Rectal Cancer Patients without Surgery after Neoadjuvant Chemoradiotherapy?
Article information
Abstract
Purpose
There are patients who do not undergo surgery, regardless of tumor response for neoadjuvant chemoradiotherapy (nCRT) in rectal cancer. However, there have been few reports focused on how oncologic outcomes are worse in these patients. We sought to investigate oncologic outcomes for these non-operated patients with rectal cancer after nCRT.
Materials and Methods
A total of 1,063 records of patients with rectal cancer who were treated with nCRT from January 2002 to December 2013 were retrospectively reviewed. We categorized patients into the non-operated group (n=77), transanal local excision (TLE) group (n=54), ortotal mesorectal excision (TME) group (n=932) and compared each group using propensity score matching.
Results
In the non-operated group, the most common reason for no surgery was patient refusal (n=64). Eleven patients were considered to have achieve clinical complete response (cCR), which was an independent prognostic factor of progression-free survival (p=0.045). In patients with disease progression in the non-operated group, the overall survival did not improved according to salvage treatments (p=0.451). The non-operated group showed worse survivals compared to the TLE or TME group before and after matching (p < 0.001). This finding was also noted in the analysis of survival only in patients with cCR.
Conclusion
In this study, non-operated patients did not secure oncologic safety regardless of cCR after nCRT. Our results suggest that a non-operative management must be carefully considered even if cCR is achieved.
Introduction
Rectal cancer is a common malignancy and almost 40,000 new cases develop annually in the United States [1,2]. Up to 70% of rectal cancer patients without metastasis present with locally advanced rectal cancer, defined as clinical stage T3-T4 and/or N1-N2 [3-5]. Rectal cancer treatment has changed in recent decades, resulting in improved outcomes [6]. Currently, neoadjuvant chemoradiotherapy (nCRT) followed by total mesorectal excision (TME) is the standard treatment for locally advanced rectal cancer [4,7]. nCRT can improve resectability, achieve better sphincter preservation, and reduce local recurrence [8]. Many studies have reported that nCRT with TME can improve survival outcome of rectal cancer patients [9-11].
Although TME is still the standard treatment for advanced rectal cancer, recent trends in minimally invasive treatments have led to an increase in local excision or “watch and wait” in patients with an excellent response to nCRT [5,6,12]. However, surgeons and oncologists occasionally meet patients who do not undergo surgery, regardless of tumor response for nCRT, for a number of reasons including advanced age, high comorbidities, patient refusal, or follow-up loss. These patients show poor oncologic outcomes compared to patients who receive optimal treatments, even if they achieve clinical complete response (cCR). Although a poor survival outcome is generally predicted for these patients, there have not been any reports on how oncologic outcomes are worse in this specific group. Thus, it is necessary to provide objective evidence of oncologic outcomes and inform expected disease progress. This analysis is also helpful for recommending the optimal treatment for these patients. In this study, we investigated the clinical features and oncologic outcomes of patients with rectal cancer who did not undergo surgery after nCRT for any reason.
Materials and Methods
1. Patients
A total of 1,063 records of patients with rectal cancer who were treated with nCRT from January 2002 to December 2013 at a tertiary university-based hospital were retrospectively reviewed. All patients had histologically-confirmed primary adenocarcinoma of the rectum located less than 10 cm from the anal verge. Patients were excluded if they did not complete nCRT or had recurrent disease, distant metastasis, synchronous malignancies, hereditary colorectal cancer, or previous treatment for cancer. This study was approved by the Samsung Medical Center Institutional Review Board.
Patients were categorized into the non-operated group (n=77), transanal local excision (TLE) group (n=54), and TME group (n=932) according to treatment after nCRT (Fig. 1). Among 77 non-operated patients, 11 were considered cCR and 66 did not achieve cCR. The most common reason for not undergoing surgery was patient refusal (n=64). High comorbidities (n=7) and new metastasis (n=5) were the next most common reasons. The remaining patient expired 8 days after completion of nCRT due to radiotherapy-induced toxicity. The patients in the TLE group did not undergo radical surgery due to patient refusal, pathologic CR (pCR), or comorbidities.
2. Pretreatment evaluation and treatments
Clinical TNM stage prior to nCRT was assessed radiologically using colonoscopy, endorectal ultrasonography (EUS), abdominopelvic computed tomography (APCT), pelvic magnetic resonance imaging (MRI), or positron emission tomography (PET). To achieve standardization of clinical staging, a single radiologist re-read the radiologic findings of the primary rectal lesion. All patients underwent preoperative radiotherapy consisting of 1.8-2.0 Gy daily fractions for a total dose of 44-54 Gy for 5 days per week. In our institution, a dose of 45 Gy was irradiated to patients until 2005. A total dose of 44 and 54 Gy were administered to patients in 2006-2008 and 2009-2010, respectively. After that date, a dose of 50.4 Gy was administered. Occasionally, one or two fractions may not be administered depending on the condition of patients. The mean dose of radiotherapy and standard deviation was 49.12±4.05 Gy. Chemotherapy was administered concurrently with radiotherapy using either 5-fluorouracil (5-FU) or a capecitabine-based regimen. Among 1,063 patients, 899 received intravenous 5-FU (425 mg/m2/day) and leucovorin (20 mg/m2/day) for 5 days during the first and fifth weeks of radiotherapy. The others received oral capecitabine (825 mg/m2/day) twice daily during radiotherapy.
cCR was assessed 6-8 weeks after the completion of nCRT with clinical and radiologic tools similar to those used in the baseline assessment of the tumor extent. In brief, cCR was defined according to the following criteria: absence of residual mass, ulceration, or significant irregularity of the rectal wall on digital rectal exam, colonoscopy, EUS, or APCT; absence of high signal intensity on diffusion-weighted imaging and low signal intensity of the apparent diffusion coefficient map in MRI; absence of significant focal discrete uptake on the rectal wall in PET; or no increase of post-treatment serum carcinoembryonic antigen (CEA) levels. Then, patients were recommended for radical surgery 6-10 weeks after completion of nCRT. However, there were patients who received TLE or did not receive any surgery following nCRT for the previously stated reasons.
3. Follow-up
In patients who received surgery, postoperative surveillance visits happened every 3 months for the first 2 years and then every 6 months for up to 5 years. Most patients underwent physical examination and chest X-ray, and were evaluated for CEA level at each visit. APCT and chest computed tomography were performed every 6 months. Colonoscopy was performed at the first year and then biennially. Patients who did not receive surgery did not undergo routine surveillance. However, most of them visited every 3-6 months and underwent physical examination and chest X-ray, and evaluation of serum CEA level. Among them, some patients underwent APCT every 6-12 months.
4. Assessment of clinical outcomes
Clinicopathologic features and survival outcomes were compared between groups. To analyze survival according to each group, we adjusted patient characteristics using propensity score matching to minimize confounding bias among the three groups. The patients were matched with a 1:1:1 ratio and 45 patients were included in each group (Fig. 1). We compared 2-year local progression-free survival (LPFS) and progression-free survival (PFS) because the median follow-up duration for progression was 19.4 months in the non-operated group, 56.1 months in the TLE group and 52.3 months in the TME group. However, we analyzed 5-year overall survival (OS) because the median follow-up duration for death was 40.8 months in the non-operated group (TLE group, 60.1 months and TME group, 58.5 months). The primary endpoint of this study was survival outcome of the non-operated group, and the secondary endpoints were clinical features and prognostic factors in this group.
5. Statistical analysis
Statistical analysis was performed using SPSS for Windows ver. 20.0 (IBM SPSS Statistics, IBM Corp., Armonk, NY). Categorical variables were compared using the chi-square test and Fisher exact probability. Propensity score matching was performed to adjust for patient characteristics, and then survival rates were analyzed using the Kaplan-Meier method and log-rank test. Multivariate analyses for prognostic factors were performed in a Cox proportional hazards model with stepwise inclusion of variables. p-values were derived from two-tailed tests and p < 0.05 was considered statistically significant.
Results
1. Clinical features of the non-operated group
Among a total of 1,063 patients, 77 were in the non-operated group and the most common reason they did not undergo surgery was patient refusal (n=64). In the non-operated group, the median age was 61.0 years (range, 33 to 82 years) and 50 patients were male. Of these 77 patients, 11 were considered cCR and 66 did not achieve cCR (Table 1).
In survival analysis, 2-year LPFS and PFS were 49.0% and 43.0%, respectively. The median follow-up duration for progression was 19.4 months. The 5-year OS was 58.3% and the median follow-up duration for death was 40.8 months. During the follow-up period, 32 patients experienced local or systemic progression and 25 expired. In 32 patients with disease progression, 20 received salvage treatments such as surgery or chemotherapy (Fig. 2). To investigate clinical features of progressed patients of the non-operated surgery group, further analyses of survival were performed. In overall progressed patients (n=32), OS was not different according to salvage treatments for their progression (p=0.451) (Fig. 3A). In locally progressed patients (n=26), similarly, there was no significant difference in OS depending on whether they had received salvage surgery for progressed lesions (p=0.226) (Fig. 3B). Among 11 patients who underwent salvage surgery, in addition, eight underwent abdominoperineal resection, two underwent palliative T-colostomy, and one underwent palliative TLE. In the survival analysis according to cCR, 11 patients with cCR showed better survival outcomes than those without cCR (n=66) (p=0.081, p=0.026, and p=0.016 in LPFS, PFS, and OS, respectively) (Fig. 3C).
For non-operated patients, the Cox proportional hazard model was performed to identify prognostic factors for survival. Factors that were significant or nearly significant (p < 0.100) in the univariate analysis were included in the multivariate analysis. In the multivariate analysis, non-cCR was an independent poor prognostic factor of PFS (p=0.045). In addition, poor histology was a poor prognostic factor of PFS and OS (p=0.002 and p=0.021, respectively) (Table 2).
2. Patient characteristics according to surgery
To evaluate clinical features of the non-operated group, clinical characteristics were compared to the TLE and TME group. Among a total of 1,063 patients, 77 were non-operated patients, and 54 and 932 were in the TLE and TME group, respectively. Older patients were more common in the non-operated group compared to the TLE and TME groups. Pretreatment clinical T and N stage were more advanced in the non-operated group and TME group compared to the TLE group. In addition, the cCR rate was the highest in TLE group (Table 1). Therefore, we adjusted the patients with 1:1:1 ratio using propensity score matching for variables described in Table 3 and 45 patients were included in each group. After matching, we determined that the patients in each group were balanced for all variables (Table 3).
3. Survival outcomes according to surgery
To investigate the survival outcomes of the non-operated group, we analyzed the 2-year LPFS, PFS, and 5-year OS for the non-operated, TLE and TME groups. Before matching, as expected, the non-operated patients showed significantly decreased LPFS, PFS, and OS rates compared to the patients of other groups (p < 0.001, all) (Fig. 4A). After matching, we still determined that the survival rates of the non-operated group were the lowest (p < 0.001, all) (Fig. 4B). Subsequently, we investigated survival outcomes of patients with cCR between three groups (n=11, 14, and 37 in non-operated group, TLE group, and TME group, respectively), and observed that the patients of the non-operated group showed worse LPFS and PFS than those of the other two groups (p < 0.001 and p=0.059, respectively). However, no patient with cCR in the non-operated group expired (Fig. 4C).
For matched patients, Cox proportional hazard model was performed to identify prognostic factors for survival. Factors that were significant or nearly significant (p < 0.100) in univariate analysis were included in the multivariate analysis. Results of multivariate analysis revealed that no surgery was the only independent poor prognostic factor of PFS and OS in rectal cancer patients who received nCRT (p < 0.001 and p=0.001, respectively) (Table 4).
Discussion
In this study, we investigated disease progress of rectal cancer patients who did not receive surgery regardless of tumor response for nCRT. For both overall and matched patients, the non-operated patient group showed worse survival outcomes compared to the patients who underwent TME or TLE after nCRT. This finding was also noted in the analysis of survival only in patients with cCR.
Recently, there has been growing evidence of the oncologic feasibility of non-operative management for the patients with cCR after nCRT in rectal cancer. Studies from the Habr-Gama group reported good local control rates and long-term survival in patients with cCR after nCRT [13-15]. Another multicenter study reported that there was no significant difference in survival between the non-operated group with cCR and the operated group after nCRT [16]. In addition, other study groups reported similar results [5,17]. In contrast, several studies have suggested lack of oncologic safety with non-operative management in the patients with cCR [18-20]. However, these studies have focused only the patients with cCR and did not provide objective data for cases without cCR. In the current study, we evaluated the oncologic outcomes of non-operated patients with cCR and without cCR. We observed that non-operated patients showed worse survival outcomes than those underwent surgery regardless their tumor response. In the cases with cCR, local progression was the highest in the non-operated group compared to the TME and TLE group. These results suggest that a non-operative management must be carefully considered even if cCR is achieved. The patients with cCR expect good survival, but they may still harbor residual disease. Concordance between cCR and pCR is a major concern in these cases. There is not yet a consensus on the “watch and wait” policy in the field of rectal cancer and our data did not support this policy. Clinical trials to suggest an appropriate approach for these patients are warranted.
Currently, local excision or non-operative management is considered to be an optional therapeutic strategy for patients showing excellent response after nCRT [12,13,21-23]. The controversy surrounding these patients persists, however, and there have not been any reports on how oncologic outcomes are worse in the patients who did not undergo surgical resection despite non-cCR after nCRT. Clinicians have met these non-operated patients who refused surgery due to improved symptoms after nCRT, high comorbidities, old age, fear of permanent stoma, etc. In our group, 64 of the 77 patients who did not undergo surgery refused surgery after nCRT. In these cases, clinicians should recommend standard treatments. However, there are few objective data showing a clear clinical course. In our study, the non-operated patients showed significantly worse survival outcomes than patients who underwent surgery and there was no survival gain from salvage treatments after progression. In addition, 10 of 11 patients who underwent salvage surgery had permanent stoma despite being considered appropriate for sphincter preservation at presentation. The TLE group showed significantly better survival than the non-operated group although it was worse than the TME group. Thus, it is better to recommend local excision rather than no surgery when patients refuse surgery or are at high risk for radical surgery.
There were some limitations to our study. This study was retrospectively performed at a single institution. Thus, the follow-up duration for progression of the non-operated group was shorter than that of the other two groups, so we could not analyze long-term PFS. However, we analyzed long-term OS by following whether patients were alive or expired. Another limitation was the lack of equal distribution among the groups. Thus, we performed propensity score matched analysis to minimize confounding bias between groups. In addition, the decision to do not undergo surgery was mostly driven by patient refusal, favoring under-investigation during their disease course. This can lead to low early detection rates of progression and poor oncologic outcomes. Despite these limitations, to our knowledge, this is the first study focusing on patients who did not undergo surgery despite not achieving cCR after completion of nCRT. Although a poor survival outcome is generally predicted for these patients, objective data on this topic is needed. In addition, we included a large number of patients who did not receive any surgery, underwent local excision, or underwent radical surgery regardless of their tumor response.
In this study, we showed bad disease progress in non-operated patients regardless of tumor response after nCRT and no survival gain from salvage treatments after progression in these patients. Our results suggest that a non-operative management must be carefully considered even if cCR is achieved.
Notes
Conflict of interest relevant to this article was not reported.
Acknowledgements
This study was supported by Basic Science Research Program through the National Research Foundation of Korea (NRF) funded by the Ministry of Education, Science and Technology (grant number 2015R1A1A1A05001160).