This study aimed to assess complications and outcomes of a new approach, that is, combining short course radiotherapy (SRT), concurrent and consolidative chemotherapies, and delayed surgery.
In this single arm phase II prospective clinical trial, patients with T3-4 or N+ M0 rectal adenocarcinoma were enrolled. Patients who received induction chemotherapy or previous pelvic radiotherapy were excluded. Study protocol consisted of three-dimensional conformal SRT (25 Gy in 5 fractions in 1 week) with concurrent and consolidation chemotherapies including capecitabine and oxaliplatin. Total mesorectal excision was done at least 8 weeks after the last fraction of radiotherapy. Primary outcome was complete pathologic response and secondary outcomes were treatment related complications.
Thirty-three patients completed the planned preoperative chemoradiation and 26 of them underwent surgery (24 low anterior resection and 2 abdominoperineal resection). Acute proctitis grades 2 and 3 were seen in 11 (33.3%) and 7 (21.2%) patients, respectively. There were no grades 3 and 4 subacute hematologic and non-hematologic (genitourinary and peripheral neuropathy) toxicities and perioperative morbidities such as anastomose leakage. Grade 2 or higher late toxicities were observed among 29.6% of the patients. Complete pathologic response was achieved in 8 (30.8%) patients who underwent surgery. The 3-year overall survival and local control rates were 65% and 94%, respectively.
This study showed that SRT combined with concurrent and consolidation chemotherapies followed by delayed surgery is not only feasible and tolerable without significant toxicity but also, associated with promising complete pathologic response rates.
Patients with early stage rectal cancer can be treated with radical surgery alone or local resection with or without chemoradiation. However, management of locally advanced rectal cancer is somehow more sophisticated. Surgical management of primary rectal cancer per se is associated with high local and distant recurrence that necessitates a multimodality treatment protocol. Following the study of Sauer et al. [
Due to the fact that SRT is associated with lower cost and duration of treatment, this method cannot be ignored in countries with limited health expenditure like ours. In addition, other investigators also tried to overcome the major drawback of SRT which is its less pathologic complete response (pCR) and sphincter preservation rate as compared to conventional method. In this regard, some authors proposed increasing the interval between radiotherapy and surgery [
Considering the promising results achieved in the earlier mentioned approaches regarding the improvement of SRT flaws, in this study, the authors aimed to assess the ability to induce pCR, feasibility and toxicities by a new approach including neoadjuvant SRT with concurrent and preoperative consolidative chemotherapies followed by delayed surgery.
This study is a phase 2 single-arm prospective clinical trial. Patients referred to our radiation oncology ward for neoadjuvant treatment with a pathologic report of rectal adenocarcinoma were recruited in this study. The study design was reviewed and approved by the Research Ethics Committee of Tehran University of Medical Sciences (No. 9111188003-100785), to be in line with declaration of Helsinki. The patients participated voluntarily in this study and all possible complications were disclosed to them. Written inform consent was obtained before any treatment. The trial was registered with Iranian Registry of Clinical Trials (
A full clinical and radiologic local staging was performed by physical examination (including digital rectal examination), flexible colonoscopy, pelvic magnetic resonance imaging or rectal endoscopic ultrasonography. Other mandatory diagnostic workup consisted of contrast enhanced thorax and abdominopelvic computed tomography scan, complete blood count, liver and renal function tests and serum carcinoembryonic antigen; positron emission tomography was not in the study protocol because of limited availability. Finally, patients with the following criteria were enrolled for the study: T3, T4 or lymph node positive (N+) rectal adenocarcinoma located up to 15 cm from anal verge, the Eastern Cooperative Oncology Group (ECOG) performance status 0–1. The patients who were candidates of abdominoperineal resection (APR) regardless of response to radiation therapy were also included. Patients with one of the following conditions were excluded from the study: recurrent tumors after previous surgery, synchronous distant metastasis, previous history of pelvic radiotherapy, history of another cancer, impairment of renal function test as much as not to tolerate oxaliplatin or capecitabine, receiving induction chemotherapy and also medical unfitness for surgery.
All the patients were treated by three-dimensional (3D) conformal radiotherapy with 18 MV photon X-rays. The clinical target volume included the gross tumor and involved nodes together with elective pelvic lymph nodes (presacral, mesorectal and internal iliac lymph nodes in all cases and external and inguinal nodes in appropriate conditions) and entire mesorectum with adequate margins (7–10 mm for elective and involved nodes, and 2 cm for primary tumor respecting anatomic boundaries) [
All the patients received concurrent chemotherapy including intravenous oxaliplatin 85 mg/m2 in d1 and oral capecitabine 825 mg/m2 twice a day in days 1–5 of radiotherapy. In addition, one cycle of consolidative chemotherapy was prescribed 3–4 weeks after completion of radiotherapy, consisting of intravenous oxaliplatin 130 mg/m2 in day 1 and oral capecitabine 1,000 mg/m2/bid in days 1–14. The adjuvant postoperative chemotherapy was at the discretion of attending physician.
All the participants were referred to surgeon within 6 and 8 weeks after completion of radiotherapy (3–4 weeks after consolidative chemotherapy). The default procedures were low anterior resection (LAR) and APR at the discretion of surgeons. The patients were monitored for perioperative complications by colorectal surgical team for 1 month following operation (in-patient or out-patient) and then referred back with permanent pathology report, to radiation oncology ward.
The secondary endpoints were feasibility of combined SRT with concurrent and consolidative chemotherapies. In other words, the complications related to such approach were the center of attention. Thus, patients were evaluated closely for acute (from the beginning of radiotherapy to 1-month post-surgery) and late (after 3 months post-surgery) gastrointestinal, genitourinary and hematologic toxicities using patient reported complaints, physical examination and laboratory studies (complete blood count and renal function tests). The grading of treatment-related toxicities were according to the Common Terminology Criteria for Adverse Events (CTCAE) version 4.0 and highest grade was recorded for each patient. The subjects with proctitis were treated with loperamide, while in cases with bloody discharge, hydrocortisone suppository or 5-aminosalicilates (5ASA) tablets (e.g., mesalamine) were prescribed. They were also evaluated for perioperative complications including anastomosis leakage, delayed surgical wound healing or dehiscence and formation of enterocutaneous, rectovesical or rectovaginal fistula.
The secondary endpoint was the pathologic response to neoadjuvant treatment. The pathologic response was assessed based on the report done by experienced pathologist in gastrointestinal malignancies. Tumor depth of invasion (ypT) and number of involved lymph nodes (ypN) for tumor and node down-staging were respectively considered. However, the tumor regression grade (TRG) suggested by Dworak et al. [
The primary outcomes were complete pathologic response (ypCR) to neoadjuvant short course radiochemotherapy with delayed surgery and secondary outcomes were feasibility and complications of such treatment. The sample size was calculated based on the formula for detecting 15% improvement of ypCR from 12.5% in Stockholm III trial which was reported in short-course radiotherapy with delayed surgery arm [
From August 2013 to February 2015, a total 33 patients were enrolled in this study (
All the subjects completed the course of concurrent chemoradiation successfully. Three patients (12.1%) did not receive full prescribed dose of consolidative chemotherapy (due to intolerance to oral capecitabine). Fifteen patients (45.5%) reported no or only grade 1 acute toxicities. Grades 2 and 3 acute proctitis was seen in 11 (33.3%) and 7 (21.2%) patients, respectively. No grade 4 acute proctitis was recorded. However, no grade 3 cystitis, hematologic toxicities or peripheral sensory neuropathy were observed.
Twenty-six patients underwent total mesorectal excision (24 LAR and 2 APR). The median interval from end of radiotherapy to surgery was 10 months. Amongst others who failed to undergo surgery, 1 patient died in a car crash before surgery, 4 refused the operation despite primary consent, 1 had an unresectable tumor in pre-surgical evaluation (which was unresectable before radiotherapy as well), and the last 1 was medically unfit for surgery due to cardiac disease that progressed during chemoradiation. During 1-month postoperative period, only an event of grade 3 surgical site infection occurred in one diabetic patient. Eleven events of late treatment related to grades 2 or 3 toxicity occurred in 8 patients (24.2%) (
Complete pathologic response (TRG0) was reported in 8 patients (24.2%), partial response (TRG1 and TRG2) was reported in 6 patients (18.2%) and poor response (TRG3) was reported in 12 patients (36.4%) out of the 33 study subjects. Among the subjects who underwent surgery, the rates of complete, partial, and poor pathologic response were 30.8%, 23.0%, and 46.2%, respectively. All the patients enjoyed R0 resection.
The 3-year overall survival (OS) and disease-free survival (DFS) in all the subjects was 60% and 52%, respectively (
Neoadjuvant treatment is the standard of care for patients with locally advanced rectal cancer. Chemoradiation or SRT are both widely accepted as neoadjuvant treatments and can be practiced as standard protocols for improving LC in this group of patients. To address the differences in these approaches, two phase III randomized trials were conducted and the results are available. Polish trial and Trans-Tasman Radiation Oncology (TROG) group did not show a significant difference in survival and local recurrence rate between chemoradiation and SRT [
TROG trial showed that SRT had significantly less acute adverse events as compared to long course chemoradiotherapy, while the post-operative complications were comparable [
Some studies aimed to test chemotherapy in a neoor adjuvant sequence to radiotherapy before surgery. For instance, in Dutch rectal cancer trial, rectal cancer patients with synchronous metastasis to liver showed acceptable complication rate with preoperative chemotherapy following SRT [
Apart from the issue of feasibility and tolerance, a relatively high rate of about 31% of complete pathologic response (cPR) was observed among the patients who underwent extirpative surgery. Three simultaneous deviations from routine SRT were attempted which could explain the promising results in terms of cPR including delayed surgery, concurrent and consolidative chemotherapies. In orthodox SRT method that is practiced first in Sweden, patients would undergo total mesorectal excision within 1 week after completion of radiotherapy sessions. With early surgery, evaluating the ultimate pathologic response is not too possible, the optimal response may be difficult to achieve and the rate of positive margin will be expectedly high. However, if one can postpone the surgery for some 4–6 weeks, the pathologic response would be theoretically more mature even in primarily unresectable appearing cases [
Besides the role of delayed surgery, the addition of concurrent chemotherapy to conventional fractionated radiotherapy and consolidative chemotherapy in the resting period between radiation completion and surgery, both have significantly increased the pCR rate and LC in locally advanced rectal cancer and have acceptable and tolerable toxicity [
The main limitation of this study is the small size and nonrandomized design. Another limitation that is worth mentioning is the need for longer follow-up for late effects of radiation and the rate of LC. The observed promising results need to be tested in a randomized manner in comparison with conventional long course chemoradiotherapy.
In conclusion, this study showed that SRT with concurrent chemotherapy and consolidation chemotherapy with delayed surgery are not only feasible and tolerable without significant toxicity but are also associated with promising pathologic response rates. However, this is a small and nonrandomized one-arm study with relatively short follow-up which needs longer assessments for monitoring of late complications. Further investigation is needed to compare this protocol with conventional fractionated protocol in a phase III randomized trial.
No potential conflict of interest relevant to this article was reported.
Allocation diagram.
Actuarial overall survival rate.
Actuarial disease-free survival rate.
Patients and tumors characteristics
Characteristic | Value |
---|---|
Age (yr) | 61 (32–81) |
Gender | |
Male | 24 (72.7) |
Female | 9 (27.3) |
ECOG performance status | |
0 | 31 (93.9) |
1 | 2 (6.1) |
Distance from AV (cm) | 6 (1–15) |
<5 | 5 (15.1) |
5–10 | 23 (69.7) |
11–15 | 5 (15.1) |
Differentiation | |
Well (grade 1) | 12 (36.3) |
Moderate (grade 2) | 13 (39.3) |
Poor (grade 3) | 8 (24.2) |
Clinical staging | |
T3N0 | 8 (24.2) |
T3N1 | 17 (51.5) |
T3N2 | 5 (15.1) |
T4N0 | 1 (3) |
T4N1 | 1 (3) |
T4N2 | 1 (3) |
Values are presented as median (range) or number (%).
Frequency of grade 2–3 late treatment related toxicities at 3 months post-surgery
Type of late toxicity events | Number |
---|---|
Erectile dysfunction | 1 |
Proctitis | 6 |
Vaginitis | 1 |
Bowel obstruction | 1 |
Urinary urge incontinence | 1 |
Renal failure | 1 |