To investigate the feasibility of preoperative chemoradiation with oxaliplatin plus capecitabine, with or without prior induction chemotherapy in patients with locally advanced or marginally resectable rectal cancer with resectable synchronous liver metastases.
Preoperative chemoradiation is now an initial treatment of choice for locally advanced resectable rectal cancer, and 5-fluorouracil is the standard agent during chemoradiation. Capecitabine is an oral fluoropyrimidine which has been thought to be a replacement for intravenous 5-fluorouracil, and several trials have proved that preoperative chemoradiation with capecitabine was also effective in this setting. Oxaliplatin, a newer platinum agent, plus fluoropyrimidines (either 5-fluorouracil or capecitabine) is one of the standard cytotoxic chemotherapeutic regimen for metastatic colorectal cancer, and it is also proved to be effective as neoadjuvant chemotherapy for patients with liver only metastasis from colorectal cancer. Approximately 25% of patients with colorectal cancer have liver metastases initially at the time of diagnosis and there have been quite well established evidences for clear survival benefits from hepatic metastasectomy in these patients. Treatment for colorectal liver metastases should be planned with consideration of both systemic chemotherapy and local treatment modality (surgery or radiofrequency ablation) because long term survival would be expected after curative liver metastasectomy. As mentioned previously, neoadjuvant oxaliplatin plus fluoropyrimidines before hepatic metastasectomy improved disease-free survival, thus it is thought to be that better systemic controls would be achieved with perioperative oxaliplatin based chemotherapy. In patients with locally advanced rectal cancer, preoperative chemoradiation with fluoropyrimidines improves local control but not systemic control. Recent randomized trials of preoperative chemoradiation with oxaliplatin plus fluoropyrimidines failed to show better local control rates than those with fluoropyrimidines alone. But it is too early to determine the non-superiority of preoperative chemoradiation with oxaliplatin plus fluoropyrimidines in terms of systemic control; long-term duration of follow-up is needed to determine the efficacy in terms of disease-free or overall survival and it is evident that oxaliplatin based chemotherapy is effective for systemic control in patients who will be candidate for liver metastasectomy. Thus, the investigators planned a randomized phase II trial of preoperative chemoradiation with oxaliplatin plus capecitabine, with or without prior induction chemotherapy in patients with locally advanced or borderlinely resectable rectal cancer with resectable synchronous liver metastases.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
38
Induction chemotherapy - Induction XELOX (Capecitabine 1250 mg/m2 PO twice daily on D1-14 and oxaliplatin 130 mg/m2 on D1, every 3 weeks for 2 cycles) Preoperative chemoradiotherapy - XELOX RT (Capecitabine 825 mg/m2 PO twice daily during radiotherapy and oxaliplatin 50 mg/m2/day on weekly.)
Preoperative radiotherapy, 5040 cGy with 28 fractions
Asan Medical Center
Seoul, Songpa, South Korea
Quality of Surgery for Primary Tumor
R0 = complete resection with grossly and microscopically negative margins of resection; R1 =grossly negative but microscopically positive margins of resection; R2 = grossly and microscopically positive margins of resection
Time frame: Arm A = Induction chemotherapy (XELOX, 6 weeks) followed by chemoradiotherapy (XELOX plus radiotherapy) to surgery (6 weeks); Arm B = Chemoradiotherapy (XELOX plus radiotherapy) to surgery (6 weeks)
Quality of Surgery for Liver Metastases
R0 = complete resection with grossly and microscopically negative margins of resection; R1 =grossly negative but microscopically positive margins of resection; R2 = grossly and microscopically positive margins of resection
Time frame: Arm A = Induction chemotherapy (XELOX, 6 weeks) followed by chemoradiotherapy (XELOX plus radiotherapy) to surgery (6 weeks); Arm B = Chemoradiotherapy (XELOX plus radiotherapy) to surgery (6 weeks)
R0 Resection Rate of Both the Primary Tumor and Livermetastases
synchronous complete R0 resection rate, R0 = complete resection with grossly and microscopically negative margins of resection
Time frame: Arm A = Induction chemotherapy (XELOX, 6 weeks) followed by chemoradiotherapy (XELOX plus radiotherapy) to surgery (6 weeks); Arm B = Chemoradiotherapy (XELOX plus radiotherapy) to surgery (6 weeks)
Pathologic Complete Response Rate of Primary Tumor
The pathologic stage (ypT or N) was recorded according to the International Union Against Cancer TNM system. Pathologic complete response (ypCR) was defined as the absence of viable tumor cells in the surgical specimens, of the primary tumor (ypT0).
Time frame: Arm A = Induction chemotherapy (XELOX, 6 weeks) followed by chemoradiotherapy (XELOX plus radiotherapy) to surgery (6 weeks); Arm B = Chemoradiotherapy (XELOX plus radiotherapy) to surgery (6 weeks)
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Tumor Regression Grade (Primary Tumor)
The regression of the primary tumor was quantified according to the 5-point tumor regression grade proposed by Dworak. Complete regression = No tumor cells ; Near complete regression = Very few tumor cells; Moderate regression = Dominantly fibrotic changes with few tumor cells or groups; Minimal regression = Dominant tumor mass with obvious fibrosis
Time frame: Arm A = Induction chemotherapy (XELOX, 6 weeks) followed by chemoradiotherapy (XELOX plus radiotherapy) to surgery (6 weeks); Arm B = Chemoradiotherapy (XELOX plus radiotherapy) to surgery (6 weeks)