Perioperative Systemic Therapy and Cytoreductive Surgery With HIPEC Versus Upfront Cytoreductive Surgery With HIPEC Alone for Isolated Resectable Colorectal Peritoneal Metastases: a Multicentre, Open-label, Parallel-group, Phase II-III, Randomised Superiority Study

Koen Rovers9 个研究点分布在 2 个国家目标入组 358 人2017年6月1日

适应症Colorectal Neoplasm Colorectal Cancer Colorectal Neoplasms Malignant Colorectal Carcinoma Colorectal Adenocarcinoma Peritoneal Neoplasms Peritoneal Carcinomatosis Peritoneal Cancer Peritoneal Metastases Peritoneal Neoplasm Malignant Secondary Carcinomatosis Peritoneal Neoplasm Malignant Secondary

概览

阶段: 2 期
干预措施: 未指定
疾病 / 适应症: Colorectal Neoplasm
发起方: Koen Rovers
入组人数: 358
试验地点: 9
主要终点: Overall survival
状态: 进行中（未招募）
最后更新: 上个月

概览研究者入排标准结局指标研究点相似试验

概览

简要总结

This is a multicentre, open-label, parallel-group, phase II-III, superiority study that randomises patients with isolated resectable colorectal peritoneal metastases in a 1:1 ratio to receive either perioperative systemic therapy and cytoreductive surgery with HIPEC (experimental arm) or upfront cytoreductive surgery with HIPEC alone (control arm).

详细描述

Rationale: cytoreductive surgery with HIPEC (CRS-HIPEC) is a curative intent treatment for patients with isolated resectable colorectal peritoneal metastases (PM). Upfront CRS-HIPEC alone is the standard treatment in the Netherlands. The addition of neoadjuvant and adjuvant systemic therapy (together: perioperative systemic therapy) to CRS-HIPEC could have benefits and drawbacks. Potential benefits are eradication of systemic micrometastases, preoperative intraperitoneal tumour downstaging, elimination of post-surgical residual cancer cells, and improved patient selection for CRS-HIPEC. Potential drawbacks are preoperative disease progression and secondary unresectability for CRS-HIPEC, systemic therapy related toxicity, increased postoperative morbidity, decreased quality of life, and higher costs. Currently, there is a complete lack of randomised studies that prospectively compare the oncological efficacy of perioperative systemic therapy and CRS-HIPEC with upfront CRS-HIPEC alone. Notwithstanding this lack of evidence, perioperative systemic therapy is widely administered to patients with isolated resectable colorectal PM. However, administration and timing of perioperative systemic therapy vary substantially between countries, hospitals, and guidelines. More importantly, it remains unknown whether perioperative systemic therapy has an intention-to-treat benefit in this setting. Therefore, this study randomises patients with isolated resectable colorectal PM to receive either perioperative systemic therapy (experimental arm) or upfront CRS-HIPEC alone (control arm). Study design: a multicentre, open-label, parallel-group, phase II-III, superiority study that randomises eligible patients in a 1:1 ratio. Objectives: objectives of the phase II study (80 patients) are to explore the feasibility of accrual, the feasibility, safety, and tolerance of perioperative systemic therapy, and the radiological and pathological response of colorectal PM to neoadjuvant systemic therapy. The primary objective of the phase III study (358 patients) is to compare overall survival between both arms. Secondary objectives are to assess progression-free and disease-free survival, surgical characteristics, major postoperative morbidity, patient-reported outcomes, and costs in both arms. Other objectives are to assess major systemic therapy related toxicity and the objective radiological and pathological response of colorectal PM to neoadjuvant systemic therapy. Study population: adults who have a good performance status, histological or cytological proof of PM of a colorectal adenocarcinoma, resectable disease, no systemic colorectal metastases within three months prior to enrolment, no systemic therapy for colorectal cancer within six months prior to enrolment, no previous CRS-HIPEC, no contraindications for the planned systemic treatment or CRS-HIPEC, and no relevant concurrent malignancies. Intervention: at the discretion of the treating medical oncologist, perioperative systemic therapy consists of either four 3-weekly neoadjuvant and adjuvant cycles of capecitabine with oxaliplatin (CAPOX), six 2-weekly neoadjuvant and adjuvant cycles of 5-fluorouracil/leucovorin with oxaliplatin (FOLFOX), or six 2-weekly neoadjuvant cycles of 5-fluorouracil/leucovorin with irinotecan (FOLFIRI) followed by either four 3-weekly (capecitabine) or six 2-weekly (5-fluorouracil/leucovorin) adjuvant cycles of fluoropyrimidine monotherapy. Bevacizumab is added to the first three (CAPOX) or four (FOLFOX/FOLFIRI) neoadjuvant cycles. Endpoints: primary endpoints of the phase II study are to explore the feasibility and safety of perioperative systemic therapy by comparing proportions of patients undergoing complete CRS-HIPEC and proportions of patients with major postoperative morbidity between both arms. The primary comparative endpoint of the phase III study is overall survival. Major secondary endpoints assessed in both arms are proportions of major postoperative morbidity, progression-free survival, disease-free survival, patient-reported outcomes (PROs), and costs. Major secondary endpoints assessed in the experimental arm are the proportion of patients with major systemic therapy related toxicity and the proportions of patients with objective radiological and pathological responses of colorectal PM to neoadjuvant systemic therapy. Statistical analysis: the study is powered to detect an increase in 3-year overall survival from 50% in the control arm to 65% in the experimental arm (corresponding hazard ratio 0.62), which is considered to be a clinically relevant difference by the investigators. A total number of 358 patients (179 in each arm) is needed to detect this hypothesized difference with 5% drop-out, 80% power, and a two-sided log-rank test of p\<0.05. In August 2024, when several patients in the experimental arm were still receiving trial treatment, a regular follow-up update revealed that 156 events for the primary outcome (i.e. deaths) had occurred. The study then had 85% power to detect the hypothesized hazard ratio of 0.62 for overall survival in the analysis of superiority of the experimental arm relative to the control arm at a two-sided alpha of 0.05. After discussing these data with the Data Monitoring Committee and the medical ethics committee, it was decided to schedule data cut-off for a first analysis of the primary outcome at the time the last patient in the experimental arm (enrolled April 2024) finishes trial treatment, which is expected 1 November 2024 at an estimated number of +/- 172 events (+/- 88% power).

注册库

clinicaltrials.gov

开始日期

2017年6月1日

结束日期

2029年6月1日

最后更新

上个月

研究类型

Interventional

研究设计

Parallel

性别

All

研究者

发起方

Koen Rovers

责任方

Sponsor Investigator

主要研究者

Koen Rovers

Coordinating Investigator

Catharina Ziekenhuis Eindhoven

入排标准

入选标准

•Eligible patients are adults who have:
•a World Health Organisation (WHO) performance status of ≤1;
•histological or cytological proof of PM of a non-appendiceal colorectal adenocarcinoma with ≤50% of the tumour cells being signet ring cells;
•resectable disease determined by a diagnostic laparoscopy/laparotomy in combination with abdominal computed tomography and/or magnetic resonance imaging (MRI); only in patients in whom diagnostic laparoscopy or laparotomy is considered not feasible or valuable (e.g. due to known adhesions impeding adequate PCI scoring), it is also allowed to determine resectability by CT or MRI only (provided that the colorectal PM are histologically or cytologically proven);
•no evidence of systemic colorectal metastases within three months prior to enrolment;
•no systemic therapy for colorectal cancer within six months prior to enrolment;
•no contraindications for CRS-HIPEC;
•no previous CRS-HIPEC;
•no concurrent malignancies that interfere with the planned study treatment or the prognosis of resected colorectal PM.
•Importantly, enrolment is allowed for patients with radiologically non-measurable disease. Enrolment is also allowed for patients who are referred to a study centre after a macroscopically complete resection of colorectal PM in a referring centre, since it is assumed that microscopic (and often macroscopic) colorectal PM are still present. The diagnostic laparoscopy/laparotomy may be performed in a referring centre, provided that the peritoneal cancer index (PCI) is appropriately scored and documented before enrolment.

排除标准

未提供

结局指标

主要结局

Overall survival

时间窗: From enrolment up to five years thereafter

Time between enrolment and death due to any cause

次要结局

Progression-free survival(From enrolment up to five years thereafter)
Disease-free survival(From enrolment up to five years thereafter)
Macroscopic complete CRS-HIPEC(From enrolment up to approximately six weeks (control arm) or five months (experimental arm) thereafter)
Surgical characteristics: peritoneal cancer index(During CRS-HIPEC, one to five months after enrolment)
Surgical characteristics: bowel anastomoses(During CRS-HIPEC, , one to five months after enrolment)
Surgical characteristics: ostomy formations(During CRS-HIPEC, one to five months after enrolment)
Surgical characteristics: operating time(During CRS-HIPEC, one to five months after enrolment)
Major postoperative morbidity(From (intended) CRS-HIPEC up to three months postoperatively)
Postoperative hospital stay(During the postoperative course of CRS-HIPEC, up to 90 days postoperatively)
Postoperative readmissions(From CRS-HIPEC to 90 days postoperatively)
Patient-reported outcomes: EQ-5D-5L(From enrolment up to five years thereafter)
Patient-reported outcomes: QLQ-C30(From enrolment up to five years thereafter)
Patient-reported outcomes: QLQ-CR29(From enrolment up to five years thereafter)
Costs(From enrolment up to five years thereafter)