Liu X Z, Xiong Z, Xiao B Y, Yu G Y, Li Y J, Yao Y F, Tao K X, Ding P R, Zhang W, Wu A W
Gastrointestinal Cancer Center, Unit III, Key Laboratory of Carcinogenesis and Translational Research (Ministry of Education), Peking University Cancer Hospital & Institute, Beijing 100142, China.
Department of Gastrointestinal Surgery, Union Hospital, Tongji Medical College, Huazhong University of Science and Technology, Wuhan 430022, China.
Zhonghua Wei Chang Wai Ke Za Zhi. 2022 Mar 25;25(3):219-227. doi: 10.3760/cma.j.cn441530-20220228-00070.
To provide reference and evidence for clinical application of neoadjuvant immunotherapy in patients with colorectal cancer through multicenter large-scale analysis based on real-world data in China. This was a retrospective multicenter case series study. From January 2017 to October 2021, data of 94 patients with colorectal cancer who received neoadjuvant immunotherapy in Peking University Cancer Hospital (55 cases), Union Hospital of Tongji Medical College of Huazhong University of Science and Technology (19 cases), Sun Yat-sen University Cancer Center (13 cases) and Changhai Hospital of Navy Medical University (7 cases) were retrospectively collected, including 48 males and 46 females. The median age was 58 years. Eighty-one cases were rectal cancer and 13 cases were colon cancer (2 cases of double primary colon cancer). Twelve cases were TNM staging II and 82 cases were stage III. Forty-six cases were well differentiated, 37 cases were moderately differentiated and 11 cases were poorly differentiated. Twenty-six patients (27.7%) with mismatch repair defects (dMMR) and microsatellite instability (MSI-H) were treated with immunotherapy alone, mainly programmed cell death protein-1 (PD-1); sixty-eight cases (72.3%) with mismatch repair proficient (pMMR) and microsatellite stability (MSS) were treated with immune combined with neoadjuvant therapy, mainly CapeOx (capecitabine+oxaliplatin) combined with PD-1 antibody plus long- or short-course radiotherapy, or PD-1 antibody combined with cytotoxic T lymphocyte associated antigen 4 (CTLA-4) antibody. Analysis and evaluation of adverse events during neoadjuvant immunotherapy were performed according to the National Cancer Institute Common Toxicity Standard version 3.0; the surgical complications were evaluated according to the Clavien-Dindo grading standard; the efficacy evaluation of neoadjuvant immunotherapy included the following indicators: major pathological remission (MPR) was defined as tumor regression induced by neoadjuvant therapy in pathology residual tumor ≤10%; pathological complete response (pCR) was defined as tumor regression induced by neoadjuvant therapy without residual tumor in pathology; the tumor response rate was disease control rate (DCR), namely the proportion of complete response (CR), partial response (PR) and stable disease (SD) in the whole group; the objective response rate (ORR) was CR+PR. The median cycle of neoadjuvant immunotherapy was 4 (1-10) in whole group, and the incidence of immune-related adverse reactions was 37.2% (35/94), including 35 cases (37.2%) of skin-related adverse reactions, 21 cases (22.3%) of thyroid dysfunction and 8 cases (8.5%) of immune enteritis, of which grade III or above accounted for 1.1%. The median interval between completion of neoadjuvant therapy and surgery was 30 (21-55) days. There were 81 cases of radical resection of rectal cancer, 11 cases of radical resection of colon cancer, and 2 cases of colon cancer combined with other organ resection. The primary tumor resection of all the patients reached R0. The incidence of surgical-related complications was 22.3% (21/94), mainly anastomotic leakage (4 cases), pelvic infection (4 cases), abdominal effusion (3 cases), anastomotic stenosis (3 cases ) and abdominal and pelvic hemorrhage (2 cases). Grade I-II complications developed in 13 cases (13.8%), grade III and above complications developed in 8 cases (8.5%), no grade IV or above complications were found. During a median follow-up of 32 (1-46 ) months, DCR was 98.9% (93/94), ORR was 88.3 % (83/94), pCR was 41.5% (39/94), MPR was 60.6% (57/94). The pCR rate of 26 patients with dMMR and MSI-H undergoing simple immunotherapy was 57.7% (15/26), and MPR rate was 65.4% (17/26). The pCR rate of 68 pMMR and MSS patients undergoing combined immunotherapy was 35.3%(24/68), and MPR rate was 58.8% (40/68). Neoadjuvant immunotherapy has favorable tumor control rate and pathological remission rate for patients with initial resectable colorectal cancer. The incidences of perioperative adverse reactions and surgical complications are acceptable.
通过基于中国真实世界数据的多中心大规模分析,为结直肠癌患者新辅助免疫治疗的临床应用提供参考和依据。这是一项回顾性多中心病例系列研究。2017年1月至2021年10月,回顾性收集了北京大学肿瘤医院(55例)、华中科技大学同济医学院附属协和医院(19例)、中山大学肿瘤防治中心(13例)和海军军医大学附属长海医院(7例)94例接受新辅助免疫治疗的结直肠癌患者的数据,其中男性48例,女性46例。中位年龄为58岁。81例为直肠癌,13例为结肠癌(2例为双原发性结肠癌)。12例为TNM分期II期,82例为III期。46例高分化,37例中分化,11例低分化。26例错配修复缺陷(dMMR)和微卫星高度不稳定(MSI-H)患者单纯接受免疫治疗,主要为程序性细胞死亡蛋白1(PD-1);68例错配修复功能正常(pMMR)和微卫星稳定(MSS)患者接受免疫联合新辅助治疗,主要为 CapeOx(卡培他滨+奥沙利铂)联合PD-1抗体加长短程放疗,或PD-1抗体联合细胞毒性T淋巴细胞相关抗原4(CTLA-4)抗体。根据美国国立癌症研究所通用毒性标准第3.0版对新辅助免疫治疗期间的不良事件进行分析和评估;手术并发症根据Clavien-Dindo分级标准进行评估;新辅助免疫治疗的疗效评估包括以下指标:主要病理缓解(MPR)定义为新辅助治疗诱导的肿瘤退缩,病理残留肿瘤≤10%;病理完全缓解(pCR)定义为新辅助治疗诱导的肿瘤退缩,病理无残留肿瘤;肿瘤反应率为疾病控制率(DCR),即全组完全缓解(CR)、部分缓解(PR)和疾病稳定(SD)的比例;客观缓解率(ORR)为CR+PR。全组新辅助免疫治疗的中位周期数为4(1-10),免疫相关不良反应发生率为37.2%(35/94),其中皮肤相关不良反应35例(37.2%),甲状腺功能障碍21例(22.3%),免疫性肠炎8例(8.5%),其中III级及以上占1.1%。新辅助治疗结束至手术的中位间隔时间为30(21-55)天。直肠癌根治性切除81例,结肠癌根治性切除11例,结肠癌联合其他器官切除2例。所有患者的原发肿瘤切除均达到R0。手术相关并发症发生率为22.3%(21/94),主要为吻合口漏(4例)、盆腔感染(4例)、腹腔积液(3例)、吻合口狭窄(3例)和腹腔盆腔出血(2例)。I-II级并发症13例(13.8%),III级及以上并发症8例(8.5%),未发现IV级及以上并发症。中位随访32(1-46)个月,DCR为98.9%(93/94),ORR为88.3%(83/94),pCR为41.5%(39/94),MPR为60.6%(57/94)。26例接受单纯免疫治疗的dMMR和MSI-H患者的pCR率为57.7%(15/26),MPR率为65.4%(17/26)。68例接受联合免疫治疗的pMMR和MSS患者的pCR率为35.3%(24/68),MPR率为58.8%(40/68)。新辅助免疫治疗对初始可切除结直肠癌患者具有良好的肿瘤控制率和病理缓解率。围手术期不良反应和手术并发症的发生率是可以接受的。
