SALIRI-based (raltitrexed plus irinotecan) therapy as a second-line treatment for patients with metastatic colorectal cancer (SALLY): A prospective, multicenter, non-interventional, registry study

IF 20.1 1区 医学 Q1 ONCOLOGY Cancer Communications Pub Date : 2024-07-08 DOI:10.1002/cac2.12586
Shuqui Qin, Jin Li, Aiping Zhou, Yanqiao Zhang, Xianglin Yuan, Liangjun Zhu, Baoli Qin, Shan Zeng, Lin Shen, Ying Yuan, Weibo Wang, Jun Liang, Xianwen Zhang, Feng Ye, Ping Chen, Huaizhang Wang, Zhenyan Yu, Lu Yue, Yong Fang, Jianping Xiong, Jianwei Yang, Yiye Wan, Xianli Yin, Wenling Wang, Nong Xu, Xiaohong Wang, Zemin Xiao, Huafang Su, Ying Wang, Kangsheng Gu, Shuiping Tu, Zishu Wang, Bo Liu, Xiaohua Hu, Weixian Liu, Xiaofeng Li
{"title":"SALIRI-based (raltitrexed plus irinotecan) therapy as a second-line treatment for patients with metastatic colorectal cancer (SALLY): A prospective, multicenter, non-interventional, registry study","authors":"Shuqui Qin,&nbsp;Jin Li,&nbsp;Aiping Zhou,&nbsp;Yanqiao Zhang,&nbsp;Xianglin Yuan,&nbsp;Liangjun Zhu,&nbsp;Baoli Qin,&nbsp;Shan Zeng,&nbsp;Lin Shen,&nbsp;Ying Yuan,&nbsp;Weibo Wang,&nbsp;Jun Liang,&nbsp;Xianwen Zhang,&nbsp;Feng Ye,&nbsp;Ping Chen,&nbsp;Huaizhang Wang,&nbsp;Zhenyan Yu,&nbsp;Lu Yue,&nbsp;Yong Fang,&nbsp;Jianping Xiong,&nbsp;Jianwei Yang,&nbsp;Yiye Wan,&nbsp;Xianli Yin,&nbsp;Wenling Wang,&nbsp;Nong Xu,&nbsp;Xiaohong Wang,&nbsp;Zemin Xiao,&nbsp;Huafang Su,&nbsp;Ying Wang,&nbsp;Kangsheng Gu,&nbsp;Shuiping Tu,&nbsp;Zishu Wang,&nbsp;Bo Liu,&nbsp;Xiaohua Hu,&nbsp;Weixian Liu,&nbsp;Xiaofeng Li","doi":"10.1002/cac2.12586","DOIUrl":null,"url":null,"abstract":"<p>Primary chemotherapy options for colorectal cancer (CRC) involve four key drugs: fluorouracils (5-FU), oxaliplatin, irinotecan and raltitrexed. The first-line regimen consists of 5-FU and leucovorin combined with oxaliplatin (FOLFOX), while the second-line regimen involves 5-FU and leucovorin combined with irinotecan (FOLFIRI) for metastatic CRC (mCRC) in China [<span>1</span>]. Efficacy findings for FOLFOX and FOLFIRI as first-line treatments reported overall response rates (ORRs) of 54% and 56%, with median progression-free survival (mPFS) of 8.0 and 8.5 months, respectively. In the second-line setting, ORRs decreased to 15% and 4%, with mPFS of 4.2 and 2.5 months, respectively, possibly indicating induced drug resistance due to repeated 5-FU infusions in both first-line and second-line treatments [<span>2</span>]. Our present research was a prospective, non-interventional clinical trial conducted in 58 centers across China. The design and procedures are shown in the Supplementary Material. From April 2018 to March 2021, a total of 1,067 mCRC patients were enrolled for second-line treatment with raltitrexed plus irinotecan (SALIRI regimen) following unsuccessful 5-FU combined with platinum-based drug treatment, of whom 1,066 were included in the full analysis set (FAS) and 1,042 in the per-protocol set (PPS). The demographics, baseline and clinical characteristics of the patients are detailed in Supplementary Table S1.</p><p>The primary outcome revealed a mPFS of 7.3 months (range: 0.8-40.7, 95% confidence interval [CI]: 7.0-7.6) and a median overall survival (mOS) of 17.8 months (range: 1.4-47.3, 95% CI: 17.0-19.2) in both the FAS and PPS cohorts (Figure 1A-D, Supplementary Table S2).</p><p>Regarding secondary outcomes, mPFS and mOS were 5.8 (range: 0.8-34.5) and 17.0 (range: 1.8-47.3) months in the SALIRI group (<i>n</i> = 268), whereas in the SALIRI + targeted therapy (TAR; <i>n</i> = 795), including cetuximab (<i>n</i> = 103), bevacizumab (<i>n</i> = 678) or post-cetuximab + bevacizumab (<i>n</i> = 9) or the other targeted drug group (<i>n</i> = 5), mPFS and mOS were 7.6 (range: 0.8-40.7) and 18.1 (range: 1.4-40.7) months. A significant difference only in OS was found between SALIRI and the SALIRI + TAR groups (<i>P</i> = 0.045) (Figure 1E-F).</p><p>Subsequently, the ORR and disease control rate (DCR) for the entire cohort were 19.5% and 84.2%, respectively. The best tumor response comprised 1 patient achieving a complete response (0.1%), 207 with partial responses (19.4%), 690 attaining stable disease (64.7%) and 144 experiencing progressive disease (13.5%). However, in the SALIRI + TAR group, the ORR and DCR were 20.9% (95% CI: 18.1-23.9) and 85.8% (95% CI: 83.2-88.1), whereas in the SALIRI group, the ORR and DCR were 15.7% (95% CI: 11.5-20.6) and 80.6% (95% CI: 75.4-85.2), respectively (Supplementary Table S2).</p><p>In addition, an exploration of PFS and OS among patients with diverse genotypes, including mutation states of rat sarcoma viral oncogene homolog <i>(RAS)</i>, v-raf murine sarcoma viral oncogene homolog B1 <i>(BRAF)</i> and microsatellite stability (MSS)/high microsatellite instability (MSI-H), was conducted. MSS/MSI-H status was measured by immunohistochemistry (IHC) or the capillary electrophoresis-based multiplex polymerase chain reaction. The measurements of other genotype mutation states are described in the Supplementary Material. Patients with <i>RAS</i> mutations exhibited a comparatively shorter mPFS of 7.1 months (range: 1.1-22.1, 95% CI: 6.5-7.7), while those with the <i>RAS</i> wild-type had a mPFS of 7.8 months (range: 0.9-32.6, 95% CI: 7.1-8.2). The mPFS for patients with <i>BRAF</i> mutations was 5.4 months (range: 1.9-19.4, 95% CI: 2.6-12.1), in contrast to 7.4 months (range: 0.9-32.6, 95% CI: 6.8–7.8) for the <i>BRAF</i> wild-type. Similarly, it was also shown that the mOS of patients with <i>RAS</i> mutations was 16.4 months (range: 1.4-38.7, 95% CI: 14.4-18.9), while those with the <i>RAS</i> wild-type appeared to have a relatively longer mOS time of 19.4 months (range: 1.8-36.9, 95% CI: 17.0-21.2),. The mOS for patients with <i>BRAF</i> mutations was 18.1 months (range: 5.7-22.7, 95% CI: 6.5-22.7) compared to 17.7 months (range: 1.8-38.7, 95% CI: 16.4-19.7) for the wild-type. However, all apparent differences between the mutations and wild-type groups were not statistically significant. In the subgroup analysis, for MSS/mismatch repair proficient (pMMR) mCRC patients who received SALIRI-based therapy, the mPFS was 7.7 months (range: 0.9-28.6, 95% CI: 7.1-8.0) and for those with MSI-H-related cases, it was 7.8 months (range: 2.0-14.3, 95% CI: 5.3-11.6). MSS/pMMR- or MSI-H-related mOS in mCRC patients were 18.1 months (range: 2.4-39.6, 95% CI: 16.3-19.9) and 19.9 months (range: 3.4-20.6, 95% CI: 5.3–not evaluable), respectively (Supplementary Table S3).</p><p>These findings contradict the prevailing reports that 95% of MSS/pMMR CRC patients exhibit poor responses to immune checkpoint inhibitors [<span>3</span>] and demonstrate that SALIRI-based treatment approaches may represent a promising option for managing MSS/pMMR CRC. Moreover, only 14 patients (1.3%) were identified as MSI-H in the present trial, and 711 (66.7%) remained undetermined (Supplementary Table S1), possibly due to limitations in current MSI-H status identification methods. Typically, IHC provides widely accessible protein expression analysis but necessitates high-quality tissue samples. MSI-H polymerase chain reaction analysis can evaluate specific microsatellite loci, albeit at a higher cost. Therefore, enhancing the capacity to detect accurately the MSI-H patient status in the future is paramount.</p><p>Furthermore, the analysis of risk factors for mPFS and mOS after treatment revealed significant correlations between excision of the primary site and mPFS and mOS as well as addition of TAR to SALIRI and mOS times. Age, gender or the primary tumor site location were not potential risk factors for mPFS and mOS of the patients (Supplementary Table S4).</p><p>In the present study, 5-FU and oxaliplatin were exchanged with SALIRI, which led to a series of outcomes in the real-life setting (mPFS and mOS of 7.3 and 17.8 months, an ORR of 19.5% and DCR of 84.2%). Compared with irinotecan monotherapy [<span>4</span>], the FOLFIRI regimen [<span>4-6</span>] and the regimen comprising capecitabine plus irinotecan (XELIRI) [<span>7</span>], the present outcomes may validate the problem of repeated use resistance to 5-FU-based regimens with raltitrexed as an alternative treatment for continued 5-FU application from a clinical point of view. In addition, mOS and mPFS were prolonged when SALIRI was used in combination with TAR, a finding in good agreement with those reported in previous studies in which the addition of bevacizumab to chemotherapy regimens was shown to be beneficial for mCRC treatment [<span>8-10</span>]. Regarding safety, in the present trial, an average relative dose intensity of 99.7% (SD 3.9%, range: 48.2%–154.5%; relative dose intensity = actual dose intensity / planned dose intensity * 100%) of raltitrexed for SALIRI-based chemotherapy regimens was achieved, and dose adjustment was not required for 80.7% (861/1,067) of patients in their overall treatment regimens. There were 13.1% (140/1,067) grade III/IV adverse events (AEs) and 7.2% (77/1,067) AEs which led to raltitrexed dose reductions or drug discontinuation, but no AEs were fatal (Supplementary Tables S5-S6). Raltitrexed requires only a 15-min intravenous infusion for its administration, which improves patient compliance compared to oral medication problems, such as misuse, missed doses or multiple doses. In addition, due to its safety profile, some patients can complete their treatment on the day ward, thereby improving their quality of life. An advantage of the present study was its prospective design, over a wide range of Chinese regions that included patients aged from 20 years to 80 years regardless of <i>RAS</i> genotype and thus, the results are likely to be representative of the overall Chinese population.</p><p>In summary, exchanging 5-FU and oxaliplatin with SALIRI after first-line chemotherapy led to favorable mPFS and mOS, especially when combined with targeted drugs for the treatment of mCRC, which may solve the problem of repeated use resistance to 5-FU analogs and thus improve therapeutic outcomes.</p><p><i>Conceptualization</i>: Shuqui Qin and Jin Li. <i>Formal analysis</i>: All authors. <i>Investigation</i>: All authors. <i>Writing—original draft</i>: Shuqui Qin and Jin Li. <i>Writing—review &amp; editing</i>: All authors. <i>Manuscript approval</i>: All authors. <i>Supervision</i>: Jin Li. <i>Project administration</i>: Jin Li.</p><p>The authors declare no conflict of interest.</p><p>None.</p><p>The trial was in accordance with the Helsinki Declaration and was approved by the ethics committees of Tongji University Shanghai East Hospital (approval number: 2018-Research Review No. 12) and Bayi Hospital Nanjing Chinese Medicine University (approval number: 81YY-ZLLL-17-32). 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Abstract

Primary chemotherapy options for colorectal cancer (CRC) involve four key drugs: fluorouracils (5-FU), oxaliplatin, irinotecan and raltitrexed. The first-line regimen consists of 5-FU and leucovorin combined with oxaliplatin (FOLFOX), while the second-line regimen involves 5-FU and leucovorin combined with irinotecan (FOLFIRI) for metastatic CRC (mCRC) in China [1]. Efficacy findings for FOLFOX and FOLFIRI as first-line treatments reported overall response rates (ORRs) of 54% and 56%, with median progression-free survival (mPFS) of 8.0 and 8.5 months, respectively. In the second-line setting, ORRs decreased to 15% and 4%, with mPFS of 4.2 and 2.5 months, respectively, possibly indicating induced drug resistance due to repeated 5-FU infusions in both first-line and second-line treatments [2]. Our present research was a prospective, non-interventional clinical trial conducted in 58 centers across China. The design and procedures are shown in the Supplementary Material. From April 2018 to March 2021, a total of 1,067 mCRC patients were enrolled for second-line treatment with raltitrexed plus irinotecan (SALIRI regimen) following unsuccessful 5-FU combined with platinum-based drug treatment, of whom 1,066 were included in the full analysis set (FAS) and 1,042 in the per-protocol set (PPS). The demographics, baseline and clinical characteristics of the patients are detailed in Supplementary Table S1.

The primary outcome revealed a mPFS of 7.3 months (range: 0.8-40.7, 95% confidence interval [CI]: 7.0-7.6) and a median overall survival (mOS) of 17.8 months (range: 1.4-47.3, 95% CI: 17.0-19.2) in both the FAS and PPS cohorts (Figure 1A-D, Supplementary Table S2).

Regarding secondary outcomes, mPFS and mOS were 5.8 (range: 0.8-34.5) and 17.0 (range: 1.8-47.3) months in the SALIRI group (n = 268), whereas in the SALIRI + targeted therapy (TAR; n = 795), including cetuximab (n = 103), bevacizumab (n = 678) or post-cetuximab + bevacizumab (n = 9) or the other targeted drug group (n = 5), mPFS and mOS were 7.6 (range: 0.8-40.7) and 18.1 (range: 1.4-40.7) months. A significant difference only in OS was found between SALIRI and the SALIRI + TAR groups (P = 0.045) (Figure 1E-F).

Subsequently, the ORR and disease control rate (DCR) for the entire cohort were 19.5% and 84.2%, respectively. The best tumor response comprised 1 patient achieving a complete response (0.1%), 207 with partial responses (19.4%), 690 attaining stable disease (64.7%) and 144 experiencing progressive disease (13.5%). However, in the SALIRI + TAR group, the ORR and DCR were 20.9% (95% CI: 18.1-23.9) and 85.8% (95% CI: 83.2-88.1), whereas in the SALIRI group, the ORR and DCR were 15.7% (95% CI: 11.5-20.6) and 80.6% (95% CI: 75.4-85.2), respectively (Supplementary Table S2).

In addition, an exploration of PFS and OS among patients with diverse genotypes, including mutation states of rat sarcoma viral oncogene homolog (RAS), v-raf murine sarcoma viral oncogene homolog B1 (BRAF) and microsatellite stability (MSS)/high microsatellite instability (MSI-H), was conducted. MSS/MSI-H status was measured by immunohistochemistry (IHC) or the capillary electrophoresis-based multiplex polymerase chain reaction. The measurements of other genotype mutation states are described in the Supplementary Material. Patients with RAS mutations exhibited a comparatively shorter mPFS of 7.1 months (range: 1.1-22.1, 95% CI: 6.5-7.7), while those with the RAS wild-type had a mPFS of 7.8 months (range: 0.9-32.6, 95% CI: 7.1-8.2). The mPFS for patients with BRAF mutations was 5.4 months (range: 1.9-19.4, 95% CI: 2.6-12.1), in contrast to 7.4 months (range: 0.9-32.6, 95% CI: 6.8–7.8) for the BRAF wild-type. Similarly, it was also shown that the mOS of patients with RAS mutations was 16.4 months (range: 1.4-38.7, 95% CI: 14.4-18.9), while those with the RAS wild-type appeared to have a relatively longer mOS time of 19.4 months (range: 1.8-36.9, 95% CI: 17.0-21.2),. The mOS for patients with BRAF mutations was 18.1 months (range: 5.7-22.7, 95% CI: 6.5-22.7) compared to 17.7 months (range: 1.8-38.7, 95% CI: 16.4-19.7) for the wild-type. However, all apparent differences between the mutations and wild-type groups were not statistically significant. In the subgroup analysis, for MSS/mismatch repair proficient (pMMR) mCRC patients who received SALIRI-based therapy, the mPFS was 7.7 months (range: 0.9-28.6, 95% CI: 7.1-8.0) and for those with MSI-H-related cases, it was 7.8 months (range: 2.0-14.3, 95% CI: 5.3-11.6). MSS/pMMR- or MSI-H-related mOS in mCRC patients were 18.1 months (range: 2.4-39.6, 95% CI: 16.3-19.9) and 19.9 months (range: 3.4-20.6, 95% CI: 5.3–not evaluable), respectively (Supplementary Table S3).

These findings contradict the prevailing reports that 95% of MSS/pMMR CRC patients exhibit poor responses to immune checkpoint inhibitors [3] and demonstrate that SALIRI-based treatment approaches may represent a promising option for managing MSS/pMMR CRC. Moreover, only 14 patients (1.3%) were identified as MSI-H in the present trial, and 711 (66.7%) remained undetermined (Supplementary Table S1), possibly due to limitations in current MSI-H status identification methods. Typically, IHC provides widely accessible protein expression analysis but necessitates high-quality tissue samples. MSI-H polymerase chain reaction analysis can evaluate specific microsatellite loci, albeit at a higher cost. Therefore, enhancing the capacity to detect accurately the MSI-H patient status in the future is paramount.

Furthermore, the analysis of risk factors for mPFS and mOS after treatment revealed significant correlations between excision of the primary site and mPFS and mOS as well as addition of TAR to SALIRI and mOS times. Age, gender or the primary tumor site location were not potential risk factors for mPFS and mOS of the patients (Supplementary Table S4).

In the present study, 5-FU and oxaliplatin were exchanged with SALIRI, which led to a series of outcomes in the real-life setting (mPFS and mOS of 7.3 and 17.8 months, an ORR of 19.5% and DCR of 84.2%). Compared with irinotecan monotherapy [4], the FOLFIRI regimen [4-6] and the regimen comprising capecitabine plus irinotecan (XELIRI) [7], the present outcomes may validate the problem of repeated use resistance to 5-FU-based regimens with raltitrexed as an alternative treatment for continued 5-FU application from a clinical point of view. In addition, mOS and mPFS were prolonged when SALIRI was used in combination with TAR, a finding in good agreement with those reported in previous studies in which the addition of bevacizumab to chemotherapy regimens was shown to be beneficial for mCRC treatment [8-10]. Regarding safety, in the present trial, an average relative dose intensity of 99.7% (SD 3.9%, range: 48.2%–154.5%; relative dose intensity = actual dose intensity / planned dose intensity * 100%) of raltitrexed for SALIRI-based chemotherapy regimens was achieved, and dose adjustment was not required for 80.7% (861/1,067) of patients in their overall treatment regimens. There were 13.1% (140/1,067) grade III/IV adverse events (AEs) and 7.2% (77/1,067) AEs which led to raltitrexed dose reductions or drug discontinuation, but no AEs were fatal (Supplementary Tables S5-S6). Raltitrexed requires only a 15-min intravenous infusion for its administration, which improves patient compliance compared to oral medication problems, such as misuse, missed doses or multiple doses. In addition, due to its safety profile, some patients can complete their treatment on the day ward, thereby improving their quality of life. An advantage of the present study was its prospective design, over a wide range of Chinese regions that included patients aged from 20 years to 80 years regardless of RAS genotype and thus, the results are likely to be representative of the overall Chinese population.

In summary, exchanging 5-FU and oxaliplatin with SALIRI after first-line chemotherapy led to favorable mPFS and mOS, especially when combined with targeted drugs for the treatment of mCRC, which may solve the problem of repeated use resistance to 5-FU analogs and thus improve therapeutic outcomes.

Conceptualization: Shuqui Qin and Jin Li. Formal analysis: All authors. Investigation: All authors. Writing—original draft: Shuqui Qin and Jin Li. Writing—review & editing: All authors. Manuscript approval: All authors. Supervision: Jin Li. Project administration: Jin Li.

The authors declare no conflict of interest.

None.

The trial was in accordance with the Helsinki Declaration and was approved by the ethics committees of Tongji University Shanghai East Hospital (approval number: 2018-Research Review No. 12) and Bayi Hospital Nanjing Chinese Medicine University (approval number: 81YY-ZLLL-17-32). All patients signed informed consent forms. This study was registered with the Chinese Clinical Trial Registry (registration number: ChiCTR1800016185).

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将基于 SALIRI(拉替曲塞加伊立替康)的疗法作为转移性结直肠癌患者的二线治疗方法(SALLY):一项前瞻性、多中心、非干预性登记研究。
结直肠癌(CRC)的一线化疗方案包括四种主要药物:氟尿嘧啶(5-FU)、奥沙利铂、伊立替康和雷替曲塞。在中国,转移性 CRC(mCRC)的一线治疗方案包括 5-FU 和亮菌甲素联合奥沙利铂(FOLFOX),二线治疗方案包括 5-FU 和亮菌甲素联合伊立替康(FOLFIRI)[1]。FOLFOX 和 FOLFIRI 一线治疗的疗效报告显示,总反应率(ORR)分别为 54% 和 56%,中位无进展生存期(mPFS)分别为 8.0 个月和 8.5 个月。在二线治疗中,总反应率分别降至15%和4%,中位生存期分别为4.2个月和2.5个月,这可能表明在一线和二线治疗中反复输注5-FU诱发了耐药性[2]。本研究是一项前瞻性、非干预性临床试验,在全国 58 个中心开展。设计和程序见补充材料。2018年4月至2021年3月,共有1067例mCRC患者入组,在5-FU联合铂类药物治疗不成功后接受拉替曲塞加伊立替康(SALIRI方案)二线治疗,其中1066例纳入全分析集(FAS),1042例纳入按方案集(PPS)。FAS组和PPS组患者的人口统计学、基线和临床特征详见补充表S1。主要结局显示,FAS组和PPS组患者的中位生存期(mPFS)为7.3个月(范围:0.8-40.7,95% 置信区间[CI]:7.0-7.6),中位总生存期(mOS)为17.8个月(范围:1.4-47.3,95% CI:17.0-19.2)(图1A-D,补充表S2)。在次要结局方面,SALIR 研究组的 mPFS 和 mOS 分别为 5.8 个月(范围:0.8-34.5)和 17.0 个月(范围:1.8-47.3)。3)个月,而在 SALIRI + 靶向治疗(TAR;n = 795)组(包括西妥昔单抗(n = 103)、贝伐珠单抗(n = 678)或西妥昔单抗 + 贝伐珠单抗后(n = 9)或其他靶向药物组(n = 5)),mPFS 和 mOS 分别为 7.6(范围:0.8-40.7)个月和 18.1(范围:1.4-40.7)个月。SALIRI组和SALIRI + TAR组的OS仅有明显差异(P = 0.045)(图1E-F)。随后,整个组群的ORR和疾病控制率(DCR)分别为19.5%和84.2%。最佳肿瘤反应包括1例完全反应患者(0.1%)、207例部分反应患者(19.4%)、690例病情稳定患者(64.7%)和144例病情进展患者(13.5%)。然而,SALIRI+TAR组的ORR和DCR分别为20.9%(95% CI:18.1-23.9)和85.8%(95% CI:83.2-88.1),而SALIRI组的ORR和DCR分别为15.7%(95% CI:11.5-20.6)和80.6%(95% CI:75.4-85.2)(补充表S2)。此外,研究还探讨了不同基因型患者的 PFS 和 OS,包括大鼠肉瘤病毒癌基因同源物(RAS)、v-raf 小鼠肉瘤病毒癌基因同源物 B1(BRAF)和微卫星稳定性(MSS)/高微卫星不稳定性(MSI-H)的突变状态。MSS/MSI-H状态通过免疫组织化学(IHC)或基于毛细管电泳的多重聚合酶链反应进行测定。其他基因型突变状态的测量方法见补充材料。RAS突变患者的mPFS相对较短,为7.1个月(范围:1.1-22.1,95% CI:6.5-7.7),而RAS野生型患者的mPFS为7.8个月(范围:0.9-32.6,95% CI:7.1-8.2)。BRAF突变患者的mPFS为5.4个月(范围:1.9-19.4,95% CI:2.6-12.1),而BRAF野生型患者的mPFS为7.4个月(范围:0.9-32.6,95% CI:6.8-7.8)。同样,研究还显示,RAS 突变患者的 mOS 为 16.4 个月(范围:1.4-38.7,95% CI:14.4-18.9),而 RAS 野生型患者的 mOS 时间相对较长,为 19.4 个月(范围:1.8-36.9,95% CI:17.0-21.2)。BRAF突变患者的mOS时间为18.1个月(范围:5.7-22.7,95% CI:6.5-22.7),而野生型患者的mOS时间为17.7个月(范围:1.8-38.7,95% CI:16.4-19.7)。然而,突变组和野生型组之间的所有明显差异均无统计学意义。在亚组分析中,接受基于SALIRI疗法的MSS/错配修复熟练(pMMR)mCRC患者的mPFS为7.7个月(范围:0.9-28.6,95% CI:7.1-8.0),MSI-H相关病例的mPFS为7.8个月(范围:2.0-14.3,95% CI:5.3-11.6)。mCRC患者中与MSS/pMMR或MSI-H相关的mOS分别为18.1个月(范围:2.4-39.6,95% CI:16.3-19.9)和19.9个月(范围:3.4-20.6,95% CI:5.3-无法评估)(补充表S3)。这些发现与95%的MSS/pMMR CRC患者对免疫检查点抑制剂反应不佳的普遍报道相矛盾[3],并表明基于SALIRI的治疗方法可能是治疗MSS/pMMR CRC的一种有前景的选择。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Cancer Communications
Cancer Communications Biochemistry, Genetics and Molecular Biology-Cancer Research
CiteScore
25.50
自引率
4.30%
发文量
153
审稿时长
4 weeks
期刊介绍: Cancer Communications is an open access, peer-reviewed online journal that encompasses basic, clinical, and translational cancer research. The journal welcomes submissions concerning clinical trials, epidemiology, molecular and cellular biology, and genetics.
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