Stratification of Homologous Recombination Deficiency-Negative High-Grade Ovarian Cancer by the Type of Peritoneal Spread into Two Groups with Distinct Survival Outcomes

Cancers Pub Date : 2024-06-03 DOI:10.3390/cancers16112129
S. Schnaiter, E. Schamschula, Juliane Laschtowiczka, H. Fiegl, Johannes Zschocke, A. Zeimet, Katharina Wimmer, Daniel Reimer
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Abstract

Background: Homologous recombination deficiency (HRD) has evolved into a major diagnostic marker in high-grade ovarian cancer (HGOC), predicting the response to poly (adenosine diphosphate-ribose) polymerase inhibitors (PARPi) and also platinum-based therapy. In addition to HRD, the type of peritoneal tumor spread influences the treatment response and patient survival; miliary type tumor spread has a poorer predicted outcome than non-miliary type tumor spread. Methods: Known methods for HRD assessment were adapted for our technical requirements and the predictive-value integrated genomic instability score (PIGIS) for HRD assessment evolved as an outcome. PIGIS was validated in HGOC samples from 122 patients. We used PIGIS to analyze whether the type of tumor spread correlated with HRD status and whether this had an impact on survival. Results: We demonstrated that PIGIS can discriminate HRD-positive from HRD-negative samples. Tumors with a miliary tumor spread are HRD-negative and have a very bad prognosis with a progression-free survival (PFS) of 15.6 months and an overall survival (OS) of 3.9 years. However, HRD-negative non-miliary spreading tumors in our cohort had a much better prognosis (PFS 35.4 months, OS 8.9 years); similar to HRD-positive tumors (PFS 34.7 months, OS 8.9 years). Conclusions: Our results indicate that in a predominantly PARPi naïve cohort, the type of tumor spread and concomitant cytoreduction efficiency is a better predictor of survival than HRD and that HRD may be an accidental surrogate marker for tumor spread and concomitant cytoreduction efficiency. It remains to be determined whether this also applies for sensitivity to PARPi.
按腹膜扩散类型将同源重组缺陷阴性高级别卵巢癌分为两组,其生存结果各不相同
背景:同源重组缺陷(HRD)已发展成为高级别卵巢癌(HGOC)的主要诊断指标,可预测对多(腺苷二磷酸核糖)聚合酶抑制剂(PARPi)和铂类疗法的反应。除HRD外,腹膜肿瘤扩散的类型也会影响治疗反应和患者生存;绒毛型肿瘤扩散比非绒毛型肿瘤扩散的预后更差。方法:根据我们的技术要求对已知的 HRD 评估方法进行了调整,并将用于 HRD 评估的预测值综合基因组不稳定性评分(PIGIS)发展为一种结果。我们在 122 例患者的 HGOC 样本中对 PIGIS 进行了验证。我们使用 PIGIS 分析了肿瘤扩散类型是否与 HRD 状态相关,以及这是否会影响患者的生存。结果:我们证明 PIGIS 可以区分 HRD 阳性和 HRD 阴性样本。有绒毛状肿瘤扩散的肿瘤为HRD阴性,预后极差,无进展生存期(PFS)为15.6个月,总生存期(OS)为3.9年。然而,在我们的队列中,HRD阴性的非绒毛状扩散肿瘤的预后要好得多(无进展生存期为35.4个月,总生存期为8.9年);与HRD阳性肿瘤相似(无进展生存期为34.7个月,总生存期为8.9年)。结论我们的研究结果表明,在以 PARPi 天真患者为主的队列中,肿瘤扩散类型和同时进行的细胞减灭术效率比 HRD 更能预测患者的生存期,HRD 可能是肿瘤扩散和同时进行的细胞减灭术效率的意外替代标志物。这是否也适用于对 PARPi 的敏感性还有待确定。
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