University of Pittsburgh, Pittsburgh, Pennsylvania, USA.
Merlin Biomedical Consulting, LLC, Hendersonville, North Carolina, USA.
Oncologist. 2020 Oct;25(10):835-844. doi: 10.1634/theoncologist.2019-0967. Epub 2020 May 15.
Estrogen receptor (ER) status by immunohistochemistry (IHC) of cancer tissue is currently used to direct endocrine therapy in breast cancer. Positron emission tomography (PET) with 16α-18F-fluoro-17β-estradiol ( F-FES) noninvasively characterizes ER ligand-binding function of breast cancer lesions. Concordance of imaging and tissue assays should be established for F-FES PET to be an alternative or complement to tissue biopsy for metastatic lesions. We conducted a meta-analysis of published results comparing F-FES PET and tissue assays of ER status in patients with breast cancer. PubMed and EMBASE were searched for English-language manuscripts with at least 10 patients and low overall risk of bias. Thresholds for imaging and tissue classification could differ between studies but had to be clearly stated. We used hierarchical summary receiver-operating characteristic curve models for the meta-analysis. The primary analysis included 113 nonbreast lesions from 4 studies; an expanded analysis included 327 total lesions from 11 studies. Treating IHC results as the reference standard, sensitivity was 0.78 (95% confidence region 0.65-0.88) and specificity 0.98 (0.65-1.00) for the primary analysis of nonbreast lesions. In the expanded analysis including non-IHC tissue assays and all lesion sites, sensitivity was 0.81 (0.73-0.87) and specificity 0.86 (0.68-0.94). These results suggest that F-FES PET is useful for characterization of ER status of metastatic breast cancer lesions. We also review current best practices for conducting F-FES PET scans. This imaging assay has potential to improve clinically relevant outcomes for patients with (historically) ER-positive metastatic breast cancer, including those with brain metastases and/or lobular histology. IMPLICATIONS FOR PRACTICE: 16α-18F-fluoro-17β-estradiol positron emission tomography ( F-FES PET) imaging assesses estrogen receptor status in breast cancer in vivo. This work reviews the sensitivity and specificity of F-FES PET in a meta-analysis with reference tissue assays and discusses best practices for use of the tracer as an imaging biomarker. F-FES PET could enhance breast cancer diagnosis and staging as well as aid in therapy selection for patients with metastatic disease. Tissue sampling limitations, intrapatient heterogeneity, and temporal changes in molecular markers make it likely that F-FES PET will complement existing assays when clinically available in the near future.
雌激素受体(ER)状态通过癌症组织的免疫组织化学(IHC)目前用于指导乳腺癌的内分泌治疗。正电子发射断层扫描(PET)与 16α-18F-氟-17β-雌二醇(F-FES)非侵入性地描述乳腺癌病变的 ER 配体结合功能。为了使 F-FES PET 成为转移病变的组织活检的替代或补充,应该建立成像和组织测定之间的一致性。我们对比较乳腺癌患者 F-FES PET 和 ER 状态组织测定的已发表结果进行了荟萃分析。使用 PubMed 和 EMBASE 搜索了至少有 10 名患者且总体偏倚风险低的英文手稿。成像和组织分类的阈值可能在研究之间有所不同,但必须明确说明。我们使用分层总结接收器操作特征曲线模型进行荟萃分析。主要分析包括来自 4 项研究的 113 个非乳房病变;扩展分析包括来自 11 项研究的总共 327 个病变。将 IHC 结果作为参考标准,非乳房病变的主要分析中,灵敏度为 0.78(95%置信区间为 0.65-0.88),特异性为 0.98(0.65-1.00)。在包括非 IHC 组织测定和所有病变部位的扩展分析中,灵敏度为 0.81(0.73-0.87),特异性为 0.86(0.68-0.94)。这些结果表明,F-FES PET 可用于表征转移性乳腺癌病变的 ER 状态。我们还回顾了进行 F-FES PET 扫描的当前最佳实践。这种成像测定法有可能改善(历史上)具有 ER 阳性转移性乳腺癌的患者的临床相关结局,包括具有脑转移和/或小叶组织学的患者。对实践的启示:16α-18F-氟-17β-雌二醇正电子发射断层扫描(F-FES PET)成像在体内评估乳腺癌中的雌激素受体状态。这项工作通过与参考组织测定的荟萃分析来回顾 F-FES PET 的敏感性和特异性,并讨论了将示踪剂用作成像生物标志物的最佳实践。F-FES PET 可以增强乳腺癌的诊断和分期,并有助于选择转移性疾病患者的治疗方法。组织取样的局限性,患者内异质性和分子标记物的时间变化使得 F-FES PET 很可能在不久的将来在临床上可用时补充现有的测定法。