免疫组织化学与PCR技术用于乳腺癌分子分型:来自埃塞俄比亚亚的斯亚贝巴的多中心经验。

IF 2.5 Q3 ONCOLOGY
Dessiet Oma, Maria Teklemariam, Daniel Seifu, Zelalem Desalegn, Endale Anberbir, Tamrat Abebe, Solomon Mequannent, Solomon Tebeje, Wajana Lako Labisso
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引用次数: 0

摘要

应用免疫组织化学(IHC)对乳腺癌(BC)的分子特征是至关重要的;然而,它不是普遍标准化的,受制于观察者的可变性和量化是一个挑战。另一种分子技术,如终点反转录(RT)-PCR基因表达分析,可以提高观察变异性和诊断准确性。本研究旨在比较免疫组化与基于RT-PCR的技术,并评估RT-PCR在BC分子分型中的潜力。在这项比较横断面研究中,从亚的斯亚贝巴的三家公立医院收集了54个BC组织,并运往马丁-路德大学(德国)妇科进行实验室分析。只有41份样品符合雌激素受体(ER)、孕激素受体(PR)、人表皮生长因子受体2 (HER2)和Ki-67蛋白表达分析的IHC和RT-PCR检测。使用Kappa统计来评估两种技术之间的一致性。RT-PCR与IHC检测ER的总体一致性百分比为68.3%(阳性一致性百分比[PPA]为71.1%;负比例协议[NPA] 33.3%), PR为39.0% (PPA 14.3%;NPA 92.3%), HER2为82.9% (PPA 62.5%;NPA 87.9%)。ER、PR、HER2的Cohen’s κ值分别为0.018(< 0.20)、0.045(< 0.200)、0.481(0.41 ~ 0.60)。分子亚型的一致性仅为56.1% (23/41),kappa值为0.20。免疫组化和终点RT-PCR技术在43%的样本中显示不一致。终点RT-PCR的分子分型与免疫组化相当一致。因此,终点RT-PCR可以给出客观的结果,并可用于BC亚型分型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Immunohistochemistry versus PCR Technology for Molecular Subtyping of Breast Cancer: Multicentered Expereinces from Addis Ababa, Ethiopia.

Immunohistochemistry versus PCR Technology for Molecular Subtyping of Breast Cancer: Multicentered Expereinces from Addis Ababa, Ethiopia.

Immunohistochemistry versus PCR Technology for Molecular Subtyping of Breast Cancer: Multicentered Expereinces from Addis Ababa, Ethiopia.

Immunohistochemistry versus PCR Technology for Molecular Subtyping of Breast Cancer: Multicentered Expereinces from Addis Ababa, Ethiopia.

The application of immunohistochemistry (IHC) for molecular characterization of breast cancer (BC) is of paramount importance; however, it is not universally standardized, subject to observer variability and quantifying is a challenge. An alternative molecular technology, such as endpoint reverse transcription (RT)-PCR gene expression analysis, may improve observer variability and diagnostic accuracy. This study was intended to compare IHC with the RT-PCR based technique and assess the potential of RT-PCR for molecular subtyping of BC. In this comparative cross-sectional study, 54 BC tissues were collected from three public hospitals in Addis Ababa and shipped to Gynaecology department at Martin-Luther University (Germany) for laboratory analysis. Only 41 samples were qualified for IHC and RT-PCR investigation of estrogen receptor (ER), progesterone receptor (PR), human epidermal growth factor receptor 2 (HER2), and Ki-67 protein expression analysis. Kappa statistics was used to assess the concordance between the two techniques. The overall percent agreement between RT-PCR and IHC was 68.3% for ER (positive percent agreement [PPA] 71.1%; negative percent agreement [NPA] 33.3%), 39.0% for PR (PPA 14.3%; NPA 92.3%), and 82.9% for HER2 (PPA 62.5%; NPA 87.9%). Cohen's κ-values of 0.018 (< 0.20), 0.045 (< 0.200), and 0.481 (0.41-0.60) were generated for ER, PR, and HER2, respectively. Concordance for molecular subtypes was only 56.1% (23/41) and 0.20 kappa value. IHC and endpoint RT-PCR techniques have shown to be discordant for 43% samples. Molecular subtyping using endpoint RT-PCR was fairly concordant with IHC. Thus, endpoint RT-PCR may give an objective result, and can be applied for BC subtyping.

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