Spectrum of germline pathogenic variants using a targeted next generation sequencing panel and genotype-phenotype correlations in patients with suspected hereditary breast cancer at an academic medical centre in Pakistan

IF 2 4区 医学 Q3 ONCOLOGY
Akbar, Fizza, Siddiqui, Zahraa, Waheed, Muhammad Talha, Ehsan, Lubaina, Ali, Syed Ibaad, Wiquar, Hajra, Valimohammed, Azmina Tajuddin, Khan, Shaista, Vohra, Lubna, Zeeshan, Sana, Rashid, Yasmin, Moosajee, Munira, Jabbar, Adnan Abdul, Zahir, Muhammad Nauman, Zahid, Naila, Soomro, Rufina, Ullah, Najeeb Niamat, Ahmad, Imran, Haider, Ghulam, Ansari, Uzair, Rizvi, Arjumand, Mehboobali, Arif, Sattar, Abida, Kirmani, Salman
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引用次数: 5

Abstract

Breast cancer is the most common malignancy in women, affecting over 1.5 million women every year, which accounts for the highest number of cancer-related deaths in women globally. Hereditary breast cancer (HBC), an important subset of breast cancer, accounts for 5–10% of total cases. However, in Low Middle-Income Countries (LMICs), the population-specific risk of HBC in different ethnicities and the correlation with certain clinical characteristics remain unexplored. Retrospective chart review of patients who visited the HBC clinic and proceeded with multi-gene panel testing from May 2017 to April 2020. Descriptive and inferential statistics were used to analyze clinical characteristics of patients. Fisher’s exact, Pearson’s chi-squared tests and Logistic regression analysis were used for categorical variables and Wilcoxon rank-sum test were used for quantitative variables. For comparison between two independent groups, Mann-Whitney test was performed. Results were considered significant at a p value of < 0.05. Out of 273 patients, 22% tested positive, 37% had a VUS and 41% had a negative genetic test result. Fifty-five percent of the positive patients had pathogenic variants in either BRCA1 or BRCA2, while the remaining positive results were attributed to other genes. Patients with a positive result had a younger age at diagnosis compared to those having a VUS and a negative result; median age 37.5 years, IQR (Interquartile range) (31.5–48). Additionally, patients with triple negative breast cancer (TNBC) were almost 3 times more likely to have a positive result (OR = 2.79, CI = 1.42–5.48 p = 0.003). Of all patients with positive results, 25% of patients had a negative family history of breast and/or related cancers. In our HBC clinic, we observed that our rate of positive results is comparable, yet at the higher end of the range which is reported in other populations. The importance of expanded, multi-gene panel testing is highlighted by the fact that almost half of the patients had pathogenic or likely pathogenic variants in genes other than BRCA1/2, and that our test positivity rate would have only been 12.8% if only BRCA1/2 testing was done. As the database expands and protocol-driven referrals are made across the country, our insight about the genetic architecture of HBC in our population will continue to increase.
在巴基斯坦的一个学术医疗中心,在疑似遗传性乳腺癌患者中使用靶向下一代测序小组和基因型-表型相关性的种系致病变异谱
乳腺癌是妇女中最常见的恶性肿瘤,每年影响150多万妇女,是全球妇女与癌症有关的死亡人数最多的。遗传性乳腺癌(HBC)是乳腺癌的一个重要亚型,占总病例的5-10%。然而,在中低收入国家(LMICs),不同种族的人群特异性HBC风险及其与某些临床特征的相关性仍未得到研究。2017年5月至2020年4月到HBC诊所就诊并进行多基因面板检测的患者回顾性图表回顾。采用描述性统计和推断性统计分析患者的临床特征。分类变量采用Fisher精确检验、Pearson卡方检验和Logistic回归分析,定量变量采用Wilcoxon秩和检验。两独立组间比较采用Mann-Whitney检验。p值< 0.05时认为结果显著。在273名患者中,22%的检测结果呈阳性,37%的人患有VUS, 41%的人基因检测结果为阴性。55%的阳性患者有BRCA1或BRCA2的致病变异,而其余的阳性结果归因于其他基因。与VUS阳性结果的患者相比,VUS阳性结果的患者在诊断时年龄更小;中位年龄37.5岁,IQR(四分位数间距)(31.5-48)。此外,三阴性乳腺癌(TNBC)患者的阳性结果几乎是三倍(OR = 2.79, CI = 1.42-5.48 p = 0.003)。在所有阳性结果的患者中,25%的患者有乳腺癌和/或相关癌症的阴性家族史。在我们的HBC诊所中,我们观察到我们的阳性结果率是相当的,但在其他人群中报道的范围的高端。事实上,几乎一半的患者在BRCA1/2以外的基因中具有致病性或可能致病性变异,并且如果只进行BRCA1/2检测,我们的检测阳性率仅为12.8%,这突出了扩展的多基因面板检测的重要性。随着数据库的扩展和协议驱动的转诊在全国范围内进行,我们对人群中HBC遗传结构的了解将继续增加。
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来源期刊
CiteScore
3.10
自引率
5.90%
发文量
38
审稿时长
>12 weeks
期刊介绍: Hereditary Cancer in Clinical Practice is an open access journal that publishes articles of interest for the cancer genetics community and serves as a discussion forum for the development appropriate healthcare strategies. Cancer genetics encompasses a wide variety of disciplines and knowledge in the field is rapidly growing, especially as the amount of information linking genetic differences to inherited cancer predispositions continues expanding. With the increased knowledge of genetic variability and how this relates to cancer risk there is a growing demand not only to disseminate this information into clinical practice but also to enable competent debate concerning how such information is managed and what it implies for patient care. Topics covered by the journal include but are not limited to: Original research articles on any aspect of inherited predispositions to cancer. Reviews of inherited cancer predispositions. Application of molecular and cytogenetic analysis to clinical decision making. Clinical aspects of the management of hereditary cancers. Genetic counselling issues associated with cancer genetics. The role of registries in improving health care of patients with an inherited predisposition to cancer.
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