Outcomes of a universal germline screening program in a community urology practice

IF 2.9 3区 医学 Q2 GENETICS & HEREDITY Clinical Genetics Pub Date : 2024-05-07 DOI:10.1111/cge.14541
Neil Mendhiratta, Herman Hauver Jr, Whitley Hatton, Andrew Ostrusky, Devika S. Sathe, Sandeep Gurram, Patricia Rice, Heather Chalfin
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Abstract

The role of germline genetic testing in urologic oncology has expanded in recent years. However, implementation of genetic testing in community practices remains a challenge, often due to limited access to qualified genetics trained providers. In this study, we report outcomes of a universal germline screening program in a community urology practice. Between November 2021 and September 2022, all patients referred for urology clinic visits at Frederick Health (Frederick, MD, USA) were provided an online genetics screening questionnaire prior to the visit. Responses were compared against National Comprehensive Cancer Network (NCCN) criteria for germline testing. Those who met criteria were provided educational materials at the end of the questionnaire, and then counseled by a trained urologic oncologist (HC) in the clinic or referred to a genetic counselor prior to testing. Testing was performed with a 36-gene pan-cancer panel (CancerNext) or a 14-gene targeted prostate cancer panel (ProstateNext), with or without additional RNA analysis (RNAinsight) (Ambry Genetics, CA, USA). Demographic and clinical parameters, as well as genetic testing results, were retrospectively collected under IRB approval. In the study period, 765 patients were seen over 1370 clinic visits. Of these, 505 patients (66.0%) completed the screening questionnaire. The majority were completed via email (54.5%) with the remainder (45.5%) via text message. Of the patients who completed screening, 125/505 (24.7%) met NCCN criteria for germline testing. 58/125 patients (46.4%) who met criteria underwent germline testing, of whom 5/58 (8.6%) had distinct pathogenic mutations identified. These included actionable mutations in BRCA1, BRCA2, and CHEK2, as well as an additional pathogenic mutation in NBN. Variants of unknown significance were identified in 8/58 patients (13.8%) in 11 total genes. Challenges to implementation of this program included meeting institutional requirements for genetic testing consent, facilitating specimen collection in clinic, and integration of results into the electronic health record. Genetic risk assessment for high-risk individuals is feasible as part of a universal screening program in a community urology practice. Approximately 8% of tested patients were found to have pathogenic germline mutations, which is consistent with contemporary tertiary referral cohorts.

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社区泌尿科普遍开展种系筛查计划的成果。
近年来,种系基因检测在泌尿肿瘤学中的作用不断扩大。然而,在社区实践中实施基因检测仍是一项挑战,这往往是由于合格的遗传学培训提供者有限。在本研究中,我们报告了在社区泌尿科诊所开展的普遍种系筛查项目的结果。2021 年 11 月至 2022 年 9 月期间,所有转诊至 Frederick Health(美国马里兰州弗雷德里克市)泌尿科门诊就诊的患者在就诊前都会收到一份在线遗传学筛查问卷。根据美国国立综合癌症网络(NCCN)的种系检测标准对患者的回答进行比较。符合标准的患者在问卷末尾会收到教育材料,然后由训练有素的泌尿科肿瘤专家(HC)在门诊为其提供咨询,或在检测前将其转介给遗传咨询师。检测采用 36 个基因的泛癌症面板(CancerNext)或 14 个基因的前列腺癌靶向面板(ProstateNext),并可选择是否进行额外的 RNA 分析(RNAinsight)(Ambry Genetics,美国加利福尼亚州)。人口统计学和临床参数以及基因检测结果是在获得 IRB 批准后进行回顾性收集的。在研究期间,765 名患者共就诊 1370 次。其中,505 名患者(66.0%)完成了筛查问卷。大部分患者(54.5%)通过电子邮件完成问卷,其余患者(45.5%)通过短信完成问卷。在完成筛查的患者中,125/505(24.7%)人符合 NCCN 的种系检测标准。58/125(46.4%)名符合标准的患者接受了种系检测,其中5/58(8.6%)名患者发现了明显的致病突变。这些突变包括 BRCA1、BRCA2 和 CHEK2 中的可检测突变,以及 NBN 中的一个额外致病突变。在总共 11 个基因中,有 8/58 例患者(13.8%)发现了意义不明的变异。该计划实施过程中遇到的挑战包括:满足机构对基因检测同意书的要求、方便临床标本采集以及将结果整合到电子健康记录中。作为社区泌尿科普遍筛查计划的一部分,对高危人群进行基因风险评估是可行的。约有 8% 的受检患者发现了致病性种系突变,这与当代三级转诊队列的情况一致。
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来源期刊
Clinical Genetics
Clinical Genetics 医学-遗传学
CiteScore
6.50
自引率
0.00%
发文量
175
审稿时长
3-8 weeks
期刊介绍: Clinical Genetics links research to the clinic, translating advances in our understanding of the molecular basis of genetic disease for the practising clinical geneticist. The journal publishes high quality research papers, short reports, reviews and mini-reviews that connect medical genetics research with clinical practice. Topics of particular interest are: • Linking genetic variations to disease • Genome rearrangements and disease • Epigenetics and disease • The translation of genotype to phenotype • Genetics of complex disease • Management/intervention of genetic diseases • Novel therapies for genetic diseases • Developmental biology, as it relates to clinical genetics • Social science research on the psychological and behavioural aspects of living with or being at risk of genetic disease
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