European Journal of Medical Genetics

Economic evaluation of extended panel analysis in cancer patients with historical NHS diagnostic germline genetic testing – A modeling study based on real-world data

The South West Thames Centre for Genomics implemented a wider diagnostic Next Generation Sequencing (NGS) gene panel for eligible cancer patients undergoing diagnostic testing whilst restricting data analysis and reporting for BRCA1/BRCA2/PALB2/CHEK2 1100delC only as per contemporaneous guidelines. This study investigated the cost-utility of reanalyzing existing diagnostic grade extended panel data for truncating germline pathogenic variants (GPVs) in known moderate risk cancer susceptibility genes (CSGs) and performing follow-up genetic testing for first-degree relatives if patients have an identified CSG allele. Reanalysis of existing NGS data was undertaken in 889 samples from cancer patients contemporaneously eligible through the NHS England National Genomic Test Directory (NGTD) codes R207 (ovarian) or R208 (breast) who had tested negative for BRCA1/BRCA2/PALB2 and CHEK2 1100delC founder variant. We modeled the cost and health outcomes for comparisons between: 1. Extending reanalysis to ATM truncating GPVs (partial extended testing) versus historical genetic testing, and 2. Extending analysis to ATM truncating GPV/BRIP1 truncating GPV/CHEK2 truncating GPV excluding CHEK2 1100delC/RAD51C truncating GPV/RAD51D truncating GPV (full extended testing) versus historical genetic testing. For partial extended testing, the ICER compared with historical genetic testing was UK£49,671/QALY. For full extended testing, the ICER compared with historical genetic testing of historical genetic testing was UK£5716/QALY. The full extended testing remained cost-effective with a 30% increase in genetic testing cost. Where existing NGS data for cancer susceptibility genes is stored to diagnostic standard in UK laboratories, this study suggests it is cost-effective to analyze, report and clinically manage patients and relatives by extended analysis to an 8-gene panel compared to the historical genetic testing.

Utility of a mainstreamed genetic testing pathway in breast and ovarian cancer patients during the COVID-19 pandemic

Mainstreamed genetic testing (MGT) obviates the need for a cancer genetics consultation, since trained oncologists (O) and gynaecologists (G) provide counseling, prescribe testing and deliver results. We report results from our MGT program and emphasize its utility during the COVID-19 lockdown, when cancer genetics clinics had suspended their activity. An MGT pathway for breast and ovarian cancer (BC/OC) patients was established in Jan-2018 between the Assistance Publique - Hôpitaux de Paris.Sorbonne Université Cancer Genetics team and the Oncology/Gynecology departments at one teaching and two regional hospitals. Trained O + G evaluated patients with the Manchester Scoring System. A 12-point threshold was recommended for testing. Next-generation sequencing of BRCA1, BRCA2, PALB2, RAD51C and RAD51D was performed. Results were delivered to the patient by O/G. Pathogenic variants (PV) carriers were referred to the genetics clinic. Results are reported for the 2nd-Jan-2018 to 1st-June-2020 period. That includes the eight-week COVID-19 lockdown and three-week de-confinement phase 1. Results were available for 231/234 patients. Twenty-eight (12.1%) carried a PV. Of the 27 patients tested during the COVID-19 period, three carried a PV, two in BRCA1 and one in RAD51C. The clinical impact was immediate for the two BRCA1 BC cases undergoing neo-adjuvant chemotherapy, since double mastectomy and salpingo-oophorectomy will now be performed using two-step strategies. MGT guaranteed care continuity in BC/OC patients during the critical phases of the COVID-19 pandemic, with immediate implications for PV carriers. More broadly, we report for the first time the successful implementation of MGT in France.

Endometrial cancer may be part of the MUTYH-associated polyposis cancer spectrum

The MUTYH gene encodes a DNA glycosylase that prevents G:C→T:A transversions. Patients with biallelic pathogenic germline MUTYH variants develop an adenomatous polyposis called MUTYH-associated polyposis (MAP). Endometrial cancers have been reported in patients with MAP, but the role of MUTYH loss of function in the oncogenesis remains unclear. We report for the first time a case of endometrial carcinoma with excess of G:C→T:A transversions in a 61-year-old patient with MAP. Single nucleotide variants of interest, Tumor Mutational Burden (TMB) and somatic mutation profile were obtained from Next-Generation Sequencing (NGS). The Tumor-Infiltrating Lymphocyte (TIL) level and immune infiltrate phenotype were assessed. The endometrial cancer had a high TMB (31.5 variants/Mb) with enrichment in G:C→T:A transversions and the presence of a driver pathogenic variant c.34G>T, p.(Gly12Cys) in KRAS, suggesting a role of MUTYH loss of function in oncogenesis. MUTYH loss of function could be involved in endometrial cancer in patients with MAP.