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Hereditary Cancer Predisposition: Updates in Genetic Testing

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Presentation on theme: "Hereditary Cancer Predisposition: Updates in Genetic Testing"— Presentation transcript:

1 Hereditary Cancer Predisposition: Updates in Genetic Testing
Darcy Thull, MS Certified Genetic Counselor UPMC Cancer Genetics Program 2017

2 Disclosure I have no relevant financial relationships to disclose

3 Cancer Sporadic/Shared Factors ~90% 5-10% Hereditary Susceptibility

4 Types of Genetic Testing
Germline Studies Genomic Tumor Studies Evaluation of a blood or saliva specimen to identify inherited genetic mutations Aid in determining treatment OncotypeTM (breast) May enable personalized therapy that is targeted to a specific gene pathway EGFR mutations (lung) Can sometimes identify hereditary cancer predispositions

5 Genome Medicine/Precision Medicine
The use of knowledge from genetic testing of tumor (somatic) or germline to direct a patient’s cancer care Next Generation Sequencing (NGS) the ability to analyze multiple genes or DNA fragments simultaneously-- faster and at less cost (gene panels)

6 DNA

7 BRCA Genetic Testing Timeline
Identification of BRCA1/2 genes Commercial sequencing at Myriad Genetics Detects ~85% of gene mutations 2002 BRCA1 5-site rearrangement testing Increases detection rate by a few percentage points 2006 BRCA1/2 Rearrangement testing (BART) started Special cases only 2012 (October 12) BRCA1/2 sequencing and rearrangement (BART) testing becomes standard on all samples Myriad Gene Patent for BRCA1/2 overturned 6/2013 --History Matters-- Patients tested prior to October 12, 2012 may need additional BRCA1/2 testing to ensure a mutation is not present

8 Features of Hereditary Cancer Syndromes
Multiple family members with the same or related types of cancer across several generations (Autosomal Dominant inheritance) Young age at diagnosis (under 45) Individuals with multiple separate cancer diagnosis Uncommon cancers (male breast, ovary) Suggestive Tumor studies (TNBC <60, MMR deficient colon tumors) Ethnicity

9 When should BRCA testing be considered?
This will become more important when we talk about the Angelina Jolie effect Most health insurance carriers follow NCCN guidelines for testing coverage—some exceptions

10 Breast Cancer Case Three generations of women
br ca dx50 Three generations of women Early-onset breast cancer Ovarian cancer Small family

11 BRCA Test Results--2004 Still concerned about a hereditary cancer predisposition

12 Breast Cancer Case—Patient Returns 2008
br ca dx50 Three generations of women Early-onset breast cancer Ovarian cancer Small family BRCA deletion/duplication studies completed (BART)

13 BRCA Deletion/Duplication Results
New Nomenclature Pathogenic Variant= Mutation

14 Implications of Identifying a Mutation
br ca dx50 BRCA2 Cancer Risks (lifetime) 60% Breast Cancer Risk (Avg) 30-40% Second Breast Cancer 16-27% Ovary Cancer Risk 5% Pancreas Cancer 39% Prostate Cancer 5% Melanoma

15 Clinical Management: Mutation-Positive Patient
Testing for other adult relatives Increased surveillance Medication to lower risk Preventive surgery Treatment options

16 No more BRCA Patents and NGS
Multi-gene cancer panels become clinically available Many laboratories offer hereditary breast cancer panels which include analysis of BRCA1/2 and other genes Panels vary in number and types of genes included

17 Cancer Gene Panel High-Risk Genes Moderate-Risk Genes Newer Genes
Well studied Lifetime risk of cancer >50% May be related to more than 1 type of cancer Guidelines for screening and prevention established Lifetime risk of developing breast cancer 24-49% Guidelines for screening available Guidelines for prevention not established Not as well studied Data based on small numbers of patients Cancer risks not yet determined May increase risks for breast and other cancers Guidelines for care not established

18 Possible Genetic Test Results
Pathogenic Variant Detected or Positive Result Increased Cancer Risks Apply Management Guidelines if available Test other family members if actionable No Pathogenic Variant Detected or Negative Result Assess result based on family history Screen based on family history No genetic testing for unaffected family members Variant of Uncertain Significance (VUS) Subtle DNA change Unknown if benign variant (normal) or disease causing Follow based on family history More info may become available

19 Another reason to consider updated/additional genetic testing is a change in personal or cancer family history (new diagnoses)

20 Issues to Consider with Panels
They may not provide an answer (no mutations detected) The likelihood of a VUS is higher since multiple genes are being analyzed May not be completely covered by insurance due to lack of evidence for management There may not be sufficient information to comment on specific cancer risks related to a mutation in a “newer” gene

21 Summary Testing technology changes and updated testing may be a consideration Personal and family cancer histories change and additional testing may be considered NGS multigene panels provide additional information, but not all pathogenic variants (mutations) identified will result in a change in clinical management (new genes) Testing more genes means there is a greater chance to identify a VUS Testing not be completely covered by insurance due to lack of evidence regarding medical interventions for some genes evaluated

22 Questions?


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