Background:
The falling cost and increasing ease of access to genomic sequencing of tumours is gaining influence on clinical decision-making. Cancer genomics is approaching a tipping point where genomic sequencing enters routine clinical practice. However, evaluating the feasibility and performance of genomic technology, particularly sequencing of large numbers of genes in a clinical setting is not fully established.
Methods:
Between March 2014 and March 2015, the Victorian Comprehensive Cancer Centre (VCCC) explored the feasibility and utility of performing real-time genomic sequencing in 15 participants. The performance of an exome-scale (ES) approach was compared against targeted sequencing (TS), alongside an assessment of fresh frozen (FF) tissue, versus formalin-fixed paraffin embedded (FFPE) tissue. A multi-disciplinary molecular tumour board (MTB) comprising scientists, pathologists, bioinformaticians and clinicians reviewed the genomic data to determine the clinical relevance of identified mutations and whether they were “actionable” and/or “druggable”.
Results:
All 15 cases were successfully analysed. Mean coverage was 100X for blood, 500X for FFPE and 1000-1500X for FF specimens. A total of 63 variants were identified by ES after filtering for genes documented to be relevant in cancer. Only 21% (13/63) were found using “hotspot” TS; 48 variants were unique, 17 were pathogenic, 9 possibly pathogenic and 32 were variants of unknown clinical significance. Mutations in TP53 (9/15 cases) were most frequent. Targeted sequencing detected a mutation in 60% (9/15 cases), whilst ES identified mutations in all (100%). Concordance between the platforms was complete. A median of 2 germline and 2 somatic variants were identified per participant. Our findings informed cancer management in 53% (8/15) of cases with results contributing towards either diagnostic, prognostic or treatment information; 47% (7/15) referred to the familial cancer clinic, and “druggable” targets identified in 53% (8/15).
Conclusion:
Genomic sequencing of tumour DNA is feasible and aided clinical decision making in 53% of cases.