Abstract
BACKGROUND
Tumor and germline alterations detected by sequencing have the potential to inform management of children with CNS tumors. Comparative clinical utility data for available molecular sequencing modalities are needed to optimize testing strategies.
METHODS
Cancer patients less than 18 years of age were eligible to enroll in the Texas KidsCanSeq (KCS) clinical genomics study at six Texas institutions. Blood testing was performed on all patients using a pediatric solid tumor targeted DNA panel (124 genes), which included 35 genes associated with known cancer predisposition syndromes. Tumor testing was conducted on high-risk or recurrent tumors using the same DNA panel as well as an 81-gene RNA fusion panel. Tumor variants were classified as being of strong (Tier 1) or potential (Tier 2) clinical significance following AMP/ASCO/CAP guidelines. Germline pathogenic (P) or likely pathogenic (LP) variants per ACMG/AMP guidelines were considered clinically relevant.
RESULTS
A total of 224 children with CNS tumors were enrolled, including 146 patients with high-risk or recurrent tumors. Tissues were sufficient for analysis from 132 tumors and 211 germline samples. Clinically relevant alterations were identified in 90 of 132 (68%) tumors tested. Of 50 with therapeutic implications, 21 (42%) were not known from prior clinical testing. Therapeutically relevant tumor variants most frequently involved BRAF (n=20), CDKN2A/B (n=16), SMARCB1 (n=9), PIK3CA (n=8), and NF1 (n=7). One high grade glioma (in a patient with Lynch syndrome) was found to be hypermutated (tumor mutation burden >190 mut/Mb). Germline analysis detected P/LP variants in cancer predisposition genes in 25 of 211 (12%) patients tested, including 12 of 135 (9%) with high-risk/recurrent tumors.
CONCLUSION
Combined tumor and germline panel testing revealed alterations of clinical relevance according to consensus guidelines in approximately 70% of children with high-risk or recurrent CNS tumors.