Abstract
Disclosure: R. Fyda: None. M. Obal: None. B. Partynski: None. B. Domagala: None. A. Konturek: None. A. Hubalewska-Dydejczyk: None. M. Trofimiuk-Muldner: None. Introduction: PTC is characterized by a relatively low frequency of somatic mutations compared to other carcinomas, with BRAF-mutant tumors being the most common. About 15% of PTCs arise due to gene fusions. PTC is associated with an excellent prognosis, there are infrequent cases of recurrent or metastatic disease that require systemic therapy. In such instances, personalised therapy targeted according to tumors’ genomic characteristics can prolong survival. Given the risk of DNA degradation, genetic testing of paraffin-embedded tissue should ideally be performed as early as possible. The high costs of these procedures make universal testing unfeasible. Patients who may benefit from genetic characterization of their tumor need to be preselected early, before the possible need for tyrosine kinase inhibitors (TKI) therapy. This is the preliminary study on selective genetic screening for targetable somatic mutations in PTC patients. Material and Methods: Since mid-2022, we have performed next-generation sequencing (NGS) of tumor tissues from PTC patients with extensive nodal involvement, distant metastases, early recurrence, or requiring repeated surgeries. A total of 40 such patients (15 M, 25 F, median age 45) were included. In each case, NGS was conducted to detect pathogenic variants of AKT1, ALK, BRAF, CTNNB1, DDR2, EGFR, ERBB2, FGFR1, GNAS, HRAS, IDH1, IDH2, KRAS, MAP2K1, MET, NRAS, PIK3CA, RET, ROS1 and fusions of ALK, AXL, BRAF, CCND1, EGFR, FGFR1, FGFR2, FGFR3, MET, NRG1, NTRK1, NTRK2, NTRK3, PPARG, RAF1, RET, ROS1, THADA. The analysed variables included age, tumor characteristics (T, N, M, extranodal extension), categorised lymph node metastases size, repeated surgery, and remission status at the latest follow-up. Statistical analyses were performed using the Mann-Whitney U test for continuous variables, and Chi-square or Fisher's exact tests for categorical variables. Results: Among the 40 patients, 11 (27.5%) were identified with gene fusions [CCDC6(1)-RET(12), NCOA(4)-RET(12), CCDC6(1)-RET(12), CCDC6(1)-RET(12), ETV6(4)-NTRK3(14), ERC1(17)-RET(12), TMEM9(5)-BRAF(9), NCO4(7)-RET(12), NCOA4(6)-RET(12), SQSTM1(5)-NTRK1(10)] with a median age of (2 M, 9 F; median age 35). In the no-fusion group (median age 47, 13 M, 16 F), BRAF V600E was found in 22 patients, one sample was degraded, and in 6 no pathogenic variants were detected.The fusion-positive group was significantly younger (p = 0.007). Lymph node metastases larger than 10 mm were more common in fusion-positive subjects (p = 0.009). No other significant differences in the clinical course of PTC were observed. Conclusions: Younger PTC patients with massive lymph node involvement, especially larger nodes, should be prioritized when considering the genetic screening of tumor tissues. Early genetic testing in these patients may identify actionable mutations or fusions, enabling timely targeted therapies. Presentation: Sunday, July 13, 2025