Abstract BACKGROUND Gliomas, the most common primary tumors of the CNS, presenting diagnostic and therapeutic challenges due to their heterogeneity. Next-generation sequencing (NGS) enhances diagnostic precision by identifying genetic alterations, guiding accurate diagnosis and personalized treatment strategies. Post-treatment complications such as radionecrosis and pseudoprogression present additional diagnostic difficulties, often mimicking tumor recurrence. This study aimed to evaluate the association between genetic alterations detected by NGS and treatment-related complications. METHODS This retrospective study analyzed data from electronic medical records at a Brazilian Radiation Therapy Department (2018-2023). The study included patients with gliomas who underwent surgical resection followed by adjuvant radiochemotherapy and subsequently developed complications such as radionecrosis and pseudoprogression. Genetic alterations detected by the HSL 500 (NGS) test were evaluated for their association with these complications using Fisher’s Exact Test. RESULTS Out of 192 patients treated for glioma, 46 (23.96%) experienced treatment-related complications, with 20 patients having available NGS test results. Among these, eight cases were identified as pseudoprogression, fifteen as radionecrosis, with three patients presenting both conditions. All 20 patients with NGS results were diagnosed with high-grade gliomas, eight of whom underwent reirradiation, resulting in two cases of radionecrosis post-reirradiation. Although no statistically significant association was found between genetic alterations and radionecrosis or pseudoprogression, specific mutations were prevalent in each group. In radionecrosis cases, the most common mutations were TERT promoter (c.1-124C>T) (n=9, p=0.613) and EGFR amplification (n=8, p=1.0). In pseudoprogression, frequent mutations included TERT promoter (c.1-124C>T) (n=6, p=0.642), EGFR (n=5, p=0.67), PTEN (n=4, p=1.0), NF1 (n=2, p=0.537), and P53 (n=2, p=0.197). CONCLUSION Molecular testing for glioma characterization is crucial for diagnosis and prognosis, aiding in understanding treatment-related complications. Strategies to avoid radionecrosis and pseudoprogression are vital to improve patient quality of life, especially in high-grade gliomas. Further studies are needed to confirm these trends and explore clinical relevance of mutations.
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