The emerging role of circulating tumor DNA in brain tumor research

The emerging role of circulating tumor DNA in brain tumor research

Brain tumors provide considerable diagnostic and treatment challenges due to their intricate nature and the hazards linked to direct tissue biopsies. Owing to the restricted sensitivity and specificity of conventional procedures, new techniques like liquid biopsy have garnered attention. Circulating...

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Main Authors: Amir Modarresi Chahardehi, Niki Faraji, Nikoo Emtiazi, Reza Nasiri, Maryam Daghagheleh, Helia Mohammadaein, Fatemeh Masoudi, Kimia Ghazi Vakili, Aylin Sefidmouy Azar, Hossein Fatemian, Hossein Motedayyen, Reza Arefnezhad, Fatemeh Rezaei-Tazangi, Zahra Niknam, Marziye Ranjbar Tavakoli
Format: Article
Language:English
Published: Elsevier 2025-06-01
Series:IBRO Neuroscience Reports
Subjects:
Circulating tumor DNA
Brain tumor
Glioma
Glioblastoma
Cell free DNA
Online Access:http://www.sciencedirect.com/science/article/pii/S2667242125000557
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Summary:Brain tumors provide considerable diagnostic and treatment challenges due to their intricate nature and the hazards linked to direct tissue biopsies. Owing to the restricted sensitivity and specificity of conventional procedures, new techniques like liquid biopsy have garnered attention. Circulating tumor DNA (ctDNA), present in physiological fluids such as cerebrospinal fluid (CSF) and plasma, has emerged as a viable instrument for non-invasive tumor characterization. Hence, advancements in next-generation sequencing (NGS) and digital PCR have enhanced the sensitivity of ctDNA detection, rendering it a feasible method for monitoring tumor dynamics and evaluating therapy responses. Research indicates that ctDNA strongly correlates with tumor heterogeneity, providing a superior alternative to single-site tissue biopsies. CSF, due to its proximity to the brain, offers elevated amounts of ctDNA for examination relative to plasma, particularly in central nervous system (CNS) cancers. Research indicates that ctDNA can detect actionable mutations, forecast little residual illness, and enable real-time monitoring of disease development and resistance. Notwithstanding these advantages, difficulties, including poor ctDNA yield and heterogeneity in detection methodologies persist. This review examines the clinical efficacy of ctDNA in brain tumor diagnosis, emphasizes technical developments in ctDNA analysis, and stresses the necessity for standardized methods. Comprehending the capabilities and constraints of ctDNA can facilitate the development of more accurate, individualized therapy approaches in neuro-oncology.
ISSN:2667-2421

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