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View article: Spatiotemporal Insights into Glioma Oncostream Dynamics: Unraveling Formation, Stability, and Disassembly Pathways (Adv. Sci. 18/2024)
Spatiotemporal Insights into Glioma Oncostream Dynamics: Unraveling Formation, Stability, and Disassembly Pathways (Adv. Sci. 18/2024) Open
Unraveling the Dynamics of Brain Tumor Invasion In article number 2309796, Pedro R. Lowenstein and co‐workers present a comprehensive study on the behavior of glioma oncostreams, focusing on their formation, stability, and disassembly in v…
View article: Spatiotemporal Insights into Glioma Oncostream Dynamics: Unraveling Formation, Stability, and Disassembly Pathways
Spatiotemporal Insights into Glioma Oncostream Dynamics: Unraveling Formation, Stability, and Disassembly Pathways Open
Glioblastoma (GBM) remains a challenge in Neuro‐oncology, with a poor prognosis showing only a 5% survival rate beyond two years. This is primarily due to its aggressiveness and intra‐tumoral heterogeneity, which limits complete surgical r…
View article: Modeling Glioma Oncostreams In Vitro: Spatiotemporal Dynamics of their Formation, Stability, and Disassembly
Modeling Glioma Oncostreams In Vitro: Spatiotemporal Dynamics of their Formation, Stability, and Disassembly Open
Glioblastoma (GBM), known for its invasive nature, remains a challenge in clinical oncology due to its poor prognosis. Only 5% of patients live past 2 years. The extensive intra-tumoral heterogeneity, combined with aggressive infiltration …
View article: TMIC-03. TARGETING THE COLLAGEN RECEPTOR DDR1 PROMOTES ANTI-GLIOMA IMMUNITY BY REMODELING COLLAGEN FIBER ARCHITECTURE
TMIC-03. TARGETING THE COLLAGEN RECEPTOR DDR1 PROMOTES ANTI-GLIOMA IMMUNITY BY REMODELING COLLAGEN FIBER ARCHITECTURE Open
Glioblastoma (GBM), characterized by its aggressive nature and profound immunosuppression, poses a significant therapeutic challenge with limited treatment options. We previously demonstrated that targeting Col1α1 eradicates oncostreams an…