Browsing by Author "Esparza, Cora Marie"
Now showing 1 - 1 of 1
Results Per Page
Sort Options
- Examining location-specific invasive patterns: linking interstitial fluid and vasculature in glioblastomaEsparza, Cora Marie (Virginia Tech, 2024-05-14)Glioblastoma is the most common and deadly primary brain tumor with an average survival of 15 months following diagnosis. Characterized as highly infiltrative with diffuse tumor margins, complete resection and annihilation of tumor cells is impossible following current standard of care therapies. Thus, tumor recurrence is inevitable. Interstitial fluid surrounds all of the cells in the body and has been linked to elevated invasion in glioma, which highlights the importance of this understudied fluid compartment in the brain. The primary objective of this dissertation was to identify specific interstitial fluid transport behaviors associated with elevated invasion surrounding glioma tumors. We first describe our methods to measure interstitial fluid flow in the brain using dynamic contrast enhanced magnetic resonance imaging (DCE-MRI), a clinically used, non-invasive imaging modality. We highlight the versatility of the technique and the possibilities that could arise from widespread adoption into existing perfusion-based imaging protocols. Using this method, we examined transport associated with invasion in a murine GL261 cell line. We found that elevated interstitial fluid velocity magnitudes, decreased diffusion coefficients and regions with accumulating flow were significantly associated with invasion. We tested the validity of our invasive trends by extending our analysis to multiple, clinically-relevant tumor locations in the brain. Interestingly, we found invasion did not follow the same trends across brain regions indicating location-specific structures may drive both interstitial flow and corresponding invasion heterogeneities. Lastly, we aimed to manipulate flow by engaging with the meningeal lymphatics, an established pathway for interstitial fluid drainage. Over-expression of VEGF-C in the tumor microenvironment neither enhanced drainage nor altered invasion in comparison to our control, indicating other tumor-secreted growth factors, such as VEGF-A, may play a larger role in mediating flow and invasion. Taken together, by identifying specific transport factors associated with invasion, we may be better equipped to target and treat infiltrative tumor margins, ultimately extending survival in patients diagnosed with this devastating disease.