Browsing by Author "Patwardhan, Manali Nitin"

Now showing 1 - 1 of 1
  • Thumbnail Image
    Investigating the ablative and immunomodulatory effects of high frequency irreversible electroporation on osteosarcoma in-vitro
    Patwardhan, Manali Nitin (Virginia Tech, 2024-05-23)
    Osteosarcoma (OS) is the most common primary bone tumor with an annual incidence rate of 3-4 individuals per million particularly affecting children and young adults. The 5-year survival rate stands at 60-80% with the current standard of care for human OS patients who do not have metastatic disease at presentation, but this drops to 20% for patients with metastatic disease which frequently occurs in the lungs. OS is much more common in canines, with metastasis being the major contributor to mortality, the same as in humans. Metastatic OS warrants novel treatment strategies to improve prognosis and survival. High-frequency irreversible electroporation (H-FIRE) is a promising, non-thermal, minimally invasive technique that induces cell death by applying pulsed electric fields in targeted regions, potentially triggering an anti-tumor immune response that could also target and prevent metastases. Such a dual functionality of H-FIRE is uniquely suited to treat pulmonary metastatic OS. The goal of this thesis was to study the ablative and immunomodulatory effects of H-FIRE on OS in-vitro with the overall hypothesis that H-FIRE completely ablates OS cells, induces the release of damage-associated molecular patterns (DAMPs), and promotes pro-inflammatory immune activating signatures in macrophages and T cells. Using an in-vitro model, my master's thesis focused on 1) Determining the electric field strength that completely ablates OS cells 2) Evaluating the immunomodulatory effects of H-FIRE by co-culturing H-FIRE treated OS cells with macrophages and T cells separately. Our study has utilized murine, canine, and human OS and immune cells, thus demonstrating a unique cross-species approach, 3) Evaluating DAMPs (ATP, calreticulin, and HMGB1) post-H-FIRE ablation of human OS cells. Overall, our study showed that H-FIRE successfully ablated OS cells in-vitro, induced the release of DAMPs from treated cells, and promoted activation signatures in immune cells. This thesis provides foundational data for future investigations developing H-FIRE as an immunomodulatory strategy for treating metastatic OS.