Abstract #0084

Preclinical MRI Reveals Bevacizumab Mitigates Radiation Necrosis

X. Jiang¹, John A. Engelbach², Jeremy Cates³, Dinesh K. Thotala⁴, RE Drzymala⁴, D.E. Hallahan⁴, JJH J.H. Ackerman⁵, Joel R. Garbow⁶

¹Chemistry, Washington Univ. in st. louis, st louis, MO, United States; ²Radiology, Washington Univ. in st. louis, st louis, MO, United States; ³Radiation Oncology, Washington University in Saint Louis, st louis, MO, United States; ⁴Radiation Oncology, Washington Univ. in st. louis, st louis, MO, United States; ⁵Chemistry, Washington University in St. Louis, st louis, MO, United States; ⁶Radiology, Washington University in Saint Louis, st louis, MO, United States

Bevacizumab, is a powerful anti-angiogenic used in the treatment of tumors. Radiation necrosis, a severe but late occurring injury to normal tissue within and surrounding a radiation treatment field, has been suggested resulting from increases in vascular permeability (leakiness). Bevacizumab may help to repair leaky capillaries and thereby mitigate radiation necrosis. We have recently developed a novel mouse model of radiation necrosis using Gamma Knife irradiation. Here, we use small-animal MRI to monitor the therapeutic effect of bevacizumab and of mouse bevacizumab (B20-4.1.1), which is capable of high-affinity binding to both human and murine VEGF-A.