Ultrasound Imaging Enables Longitudinal Tracking of Vascular Changes that Correlate with Immune Cell Infiltration After Radiotherapy.

While immunotherapy shows great promise in patients with triple negative breast cancer, many will not respond to treatment, and predicting response is made difficult by significant tumor heterogeneity. Non-invasive imaging of the tumor vasculature enables the monitoring of treatment and has potential to aid in predicting therapeutic response. Here, we use ultrafast power doppler ultrasound (US) to track longitudinal changes in the vascular response to radiotherapy in two breast cancer models to correlate vascular and immune changes in the tumor microenvironment. Tumor volume and vascular index were calculated to evaluate the effects of radiation using US imaging. US tumor measurements and the quantified vascular response to radiation were confirmed with caliper measurements and immunohistochemistry observations, respectively, demonstrating a proof-of-principle method for non-invasive vascular monitoring. Additionally, we found significant infiltration of CD8+ T cells into irradiated tumors 10 days after radiation, which followed a sustained decline in vascular index that was first observed 1 day post-radiation. Taken together, our findings reveal the potential for ultrafast power doppler US to evaluate changes in tumor vasculature that may be indicative of the tumor-immune microenvironment and ultimately improve patient outcomes by predicting response to immunotherapy.