Abstract 1496: Quantification of tumor blood perfusion of an orthotopic mouse model of neuroblastoma using nonlinear contrast-enhanced ultrasound imaging

Abstract

Abstract This study quantifies tumor perfusion in individual tumors to estimate blood flow and blood volume parameters of an individualized tumor compartment of a comprehensive physiologically-based pharmacokinetic model of topotecan using an orthotopic xenograft model of pediatric neuroblastoma. We non-invasively imaged perfusion in orthotopic neuroblastoma (NB5) xenograft tumors (n = 3 CD1 nude mice/time point) using nonlinear contrast enhanced ultrasound technique (CEUS). Tumor tissue and organs from the mice were harvested at predefined time-points. We used a programmable syringe pump to inject MicroMarker® microbubbles via tail vein catheter and acquired images using VisualSonics VEVO 2100 imaging system. We used the burst-replenishment technique to image tumor perfusion, which requires a constant concentration of microbubbles in blood during acquisition. To maintain a steady concentration of microbubbles, we programmed the pump to inject a small bolus followed by constant infusion. Our preliminary analysis showed that healthy kidneys rapidly reach a steady state in less than 1 min, significantly shorter than the commonly used constant infusion without an initial bolus. The nonlinear CEUS signal intensities of kidney cortex showed less than 20% variation between mice. We used a custom program to acquire the CEUS perfusion images over a 3D volume that included the tumor and a kidney. We used the kidney as a reference organ to normalize whole tumor perfusion data. We fitted the log-normal perfusion model to estimate perfusion parameters for individual tumors. Our perfusion quantification over the entire tumor volume represents tumor perfusion more accurately than the commonly used methods based on a single 2D plane without a reference organ. Our approach provides population estimates of blood perfusion based on properly normalized estimates of individual blood perfusion parameters. Citation Format: Suresh Thiagarajan, Abbas Shirinifard, Megan O. Jacus, Abigail D. Davis, Yogesh T. Patel, Stacy L. Throm, Vinay Daryani, Clinton F. Stewart, András Sablauer. Quantification of tumor blood perfusion of an orthotopic mouse model of neuroblastoma using nonlinear contrast-enhanced ultrasound imaging. [abstract]. In: Proceedings of the 106th Annual Meeting of the American Association for Cancer Research; 2015 Apr 18-22; Philadelphia, PA. Philadelphia (PA): AACR; Cancer Res 2015;75(15 Suppl):Abstract nr 1496. doi:10.1158/1538-7445.AM2015-1496