Evaluation of a CD13 and Integrin αβ Dual-Receptor Targeted Tracer Ga-NGR-RGD for Ovarian Tumor Imaging: Comparison With F-FDG.

Ovarian cancer has the highest mortality rate of gynecologic malignancy. F-FDG positron emission tomography (PET) adds an important superiority over traditional anatomic imaging modalities in oncological imaging but has drawbacks including false negative results at the early stage of ovarian cancer, and false positives when inflammatory comorbidities are present. Aminopeptidase N (APN, also known as CD13) and integrin αβ are two important targets overexpressed on tumor neo-vessels and frequently on ovarian cancerous cells. In this study, we used subcutaneous and metastatic models of ovarian cancer and muscular inflammation models to identify Ga-NGR-RGD, a heterodimeric tracer consisting of NGR and RGD peptides targeting CD13 and integrin αβ, respectively, and compared it with F-FDG. We found that Ga-NGR-RGD showed greater contrast in SKOV3 and ES-2 tumors than F-FDG. Low accumulation of Ga-NGR-RGD but avid uptake of F-FDG were observed in inflammatory muscle. In abdominal metastasis models, PET imaging with Ga-NGR-RGD allowed for rapid and clear delineation of both peritoneal and liver metastases (3-6 mm), whereas, F-FDG could not distinguish the metastasis lesions due to the relatively low metabolic activity in tumors and the interference of intestinal physiological F-FDG uptake. Due to the high tumor-targeting efficacy, low inflammatory uptake, and higher tumor-to-background ratios compared to that of F-FDG, Ga-NGR-RGD presents a promising imaging agent for diagnosis, staging, and follow-up of ovarian tumors.