Radiopaque, Tumor-Targeted Nanoparticles for Improved Mammographic Detection of Breast Cancer

Abstract

Despite the widespread use of X-ray mammography for routine breast cancer (BC) screening the technique suffers from a number of major limitations including a false-negative rate of at least 10-15% and a positive predictive value (PPV2) of only 25-40%. Accordingly a large number of patients either do not receive treatment when they should or are subjected to needless physical and emotional trauma. The weakness of X-ray mammography stems from its poor ability to a) image small or noncalcified lesions particularly in patients with high breast density and b) to distinguish between benign and malignant microcalcifications. A tumor-selective X-ray contrast agent would mitigate both of these limitations. This proposal was focused on developing radiopaque gold nanoparticles targeted to HER2 a BC-relevant antigen. Administered intravenously these conjugates should accumulate preferentially at tumors enhancing visualization due to the presence of the gold. Interpretation could be aided by subtraction imaging or comparison to a baseline mammogram performed prior to contrast injection. The major objective were 1) to determine the ability of nanogold clusters to detectably alter X-ray mammograms performed using plastic phantoms 2) to develop nanogold conjugates using small engineered antibody fragments and 3) to perform initial in vivo targeting studies with these conjugates.

Document Details

Document Type

Technical Report

Publication Date

Aug 01, 2007

Accession Number

ADA474676

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