Journal
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
Volume 23, Issue 17, Pages -Publisher
MDPI
DOI: 10.3390/ijms23179926
Keywords
X-ray contrast agents; breast cancer; computed tomography; nanotechnology; ligand-specific probes; spectral CT; dual-energy CT; molecular imaging; medical diagnostics; molecular recognition
Funding
- Massachusetts Life Science Center-Women's Health
- Massachusetts Life Science Center-Capital Program
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Medical imaging is an efficient tool for cancer screening, especially for cancer types that are undetectable through early symptoms or blood tests. By combining with state-of-the-art CT techniques, diagnostic materials that can recognize cancer cells and amplify the signal at the targeting site could lead to more precise cancer detection and intervention.
For many cancer types, being undetectable from early symptoms or blood tests, or often detected at late stages, medical imaging emerges as the most efficient tool for cancer screening. MRI, ultrasound, X-rays (mammography), and X-ray CT (CT) are currently used in hospitals with variable costs. Diagnostic materials that can detect breast tumors through molecular recognition and amplify the signal at the targeting site in combination with state-of-the-art CT techniques, such as dual-energy CT, could lead to a more precise detection and assist significantly in image-guided intervention. Herein, we have developed a ligand-specific X-ray contrast agent that recognizes alpha 5 beta 1 integrins overexpressed in MDA-MB-231 breast cancer cells for detection of triple (-) cancer, which proliferates very aggressively. In vitro studies show binding and internalization of our nanoprobes within those cells, towards uncoated nanoparticles (NPs) and saline. In vivo studies show high retention of similar to 3 nm ligand-PEG-S-AuNPs in breast tumors in mice (up to 21 days) and pronounced CT detection, with statistical significance from saline and iohexol, though only 0.5 mg of metal were utilized. In addition, accumulation of ligand-specific NPs is shown in tumors with minimal presence in other organs, relative to controls. The prolonged, low-metal, NP-enhanced spectral-CT detection of triple (-) breast cancer could lead to breakthrough advances in X-ray cancer diagnostics, nanotechnology, and medicine.
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