Breast cancer is the second leading cause of death of women in the United States. Improvements in screening technology have increased the breast cancer incidence rate, as smaller lesions are being detected. Due to the small size of lesions, patients can choose to receive breast conservation therapy (BCT) rather than a modified radical mastectomy. Even though the breast retains cosmesis after BCT, there is an increased risk of the patient having residual microscopic disease, known as positive margins. Patients with positive margins receive increased radiation and have an increased chance of second surgery. Pathology with hematoxylin and eosin (H&E) remains the gold standard for diagnosing margin status in patients. Intraoperative pathology has been shown to reduce the rate of positive margins in BCT. However, a minority of surgery centers have intraoperative pathology centers, limiting the number of patients that receive this standard of care.
The expression profiles of surface receptors such as ErbB2 (HER2-positive) and epidermal growth factor receptor (EGFR) provide information about the aggressiveness of a particular tumor. Recent research has shown that there was elevated EGFR expression in patients with a local recurrence even though the biopsies were assessed to be disease free using standard H&E. If the physicians had known the molecular expression of these biopsies, a different treatment regimen or excision of more tissue might have prevented the recurrence.
This thesis investigates targeted molecular contrast agents that enhance the visualization of molecular markers such as glucose transporters (GLUTs) and growth factor receptors in tissue specimens. First, application of 2-NBDG, a fluorescent deoxyglucose, enhances signal in cancerous tissue with a 20-minute incubation. Then, antibody functionalized silica-gold nanoshells enhance the visualization of ErbB2 overexpression in specimens with a 5-minute incubation.
To image these contrast agents in cancerous tissue, a portable, inexpensive device was developed as a tool to help physicians visualize expression of surface markers. The system visualizes absorbance from nanoshell aggregates and fluorescence in the visible and near-infrared light spectrum. This study represents the first step in the development of an intraoperative optical imaging device to enhance the visualization of molecular markers overexpressed in cancerous cells.
|School Location:||United States -- Texas|
|Source:||DAI-B 75/03(E), Dissertation Abstracts International|
|Subjects:||Biomedical engineering, Medical imaging, Nanotechnology, Oncology|
|Keywords:||Breast cancer, Contrast agents, Optical imaging, Tumor margins|
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