Microwave Nearfield Radar Imaging (NRI) Using Digital Breast Tomosynthesis (DBT) for Non-Invasive Breast Cancer Detection
- Technology Benefits
- The system:ΓÇóProvides an accurate background informationΓÇóAllows for a single-experiment data collection for both NRI/DBT dataΓÇóEffectively allows for an accurate characterization of complex di-electric constant for each pixelΓÇóUses a phase-based imaging algorithm, effectively collects data in a two dimensional arrayΓÇóEnables an enhancement of the probability of breast cancer detection as compared to conventional proceduresΓÇóWould be commercially useful as an efficient tool for breast cancer screening/detection
- Detailed Technology Description
- None
- *Abstract
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Conventionally, there are many common techniques/mechanisms available for breast cancer detection. However, these techniques are associated with one or more limitations such as homogenous uniform background, use of fixed di-electric constant for each tissue type, low radiological contrast between fibrous and cancerous tissue, and elevated acquisition time for imaging signals. This invention relates to a novel and hybrid microwave near-field radar imaging (NRI) system incorporating a digital-breast tomosynthesis (DBT) mechanism for non-invasive detection of breast cancer.
- *Principal Investigator
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Name: Jose Angel Martinez-Lorenzo
Department:
Name: Carey Rappaport
Department:
- Country/Region
- USA
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