Real-Time Fluorescence Lifetime Tracking
- 技術優勢
- Real-time analysis Rapid and non-invasive real-time tissue diagnosis Continuous acquisition, processing, and display Single hand held or biopsy fiber-optic probe Less sensitive to the presence of endogenous absorbers
- 技術應用
- Tissue characterization Diagnosis in: Ophthalmology, cardiology, and oncology
- 詳細技術說明
- Conventional imaging techniques such as magnetic resonance imaging (MRI) and computed tomography (CT) provide surgeons with a great deal of information about a tumor’s anatomy but cannot distinguish between cancerous and non-cancerous cells. Time-resolved fluorescence spectroscopy (TRFS) has shown promise in the imaging of biopsies of brain tumor, oral carcinoma, and atherosclerosis but currently requires a minimum of several seconds (and up to a few minutes) of off-line fluorescence decay analysis due to the large number of data points collected. While such an approach show-cases the potential of TRFS, it also presents a hurdle which prevents TRFS from being used as a real-time tissue diagnostic tool. Researchers at the University of California, Davis have developed a novel technique for continuous acquisition, processing, and display of fluorescence lifetimes. This technique allows for rapid and non-invasive real-time tissue diagnosis through a single hand held or biopsy fiber-optic probe. TRFS has been found to be less sensitive to the presence of endogenous absorbers (such as blood) or changes in light excitation collection.
- *Abstract
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Researchers at the University of California, Davis have developed a novel technique for continuous acquisition, processing, and display of fluorescence lifetimes. This technique allows for rapid and non-invasive real-time tissue diagnosis through a single hand-held or biopsy fiber-optic probe.
- *IP Issue Date
- Jul 28, 2016
- *Principal Investigation
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Name: Julien Bec
Department:
Name: Dinglong Ma
Department:
Name: Laura Marcu
Department:
Name: Diego Yankelevich
Department:
Name: Dimitrios Gkorpas
Department:
- 其他
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Additional Technologies by these Inventors
- Single Fiber-Based Multimodal Biophotonic Imaging and Spectroscopy Platform
- Nondestructive System for Quantitative Evaluation of Cartilage Degradation and Regeneration
- Fabrication Method for Side Viewing Miniature Optical Elements with Free-Form Surface Geometry
Tech ID/UC Case
24902/2015-065-0
Related Cases
2015-065-0
- 國家/地區
- 美國
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