Simulations of Breast Cancer Imaging Using Gamma-Ray Stimulated Emission Computed Tomography

Here, we present an innovative imaging technology for breast cancer using gamma-ray stimulated spectroscopy based on the nuclear resonance fluorescence (NRF) technique. In NRF, a nucleus of a given isotope selectively absorbs gamma rays with energy exactly equal to one of its quantized energy states...

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Vydáno v:	IEEE transactions on medical imaging Ročník 33; číslo 2; s. 546 - 555
Hlavní autoři:	Lakshmanan, Manu N., Harrawood, Brian P., Agasthya, Greeshma A., Kapadia, Anuj J.
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	United States IEEE 01.02.2014 The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Témata:	Breast Breast cancer Breast cancer imaging Breast Neoplasms - diagnostic imaging Cancer computed tomography Computer Simulation Density Detectors element concentrations Energy (nuclear) Female Gamma Rays Humans Imaging Lesions Mammography Models, Biological nuclear resonance fluorescence Phantoms, Imaging Photonics Spectroscopy Spectrum analysis Tomography, Emission-Computed - methods Trace elements
ISSN:	0278-0062, 1558-254X, 1558-254X
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Abstract	Here, we present an innovative imaging technology for breast cancer using gamma-ray stimulated spectroscopy based on the nuclear resonance fluorescence (NRF) technique. In NRF, a nucleus of a given isotope selectively absorbs gamma rays with energy exactly equal to one of its quantized energy states, emitting an outgoing gamma ray with energy nearly identical to that of the incident gamma ray. Due to its application of NRF, gamma-ray stimulated spectroscopy is sensitive to trace element concentration changes, which are suspected to occur at early stages of breast cancer, and therefore can be potentially used to noninvasively detect and diagnose cancer in its early stages. Using Monte-Carlo simulations, we have designed and demonstrated an imaging system that uses gamma-ray stimulated spectroscopy for visualizing breast cancer. We show that gamma-ray stimulated spectroscopy is able to visualize breast cancer lesions based primarily on the differences in the concentrations of trace elements between diseased and healthy tissue, rather than differences in density that are crucial for X-ray mammography. The technique shows potential for early breast cancer detection; however, improvements are needed in gamma-ray laser technology for the technique to become a clinically feasible method of detecting and diagnosing cancer at early stages.
AbstractList	Here, we present an innovative imaging technology for breast cancer using gamma-ray stimulated spectroscopy based on the nuclear resonance fluorescence (NRF) technique. In NRF, a nucleus of a given isotope selectively absorbs gamma rays with energy exactly equal to one of its quantized energy states, emitting an outgoing gamma ray with energy nearly identical to that of the incident gamma ray. Due to its application of NRF, gamma-ray stimulated spectroscopy is sensitive to trace element concentration changes, which are suspected to occur at early stages of breast cancer, and therefore can be potentially used to noninvasively detect and diagnose cancer in its early stages. Using Monte-Carlo simulations, we have designed and demonstrated an imaging system that uses gamma-ray stimulated spectroscopy for visualizing breast cancer. We show that gamma-ray stimulated spectroscopy is able to visualize breast cancer lesions based primarily on the differences in the concentrations of trace elements between diseased and healthy tissue, rather than differences in density that are crucial for X-ray mammography. The technique shows potential for early breast cancer detection; however, improvements are needed in gamma-ray laser technology for the technique to become a clinically feasible method of detecting and diagnosing cancer at early stages. Here, we present an innovative imaging technology for breast cancer using gamma-ray stimulated spectroscopy based on the nuclear resonance fluorescence (NRF) technique. In NRF, a nucleus of a given isotope selectively absorbs gamma rays with energy exactly equal to one of its quantized energy states, emitting an outgoing gamma ray with energy nearly identical to that of the incident gamma ray. Due to its application of NRF, gamma-ray stimulated spectroscopy is sensitive to trace element concentration changes, which are suspected to occur at early stages of breast cancer, and therefore can be potentially used to noninvasively detect and diagnose cancer in its early stages. Using Monte-Carlo simulations, we have designed and demonstrated an imaging system that uses gamma-ray stimulated spectroscopy for visualizing breast cancer. We show that gamma-ray stimulated spectroscopy is able to visualize breast cancer lesions based primarily on the differences in the concentrations of trace elements between diseased and healthy tissue, rather than differences in density that are crucial for X-ray mammography. The technique shows potential for early breast cancer detection; however, improvements are needed in gamma-ray laser technology for the technique to become a clinically feasible method of detecting and diagnosing cancer at early stages.Here, we present an innovative imaging technology for breast cancer using gamma-ray stimulated spectroscopy based on the nuclear resonance fluorescence (NRF) technique. In NRF, a nucleus of a given isotope selectively absorbs gamma rays with energy exactly equal to one of its quantized energy states, emitting an outgoing gamma ray with energy nearly identical to that of the incident gamma ray. Due to its application of NRF, gamma-ray stimulated spectroscopy is sensitive to trace element concentration changes, which are suspected to occur at early stages of breast cancer, and therefore can be potentially used to noninvasively detect and diagnose cancer in its early stages. Using Monte-Carlo simulations, we have designed and demonstrated an imaging system that uses gamma-ray stimulated spectroscopy for visualizing breast cancer. We show that gamma-ray stimulated spectroscopy is able to visualize breast cancer lesions based primarily on the differences in the concentrations of trace elements between diseased and healthy tissue, rather than differences in density that are crucial for X-ray mammography. The technique shows potential for early breast cancer detection; however, improvements are needed in gamma-ray laser technology for the technique to become a clinically feasible method of detecting and diagnosing cancer at early stages.
Author	Agasthya, Greeshma A. Lakshmanan, Manu N. Harrawood, Brian P. Kapadia, Anuj J.
Author_xml	– sequence: 1 givenname: Manu N. surname: Lakshmanan fullname: Lakshmanan, Manu N. email: manu.lakshmanan@duke.edu organization: Depts. of Biomed. Eng. & Radiol., Duke Univ., Durham, NC, USA – sequence: 2 givenname: Brian P. surname: Harrawood fullname: Harrawood, Brian P. email: brian.harrawood@duke.edu organization: Dept. of Radiol., Duke Univ., Durham, NC, USA – sequence: 3 givenname: Greeshma A. surname: Agasthya fullname: Agasthya, Greeshma A. email: greeshma.agasthya@duke.edu organization: Depts. of Biomed. Eng. & Radiol., Duke Univ., Durham, NC, USA – sequence: 4 givenname: Anuj J. surname: Kapadia fullname: Kapadia, Anuj J. email: kapadia@duke.edu organization: Dept. of Radiol. & the Med. Phys. Grad. Program, Duke Univ., Durham, NC, USA
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SubjectTerms	Breast Breast cancer Breast cancer imaging Breast Neoplasms - diagnostic imaging Cancer computed tomography Computer Simulation Density Detectors element concentrations Energy (nuclear) Female Gamma Rays Humans Imaging Lesions Mammography Models, Biological nuclear resonance fluorescence Phantoms, Imaging Photonics Spectroscopy Spectrum analysis Tomography, Emission-Computed - methods Trace elements
Title	Simulations of Breast Cancer Imaging Using Gamma-Ray Stimulated Emission Computed Tomography
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