Computed tomography laser mammography: Difference between revisions
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'''Computed Tomography Laser [[Mammography]]''' ('''CTLM''') is the [[trademark]] of [[Imaging Diagnostic Systems, Inc.]] (IDSI, [[USA]]) for its [[Optical tomography|optical tomographic]] technique for female breast imaging. |
'''Computed Tomography Laser [[Mammography]]''' ('''CTLM''') is the [[trademark]] of [[Imaging Diagnostic Systems, Inc.]] (IDSI, [[USA]]) for its [[Optical tomography|optical tomographic]] technique for female breast imaging. |
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This [[medical imaging]] technique uses [[laser]] energy in the near infrared region of the |
This [[medical imaging]] technique uses [[laser]] energy in the near infrared region of the spectrum, to detect [[angiogenesis]] in the breast tissue. It is optical molecular imaging for [[hemoglobin]] both oxygenated and deoxygenated. The technology uses laser in the same way [[computed tomography]] uses X-Rays, these beams travel through tissue and suffer attenuation. |
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A laser detector measures the intensity drop and the data is collected as the laser detector moves across the breast creating a tomography image. |
A laser detector measures the intensity drop and the data is collected as the laser detector moves across the breast creating a tomography image. |
Revision as of 09:50, 23 June 2012
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Computed Tomography Laser Mammography (CTLM) is the trademark of Imaging Diagnostic Systems, Inc. (IDSI, USA) for its optical tomographic technique for female breast imaging.
This medical imaging technique uses laser energy in the near infrared region of the spectrum, to detect angiogenesis in the breast tissue. It is optical molecular imaging for hemoglobin both oxygenated and deoxygenated. The technology uses laser in the same way computed tomography uses X-Rays, these beams travel through tissue and suffer attenuation.
A laser detector measures the intensity drop and the data is collected as the laser detector moves across the breast creating a tomography image. CTLM images show hemoglobin distribution in a tissue and can detect areas of Angiogenesis surrounding malignant tumors, that stimulate this angiogenesis to obtain nutrients for growth.