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Proceedings Paper

Optical detection of breast cancer: a pilot clinical trial at the Massachusetts General Hospital
Author(s): Xuefeng Cheng; Jian Min Mao; Wen Zhu; Robin Bush; Daniel B. Kopans; Richard H. Moore; Maryann Chorlton
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Paper Abstract

X-ray mammography has been the major imaging modality in breast cancer detection for years, despite its high false diagnosis rate for malignant tumors and harmful radiation. In the last decade, optical imaging has been emerging as a promising method for breast cancer detection. Using near infrared (NIR) light ranging from 690 nm to 900 nm, an optical device can measure functional properties of breast tissue, such as total hemoglobin concentration (HbT) and oxygen saturation (SO2). Cancers tend to have higher levels of HbT because of their greater vascularization, and lower SO2 because of greater oxygen consumption, than normal tissue. Thus the NIR technology could be useful in breast cancer detection. In addition, optical detection is totally noninvasive and safe, and can be low cost. Photonify Technologies Inc. has developed an optical device for real-time two-dimensional mapping of HbT and SO2 in breast tissue. The device has been tested in a pilot clinical study for a group of 50 patients at the Department of Radiology of the Masachusetts General Hospital at Harvard Medical School. Preliminary results suggest that contrast-normalized standard deviations in HbT and SO2 might be good indicators for breast cancer detection. A patient may have a higher risk to have cancer in a breast portion where the normalized standard deviation in either HbT or SO2 is greater than 0.3. We demonstrate 92% diagnostic sensitivity and 66% specificity in detecting ductal carcinoma, either invasive or in situ. The device may potentially be used as an adjunctive tool with mammography to reduce unnecessary biopsies.

Paper Details

Date Published: 12 September 2003
PDF: 5 pages
Proc. SPIE 4949, Lasers in Surgery: Advanced Characterization, Therapeutics, and Systems XIII, (12 September 2003); doi: 10.1117/12.476518
Show Author Affiliations
Xuefeng Cheng, Photonify Technologies, Inc. (United States)
Jian Min Mao, Photonify Technologies, Inc. (United States)
Wen Zhu, Photonify Technologies, Inc. (United States)
Robin Bush, Photonify Technologies, Inc. (United States)
Daniel B. Kopans, Massachusetts General Hospital (United States)
Richard H. Moore, Massachusetts General Hospital (United States)
Maryann Chorlton, Massachusetts General Hospital (United States)

Published in SPIE Proceedings Vol. 4949:
Lasers in Surgery: Advanced Characterization, Therapeutics, and Systems XIII
Eugene A. Trowers M.D.; Lawrence S. Bass M.D.; Udayan K. Shah M.D.; Reza S. Malek M.D.; David S. Robinson M.D.; Kenton W. Gregory M.D.; Lawrence S. Bass M.D.; Abraham Katzir; Nikiforos Kollias; Hans-Dieter Reidenbach; Brian Jet-Fei Wong M.D.; Timothy A. Woodward M.D.; Werner T.W. de Riese; Keith D. Paulsen, Editor(s)

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