“Works-in-Progress”, Medical Physics, vol. 16:681 (1989). |
Herron, et al., “X-Ray imaging with two-dimensional charge-coupled device (CCD) arrays”, Medical Imaging and Instrumentation, vol. 486:141-145 (1984). |
“Single Exposure Large Area Array Technology”, Bennett X-Ray Technologies, (No date given). |
“Digital Spot Imager”, Bennett X-Ray Technologies, (No date given). |
“Filmless Electronic X-Ray Cassette In Development for Health Care Industry”, Technology News, Loral Fairchild Imaging Sensors, (No date given). |
Cheung, et al., “A Full-field, Single-exposure Digital Mammography System”, Bennet X-Ray Technologies, (No date given). |
Karellas, et al., “Near Real-time mammographic imaging with a CCD”, SPIE/IS&T's International Technical Working Group Newsletter, Electronic Imaging, 2 (3) (Aug. 1992). |
Karellas, et al., “Small-field digital mammography: A window to the digital mammography of the future”, Med. Phys. 20(3) (May-Jun. 1993). |
Shaw de Paredes, MD, “Radiographic Breast Anatomy: Radiologic Signs of Breast Cancer”, Presented at 79th Scientific Assembly and Annual Meeting of RSNA (Nov. 28-Dec. 3, 1993) : 35-46. |
“Mammotest and MammoVision: Because She Comes To You For Answers”, Fischerimaging Brochure (No date given). |
Antonuk, et al., “A High Resolution, High Frame Rate, Flat-Panel TFT Array For Digital X-ray Imaging”, Phys. Of Med. Imaging vol. 2163 (1994) pp. 118-128. |
Antonuk, et al., “Demonstration of Megavoltage and Diagnostic x-ray imaging with Hydrogenated Amorphous Silicon Arrays”, Med. Phys. 19 (6) :1455-1466 (Nov./Dec. 1992). |
“Breast Imaging Reporting And Data System”, American College Of Radiology Report, BI-RADS, pp. 1-22 (May 19, 1993). |
Karellas et al., “Digital mammo delivers quick, reliable images”, Breast Imaging (Feb. 1994). |
Epperson, et al., “Binning Spectral Images in a Charge-Coupled Device”, Anal. Chem. 61:1513-1519 (1989). |
Strauss, et al., “CCD-Based Synchrontron X-Ray Detector For Protein Crystallography—Performance Projected From An Expirement”, Trans. Nuclear Sci. NS-34 (1) :389-395 (Feb. 1987). |
Epperson, et al., “Molecular Fluorescene Measurements with a Charge-Coupled Device Detector”, Anal. Chem., 61:282-285 (1989). |
Hasegawa, “Imaging System with an Amorphous Silicon Linear Sensor”, Rev. Sci. Instrum., 60 (7) : 2284-2286 (1989). |
Kinney et al., “Energy-Modulated X-Ray Microtomography”, Rev. Sci. Instrum. 59 (1) :196-197 (Jan. 1988). |
Nelson, et al., “Digital Slot Scan Mammography Using CCDs”, 767 14 pp. 1-7 (No date given). |
Roehrig et al., “Prototype Performance of a High Resolution X-Ray Imaging Systems for Use In Coronary Angiography”, pp. 1-9. |
Roehrig et al., Development of a High Resolution X-ray Imaging Device For Use In Coronary Angiography, SPIE Medical Imaging vol. 767 pp. 144-153 (1987). |
Karellas et al., “Imaging of Radionuclide Emissions with a Low-Noise Charge-Coupled Device”, IEEE Transactions on Nuclear Science, (Dec. 1992). |
Kennedy, et al., “X-Ray Imaging With Two-Dimensional CCD Arrays”, Med. Phys., 12 (4) : 504 (Jul./Aug. 1985). |
Ramsden, “Whole-Body Monitoring the direct determination of radioisotopes within the human body”, Electronics and Power, 25(1) (Jan. 1979). |
Karellas et al., “Charge-coupled device detector: Performance considerations and potential for small-field mammographic imaging applications”, Med. Phys. 19 (4) :1015-1023 (Jul./Aug. 1992). |
Hunter, et al., “CCD Mammography”, SCAR 90, Computer Applications To Assist Radiology, Presented at The Conference on Computer Applications In Radiology, pp. 285-291 (Jun. 13-16, 1990). |
“Quality Determinants of Mammography”, Clinical Practice Guideline No. 13, U.S. Dept. of Health and Human Services, pp. 54-57 (1994). |
Karellas, et al., “Small-Field Digital Mammography with a 2,048 ×2,048 Pixel Charge-Coupled Device”, Presented at RSNA, (Nov. 1990). |
Liu, et al., “Direct Electronic Capture of X-ray Images with an Intensifying Screen Optically Coupled to an Ultrasensitive Chare-coupled Device” Presented at RSNA, (Nov. 1991). |
Morgan, et al., “Performance characteristics of a dual-energy detector for digital scan projection radiography”, Med. Phys. 14 (5) :728-735 (Sep./Oct. 1987). |
Rudin et al., “Conical rotating aperture geometries in digital radiography”, Digital Radiography vol. 314 :77-80 (1981). |
Dyck, et al., “Some early imaging results with a 4096 x 4096-element x-ray image sensor”, Loral Fairchild Imaging Sensors, Presented Apr. 20-22, 1995. |
Karellas et al., “Digital Mammography: A powerful tool in stereotactic localization and core needle biopsy”, Mammography Today, pp. 26-28 7/94. |
McAdoo, J., et al., “Moving CCDs create image with large field of view”, Laser Focus World, pp. 233-235 (May, 1994). |
Gallagher, P., “Amorphous silicon arrays promise large-area imagers”, Laser Focus World, pp. 171-173, 175-176, 178 (May, 1995). |
Yester, et al., “Experimental measurements of the scatter reduction obtained in mammography with a scanning multiple slit assembly”, Med. Phys. 8 (2) :158-162 (Mar./Apr. 1981). |