Radiological Physics - Selected Publications

1.

Karathanasis E, Suryanarayanan S, Balusu SR, McNeeley K, Sechopoulos I, Karellas A, Annapragada AV, and Bellamkonda RV. Imaging nanoprobe for prediction of outcome of nanoparticle chemotherapy by using mammography. (2009). Radiology vol. 250-2, 398-406.

2.

Karellas A and Vedantham S. Breast cancer imaging: A perspective for the next decade. (2008). Medical Physics vol. 35-11, 4878-4897.

3.

Karellas A, Lo JY, and Orton CG. Point/Counterpoint. Cone beam x-ray CT will be superior to digital x-ray tomosynthesis in imaging the breast and delineating cancer. (2008). Medical Physics vol. 35-2, 409-411.

4.

Sechopoulos I, Vedantham S, Suryanarayanan S, D'Orsi CJ, and Karellas A. Monte Carlo and Phantom Study of the Radiation Dose to the Body from Dedicated CT of the Breast. (2008). Radiology vol. 247-1, 98-105.

5.

Sechopoulos I, Suryanarayanan S, Vedantham S, D'Orsi CJ, and Karellas A. Radiation Dose to Organs and Tissues from Mammography: Monte Carlo and Phantom Study. (2008). Radiology vol. 246-2, 434-443.

6.

Suryanarayanan S, Karellas A, Vedantham S, Sechopoulos I, and D'Orsi CJ. Detection of Simulated Microcalcifications in a Phantom with Digital Mammography: Effect of Pixel Size. (2007). Radiology vol. 244, 130-137.

7.

Karellas A. Mammographic pattern analysis: an emerging risk assessment tool. (2007). Academic Radiology vol. 14-5, 511-512.

8.

Sechopoulos I, Suryanarayanan S, Vedantham S, D'Orsi CJ, and Karellas A. Scatter radiation in digital tomosynthesis of the breast. (2007). Medical Physics vol. 34-2, 564-576.

9.

Sechopoulos I, Suryanarayanan S, Vedantham S, D'Orsi CJ, and Karellas A. Computation of the glandular radiation dose in digital tomosynthesis of the breast. (2007). Medical Physics vol. 34-1, 221-232.

10.

Suryanarayanan S, Karellas A, Vedantham S, and Sechopoulos I. Theoretical analysis of high-resolution digital mammography. (2006). Physics in Medicine & Biology vol. 51, 3041-3055.

11.

Suryanarayanan S, Karellas A, Vedantham S, and Onishi SK. High-resolution imager for digital mammography: physical characterization of a prototype sensor. (2005). Physics in Medicine & Biology vol. 50, 3957-3969.

12.

Suryanarayanan S, Karellas A, Vedantham S, Waldrop SM, and D'Orsi CJ. Detection of Simluated Lesions on Data-compressed Digital Mammograms. (2005). Radiology vol. 236, 31-36.

13.

Suryanarayanan S, Karellas A, and Vedantham S. Physical Characteristics of a Full-field Digital Mammography System. (2004). Nuclear Instruments and Methods in Physics Research Section A vol. 533, 560-570.

14.

Vedantham S, Karellas A, Suryanarayanan S, and Onishi SK. Solid-state fluoroscopic imager for high-resolution angiography: Physical characteristics of an 8 cm x 8 cm experimental prototype. (2004). Medical Physics vol. 31-6, 1462-1472.

15.

Vedantham S, Karellas A, and Suryanarayanan S. Solid-state fluoroscopic imager for high-resolution angiography: Parallel-cascaded linear systems analysis. (2004). Medical Physics vol. 31-5, 1258-1268.

16.

Suryanarayanan S, Karellas A, Vedantham S, Waldrop SM, and D'Orsi CJ. A Perceptual Evaluation of JPEG 2000 Image Compression for Digital Mammography: Contrast-Detail Characteristics. (2004). Journal of Digital Imaging vol. 17-1, 64-70.

17.

Vedantham S, Karellas A, and Suryanarayanan S. Attenuation characteristics of fiberoptic plates for digital mammography and other x-ray imaging applications. (2003). Journal of X-ray Science and Technology vol. 11, 219-230.

18.

Suryanarayanan S, Karellas A, Vedantham S, Ved H, Baker SP, and D'Orsi CJ. Flat-panel Digital Mammography System: Contrast-Detail Comparison between Screen-Film Radiographs and Hard-Copy Images. (2002). Radiology vol. 225, 801-807.

19.

Kleinman PK, O'Connor B, Nimkin K, Rayder SM, Spevak MR, Belanger PL, Getty DJ, and Karellas A. Detection of rib fractures in an abused infant using digital radiography: a laboratory study. (2002). Pediatric Radiology vol. 32-12, 896-901.

20.

Lewin JM, D'Orsi CJ, Hendrick RE, Moss LJ, Isaacs PK, Karellas A, and Cutter GR. Clinical comparison of full-field digital mammography and screen-film mammography for detection of breast cancer. (2002). American Journal of Roentgenology vol. 179-3, 671-677.

21.

Suryanarayanan S, Karellas A, and Vedantham S. Theoretical Analysis of Hybrid Flat-panel Detector Arrays for Digital Fluoroscopy: General System Architecture, Signal, and Noise Processes. (2001). IEEE Sensors Journal vol. 1-2, 168-174.

22.

Suryanarayanan S, Karellas A, Vedantham S, Glick SJ, D'Orsi CJ, and Webber RL. An Evaluation of Linear and Nonlinear Reconstruction Techniques for Digital Mammography. (2001). Academic Radiology vol. 8-3, 219-224.

23.

Lewin JM, Hendrick RE, D'Orsi CJ, Isaacs PK, Moss LJ, Karellas A, Sisney GA, Kuni CC, and Cutter GR. Comparison of full-field digital mammography with screen-film mammography for cancer detection: results of 4,945 paired examinations. (2001). Radiology vol. 218-3, 873-880.

24.

Suryanarayanan S, Karellas A, Vedantham S, Glick SJ, D'Orsi CJ, Baker SP, and Webber RL. Comparison of Tomosynthesis Methods Used with Digital Mammography. (2000). Academic Radiology vol. 7-12, 1085-1097.

25.

Vedantham S, Karellas A, Suryanarayanan S, D'Orsi CJ, and Hendrick RE. Breast Imaging using an Amorphous Silicon based Full-Field Digital Mammographic System: Stability of a clinical prototype. (2000). Journal of Digital Imaging vol. 13-4, 1191-1199.

26.

Liu H, Jiang H, Fajardo LL, Karellas A, and Chen WR. Lens distortion in optically coupled digital x-ray imaging. (2000). Medical Physics vol. 27-5, 906-912.

27.

Vedantham S, Karellas A, Suryanarayanan S, Levis I, Sayag M, Kleehammer R, Hiedsieck R, and D'Orsi CJ. Mammographic Imaging with a small-format CCD-based digital cassette: Physical Characteristics of a Clinical System. (2000). Medical Physics vol. 27-8, 1832-1840.

28.

Vedantham S, Karellas A, Suryanarayanan S, Albagli D, Han S, Tkaczyk EJ, Landberg CE, Opsahl-Ong B, Granfors PR, Levis I, D'Orsi CJ, and Hendrick RE. Full Breast Digital Mammography with an Amorphous Silicon-based Flat Panel Detector: Physical Characteristics of a Clinical Prototype. (2000). Medical Physics vol. 27-3, 558-567.

29.

Raptopoulos V, Baum JK, Hochman M, Karellas A, Houlihan MJ, and D'Orsi CJ. High resolution CT mammography of surgical biopsy specimens. (2006). Journal of Computer Assisted Tomography vol. 20-2, 179-184.

30.

Diamond DA, Kleinman PK, Spevak M, Nimkin K, Belanger P, and Karellas A. The tailored low dose fluoroscopic voiding cystogram for familial reflux screening. (1996). Journal of Urology vol. 155-2, 681-682.

31.

D'Orsi CJ, and Karellas A. On line for digital mammography. (1995). Lancet vol. 346-8970, 263-264

32.

Dwyer SJ 3rd, Boehme JM, Cox GG, Huynh PT, Karellas A, Stewart BK, Vannier MW, and Williams MB. Computer applications and digital imaging. (1995). Radiology vol. 194-2, 616-618.

33.

Liu H, Karellas A, Harris LJ, and D'Orsi CJ. Methods to calculate the lens efficiency in optically coupled CCD x-ray imaging systems. (1994). Medical Physics vol. 21-7, 1193-1195.

34.

Kleinman PK, Diamond DA, Karellas A, Spevak MR, Nimkin K, and Belanger P. Tailored low-dose fluoroscopic voiding cystourethrography for the reevaluation of vesicoureteral reflux in girls. (1994). American Journal of Roentgenology vol. 162-5, 1151-1154; discussion 1155-1156.

35.

Davidoff A, Reuter K, Karellas A, Baker SP, and Raptopoulos V. Maternal umbilicus: ultrasound window to the gravid uterus. (1994). Journal of Clinical Ultrasound vol. 22-4, 263-267

36.

Karellas A, Harris LJ, Liu H, Davis MA, and D'Orsi CJ. Charge-coupled device detector: performance considerations and potential for small-field mammographic imaging applications. (1992). Medical Physics vol. 19-4, 1015-1023.