1. Woo J. History of Ultrasound. 2002.

2. Whittingham T. New and future directions in ultrasonic imaging. Brit J Radiol 1997; 70:S119-S132.

3. Whittingham T. An overview of digital technology in ultrasonic imaging. Eur Rad 1999; 9(suppl 3):S307-S311.

4. Desser T, Jeffrey R. Tissue harmonic imaging techniques: physical principles and clinical applications. Semin US CT MRI 2001; 22(suppl 1):1-10.

5. Entrekin R, Porter B, Sillesen, Hea. Real-time spatial compound imaging: application to breast, vascular and musculoskeletal ultrasound. Semin US CT MRI 2001; 22:50-64.

6. Johnson DD, Pretorius DH, Budorick NE, Jones MC, Lou KV, James GM, Nelson TR. Fetal lip and primary palate: three-dimensional versus two-dimensional US. Radiology 2000; 217:236-239.

7. Weismann C, Forstner R, Prokop E, Rettenbacher T. Three-dimensional targeting: a new three-dimensional ultrasound technique to evaluate needle position during breast biopsy. Ultrasound Obstet Gynecol 2000; 16:359-364.

8. Goldberg B, Raichlen J, Forsberg F, Ultrasound Contrast Agents. 2nd ed. London: Martin Dunitz, 2001.

9. Cosgrove D. Ultrasound contrast agents. In: Dawson, P, Cosgrove D, Grainger R, eds. Textbook of Contrast Media. Oxford: ISIS Medical Media, 1999:451-587.

10. Blomley, M, Eckersley, R, Cosgrove, D. Potential for Quantitation. In: Thomsen, H, Muller, R, Mattrey, R, eds. Trends in Contrast Media, Springer: Berlin 1999:343-353.

11. Eckersley R, Cosgrove D, Blomley M, Hashimoto H. Functional imaging of tissue response to bolus injection of ultrasound contrast agent. Proc IEEE Ultrasonics Symp 1988; 2:1779-1782.

12. Leighton T. The Acoustic Bubble. London: Academic Press, 1994.

13. Forsberg F, Shi W. Physics of contrast microbubbles. In: Goldberg B, Raichen J, Forsberg F, eds. Ultrasound Contrast Agent. London: Martin Dunitz, 2001:15-24.

14. de Jong N. Physics of microbubble scattering. In: Nanda N, Schlief R, Goldberg B, eds. Advances in Echo Imaging Using Contrast Enhancement. Lancaster, England: Kluwer Academic, 1997:39-64.

15. Blomley MJ, Albrecht T, Cosgrove DO, et al. Improved imaging of liver metastases with stimulated acoustic emission in the late phase of enhancement with the US contrast agent SH U 508A: early experience. Radiology 1999; 210:409-416.

16. Hope-Simpson D, Chin C, Burns P. Pulse inversion doppler: a new method for detecting non-linear echoes from microbubble contrast agent. IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control, 1999.

17. Kedar RP, Cosgrove D, McCready VR, Bamber JC, Carter ER. Microbubble contrast agent for color Doppler US: effect on breast masses. Work in progress. Radiology 1996; 198:679-686.

18. Solbiati L, Goldberg S, Ierace T, Dellanoce M, Livraghi T, Gazelle G. Radio-frequency ablation of hepatic metastases: postprocedural assessment with a US microbubble contrast agent—early experience. Radiology 1999; 211:643-649.

19. Blomley M, Albrecht T, Wilson S. Improved detection of metastatic liver lesions using pulse inversion harmonic imaging with Levovist: a multicentre study. Radiology 1999; 213(P):1685.

20. Bryant T, Blomley M, Albrecht T, et al. Liver phase uptake of a liver specific microbubble improves characterization of liver lesions: a prospective multi-center study. Radiology 2003. Submitted.

21. Harvey CJ, Blomley MJ, Eckersley RJ, Heckemann RA, Butler-Barnes J, Cosgrove DO. Pulse-inversion mode imaging of liver specific microbubbles: improved detection of sub-centimetre metastases [letter]. Lancet 2000; 355:807-808.

22. Quaia E, Bertolotto M, Forgacs B, Rimondini A, Locatelli M, Pozzi Mucelli R. Detection of liver metastases by pulse inversion imaging during Levovist late phase. Eur Radiol 2002; 13:475-483.

23. Wilson SR, Burns PN, Muradali D, Wilson JA, Lai X. Harmonic hepatic US with micro-bubble contrast agent: initial experience showing improved characterization of heman-gioma, hepatocellular carcinoma and metastasis. Radiology 2000; 215:153-161.

24. Kim T, Choi B, Han J, et al. Hepatic tumors: contrast agent-enhancement patterns with pulse inversion harmonic US. Radiology 2000; 216:411-417.

25. Halpern EJ, Verkh L, Forsberg F, Gomella LG, Mattrey RF, Goldberg BB. Initial experience with contrast-enhanced sonography of the prostate. Am J Roentgenol 2000; 174:1575-1580.

26. Blomley MJ, Albrecht T, Cosgrove DO, et al. Liver vascular transit time analyzed with dynamic hepatic venography with bolus injections of an US contrast agent: early experience in seven patients with metastases [published erratum appears in Radiology 1999; 210(3):882]. Radiology 1998; 209:862-866.

27. Wei K, Jayaweera A, Firoozan S. Quantification of myocardial blood flow with ultrasound induced destruction of microbubbles administered as a constant venous infusion. Circulation 1998; 97:473-483.

28. Bamber J. Ultrasound elasticity imaging: definition and technology. Eur Radiol 1999; 9(suppl 3):S327-S330.

29. Fatemi M, Greenleaf J. Vibro-acoustography: an imaging modality based on ultrasound-stimulated emission. Proc Natl Acad Sci, 1999; 96:6603-6608.

30. Foster F, Pavlin C, Harasiewicz K. Advances in Ultrasound biomicroscopy. Ultrasound Med Biol 2000; 26:1-27.

31. Saijo Y, Tanaka M, Okawai H, Dunn F. The ultrasonic properties of gastric cancer tissues obtained with a scanning acoustic microscope system. Ultrasound Med Biol 1991; 17:709-714.

32. Liu J, Goldberg B. 2-D and 3-D endoluminal ultrasound. Ultrasound Med Biol 2000; 137-139.

33. ter Haar G. Intervention and therapy. Ultrasound Med Biol, 2000; 26(suppl 1):51-54.

34. Visioli AG, Rivens IH, ter Haar GR, Horwich A, Huddart RA, Moskovic E, Padhani A, Glees J. Preliminary results of a phase I dose escalation clinical trial using focused ultrasound in the treatment of localised tumours. Eur J Ultrasound 1999; 9:11-18.

35. Miller M. Gene transfection and drug delivery. Ultrasound Med Biol 2000; 26(suppl 1): 59-62.

36. Unger E. Targeting and delivery of drugs with contrast agents. In: Thomsen H, Muller R, Mattrey R, eds. Trends in Contrast Media. Medical Radiology. Berlin: Springer, 1999:405-412.

37. Brayman A, Coppage M, Vaidya S, Miller M. Transient poration and cell surface receptor removal from human lymphocytes in vitro by 1 MHz ultrasound. Ultrasound Med Biol 1999; 25:999-1008.

0 0

Post a comment