Pei Zhong

Publications

Papers Published

  1. E. Klaseboer and S. W. Fong and C. K. Turangan and B. C. Khoo and A. J. Szeri and M. L. Calvisi and G. N. Sankin and P. Zhong, Interaction of lithotripter shockwaves with single inertial cavitation bubbles, Journal Of Fluid Mechanics, vol 593 (2007), pp. 33 -- 56.
  2. V. A. Leitao and W. N. Simmons and A. Chandrashekar and J. Leonardy and S. A. Pierre and G. E. Haleblian and M. Ferradino and M. R. Robinson and P. Zhong and G. M. Preminger, Comparison of comminution and stone clearance between intracorporeal lithotripters, Journal Of Endourology, vol 21 (2007), pp. A237 -- A238.
  3. J. I. Iloreta and Y. F. Zhou and G. N. Sankin and P. Zhong and A. J. Szeri, Assessment of shock wave lithotripters via cavitation potential, Physics Of Fluids, vol 19 no. 8 (2007).
  4. A. Z. Weizer and P. Zhong and G. M. Preminger, New concepts in shock wave lithotripsy, Urologic Clinics Of North America, vol 34 no. 3 (2007), pp. 375 -- +.
  5. Z. Hu and X. Y. Yang and Y. Liu and G. N. Sankin and E. C. Pua and M. A. Morse and H. K. Lyerly and T. M. Clay and P. Zhong, Investigation of HIFU-induced anti-tumor immunity in a murine tumor model, Journal Of Translational Medicine, vol 5 (2007).
  6. E. Fuh and G. E. Haleblian and R. D. Norris and D. M. Albala and N. Simmons and P. Zhong and G. M. Preminger, The effect of frequency doubled double pulse Nd : YAG laser fiber proximity to the target stone on transient cavitation and acoustic emission, Journal Of Urology, vol 177 no. 4 (2007), pp. 1542 -- 1545.
  7. G. N. Sankin and P. Zhong, Interaction between shock wave and single inertial bubbles near an elastic boundary, Physical Review E, vol 74 no. 4 (2006).
  8. M. E. Maloney and C. G. Marguet and Y. F. Zhou and D. E. Kang and J. C. Sung and W. P. Springhart and J. Madden and P. Zhong and G. M. Preminger, Progressive increase of lithotripter output produces better in-vivo stone comminution, Journal Of Endourology, vol 20 no. 9 (2006), pp. 603 -- 606.
  9. Y. F. Zhou and L. Zhai and R. Simmons and P. Zhong, Measurement of high intensity focused ultrasound fields by a fiber optic probe hydrophone, Journal Of The Acoustical Society Of America, vol 120 no. 2 (2006), pp. 676 -- 685.
  10. Y. B. Liu and T. Kon and C. Y. Li and P. Zhong, High intensity focused ultrasound-induced gene activation in solid tumors, Journal Of The Acoustical Society Of America, vol 120 no. 1 (2006), pp. 492 -- 501.
  11. Y. F. Zhou and P. Zhong, The effect of reflector geometry on the acoustic field and bubble dynamics produced by an electrohydraulic shock wave lithotripter, Journal Of The Acoustical Society Of America, vol 119 no. 6 (2006), pp. 3625 -- 3636.
  12. F. C. Delvecchio and R. M. Brizuela and S. R. Khan and K. Byer and Z. Q. Li and P. Zhong and G. M. Preminger, Citrate and vitamin E blunt the shock wave-induced free radical surge in an in vitro cell culture model, Urological Research, vol 33 no. 6 (2005), pp. 448 -- 452.
  13. Y. B. Liu and T. Kon and C. Y. Li and P. Zhong, High intensity focused ultrasound-induced gene activation in sublethally injured tumor cells in vitro, Journal Of The Acoustical Society Of America, vol 118 no. 5 (2005), pp. 3328 -- 3336.
  14. Z. L. Hu and X. Y. Yang and Y. B. Liu and M. A. Morse and H. K. Lyerly and T. M. Clay and P. Zhong, Release of endogenous danger signals from HIFU-treated tumor cells and their stimulatory effects on APCs, Biochemical And Biophysical Research Communications, vol 335 no. 1 (2005), pp. 124 -- 131.
  15. X. C. Lu and P. Zhong, Ultrasound-induced cell detachment and gene transfection in adherent cells, Acoustics Research Letters Online-arlo, vol 6 no. 3 (2005), pp. 195 -- 200.
  16. G. N. Sankin and W. N. Simmons and S. L. Zhu and P. Zhong, Shock wave interaction with laser-generated single bubbles, Physical Review Letters, vol 95 no. 3 (2005).
  17. C. G. Marguet and J. C. Sung and W. P. Springhart and J. O. L'esperance and S. L. Zhou and P. Zhong and D. M. Albala and G. M. Preminger, In vitro comparison of stone retropulsion and fragmentation of the frequency doubled, double pulse Nd : Yag laser and the holmium : Yag laser, Journal Of Urology, vol 173 no. 5 (2005), pp. 1797 -- 1800.
  18. Y. F. Zhou and F. H. Cocks and G. M. Preminger and P. Zhong, Innovations in shock wave lithotripsy technology: Updates in experimental studies, Journal Of Urology, vol 172 no. 5 (2004), pp. 1892 -- 1898.
  19. W. S. Chen and X. C. Lu and Y. B. Liu and P. Zhong, The effect of surface agitation on ultrasound-mediated gene transfer in vitro, Journal Of The Acoustical Society Of America, vol 116 no. 4 (2004), pp. 2440 -- 2450.
  20. B. K. Auge and J. J. Sekula and W. P. Springhart and S. L. Zhu and P. Zhong and G. M. Preminger, In vitro comparison of fragmentation efficiency of flexible pneumatic lithotripsy using 2 flexible ureteroscopes, Journal Of Urology, vol 172 no. 3 (2004), pp. 967 -- 970.
  21. Y. F. Zhou and F. H. Cocks and G. M. Preminger and P. Zhong, The effect of treatment strategy on stone comminution efficiency in shock wave lithotripsy, Journal Of Urology, vol 172 no. 1 (2004), pp. 349 -- 354.
  22. S. L. Zhu and T. Dreyer and M. Liebler and R. Riedlinger and G. M. Preminger and P. Zhong, Reduction of tissue injury in shock-wave lithotripsy by using an acoustic diode, Ultrasound In Medicine And Biology, vol 30 no. 5 (2004), pp. 675 -- 682.
  23. D. Heimbach and J. Kourambas and P. Zhong and J. Jacobs and A. Hesse and S. C. Mueller and F. C. Delvecchio and F. H. Cocks and G. M. Preminger, The use of chemical treatments for improved comminution of artificial stones, Journal Of Urology, vol 171 no. 5 (2004), pp. 1797 -- 1801.
  24. P. Zhong, Evaluation of a bifocal reflector on a clinical lithotripter - Editorial comment, Journal Of Endourology, vol 18 no. 1 (2004), pp. 15 -- 15.
  25. K. Z. Sheir and N. Zabihi and D. Lee and J. M. Teichman and J. Rehman and C. P. Sundaram and D. Heimbach and A. Hesse and F. Delvecchio and P. Zhong and G. M. Preminger and R. V. Clayman, Evaluation of synchronous twin pulse technique for shock wave lithotripsy: Determination of optimal parameters for in vitro stone fragmentation, Journal Of Urology, vol 170 no. 6 (2003), pp. 2190 -- 2194.
  26. F. C. Delvecchio and B. K. Auge and R. M. Brizuela and A. Z. Weizer and P. Zhong and G. M. Preminger, In vitro analysis of stone fragmentation ability of the FREDDY laser, Journal Of Endourology, vol 17 no. 3 (2003), pp. 177 -- 179.
  27. P. K. Pietrow and B. K. Auge and P. Zhong and G. M. Preminger, Clinical efficacy of a combination pneumatic and ultrasonic lithotrite, Journal Of Urology, vol 169 no. 4 (2003), pp. 1247 -- 1249.
  28. F. C. Delvecchio and B. K. Auge and R. Munver and S. A. Brown and R. M. Brizuela and P. Zhong and G. M. Preminger, Shock wave lithotripsy causes ipsilateral renal injury remote from the focal point: The role of regional vasoconstriction, Journal Of Urology, vol 169 no. 4 (2003), pp. 1526 -- 1529.
  29. Y. F. Zhou and P. Zhong, Suppression of large intraluminal bubble expansion in shock wave lithotripsy without compromising stone comminution: Refinement of reflector geometry, Journal Of The Acoustical Society Of America, vol 113 no. 1 (2003), pp. 586 -- 597.
  30. Y. B. Liu and P. Zhong, BegoStone - a new stone phantom for shock wave lithotripsy research (L), Journal Of The Acoustical Society Of America, vol 112 no. 4 (2002), pp. 1265 -- 1268.
  31. B. K. Auge and C. D. Lallas and P. K. Pietrow and P. Zhong and G. M. Preminger, In vitro comparison of standard ultrasound and pneumatic lithotrites with a new combination intracorporeal lithotripsy device, Urology, vol 60 no. 1 (2002), pp. 28 -- 32.
  32. S. L. Zhu and F. H. Cocks and G. M. Preminger and P. Zhong, The role of stress waves and cavitation in stone comminution in shock wave lithotripsy, Ultrasound In Medicine And Biology, vol 28 no. 5 (2002), pp. 661 -- 671.
  33. R. Munver and F. C. Delvecchio and R. L. Kuo and S. A. Brown and P. Zhong and G. M. Preminger, In vivo assessment of free radical activity during shock wave lithotripsy using a microdialysis system: The renoprotective action of allopurinol, Journal Of Urology, vol 167 no. 1 (2002), pp. 327 -- 334.
  34. P. Zhong and Y. F. Zhou, Suppression of large intraluminal bubble expansion in shock wave lithotripsy without compromising stone comminution: Methodology and in vitro experiments, Journal Of The Acoustical Society Of America, vol 110 no. 6 (2001), pp. 3283 -- 3291.
  35. P. Zhong, Measurement of sound emission by endoscopic lithotripters: An in vitro study and theoretical estimation of risk of hearing loss in a fetus - Editorial comment, Journal Of Endourology, vol 15 no. 8 (2001), pp. 826 -- 826.
  36. X. F. Xi and P. Zhong, Dynamic photoelastic study of the transient stress field in solids during shock wave lithotripsy, Journal Of The Acoustical Society Of America, vol 109 no. 3 (2001), pp. 1226 -- 1239.
  37. P. Zhong and Y. F. Zhou and S. L. Zhu, Dynamics of bubble oscillation in constrained media and mechanisms of vessel rupture in SWL, Ultrasound In Medicine And Biology, vol 27 no. 1 (2001), pp. 119 -- 134.
  38. S. L. Zhu and J. Kourambas and R. Munver and G. M. Preminger and P. Zhong, Quantification of the tip movement of lithotripsy flexible pneumatic probes, Journal Of Urology, vol 164 no. 5 (2000), pp. 1735 -- 1739.
  39. S. A. Brown and R. Munver and F. C. Delvecchio and R. L. Kuo and P. Zhong and G. M. Preminger, Microdialysis assessment of shock wave lithotripsy-induced renal injury, Urology, vol 56 no. 3 (2000), pp. 364 -- 368.
  40. D. Heimbach and R. Munver and P. Zhong and J. Jacobs and A. Hesse and S. C. Muller and G. M. Preminger, Acoustic and mechanical properties of artificial stones in comparison to natural kidney stones, Journal Of Urology, vol 164 no. 2 (2000), pp. 537 -- 544.
  41. X. F. Xi and P. Zhong, Improvement of stone fragmentation during shock-wave lithotripsy using a combined EH/PEAA shock-wave generator - In vitro experiments, Ultrasound In Medicine And Biology, vol 26 no. 3 (2000), pp. 457 -- 467.
  42. S. L. Zhu and P. Zhong, Shock wave-inertial microbubble interaction: A theoretical study based on the Gilmore formulation for bubble dynamics, Journal Of The Acoustical Society Of America, vol 106 no. 5 (1999), pp. 3024 -- 3033.
  43. P. Zhong and X. F. Xi and S. L. Zhu and F. H. Cocks and G. M. Preminger, Recent developments in SWL physics research, Journal Of Endourology, vol 13 no. 9 (1999), pp. 611 -- 617.
  44. D. Heimbach and D. Jacobs and A. Hesse and S. C. Muller and P. Zhong and G. M. Preminger, How to improve lithotripsy and chemolitholysis of brushite-stones: an in vitro study, Urological Research, vol 27 no. 4 (1999), pp. 266 -- 271.
  45. P. Zhong and H. F. Lin and X. F. Xi and S. L. Zhu and E. S. Bhogte, Shock wave-inertial microbubble interaction: Methodology, physical characterization, and bioeffect study, Journal Of The Acoustical Society Of America, vol 105 no. 3 (1999), pp. 1997 -- 2009.
  46. R. L. Kuo and P. Aslan and P. Zhong and G. M. Preminger, Impact of holmium laser settings and fiber diameter on stone fragmentation and endoscope deflection, Journal Of Endourology, vol 12 no. 6 (1998), pp. 523 -- 527.
  47. P. Zhong and I. Cioanta and S. L. Zhu and F. H. Cocks and G. M. Preminger, Effects of tissue constraint on shock wave-induced bubble expansion in vivo, Journal Of The Acoustical Society Of America, vol 104 no. 5 (1998), pp. 3126 -- 3129.
  48. P. Zhong and H. L. Tong and F. H. Cocks and M. S. Pearle and G. M. Preminger, Transient cavitation and acoustic emission produced by different laser lithotripters, Journal Of Endourology, vol 12 no. 4 (1998), pp. 371 -- 378.
  49. L. Howle and D. G. Schaeffer and M. Shearer and P. Zhong, Lithotripsy: The treatment of kidney stones with shock waves, Siam Review, vol 40 no. 2 (1998), pp. 356 -- 371.
  50. C. L. Teh and P. Zhong and G. M. Preminger, Laboratory and clinical assessment of pneumatically driven intracorporeal lithotripsy, Journal Of Endourology, vol 12 no. 2 (1998), pp. 163 -- 169.
  51. P. Zhong and F. H. Cocks and I. Cioanta and G. M. Preminger, Controlled, forced collapse of cavitation bubbles for improved stone fragmentation during shock wave lithotripsy, Journal Of Urology, vol 158 no. 6 (1997), pp. 2323 -- 2328.
  52. P. Zhong and I. Cioanta and F. H. Cocks and G. M. Preminger, Inertial cavitation and associated acoustic emission produced during electrohydraulic shock wave lithotripsy, Journal Of The Acoustical Society Of America, vol 101 no. 5 (1997), pp. 2940 -- 2950.
  53. P. Zhong and H. L. Tong and F. H. Cocks and G. M. Preminger, Transient oscillation of cavitation bubbles near stone surface during electrohydraulic lithotripsy, Journal Of Endourology, vol 11 no. 1 (1997), pp. 55 -- 61.