Increase of extracorporeal lithotripsy efficiency when using laser-induced pressure pulses

被引:1
|
作者
Sudenkov, YV
机构
来源
BIOMEDICAL SYSTEMS AND TECHNOLOGIES, PROCEEDINGS OF | 1996年 / 2928卷
关键词
D O I
10.1117/12.259977
中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
The results of experimental study on a focusing of laser-induced submicrosecond pressure pulses and destruction of solids subjected to them are presented. It was studied how the source distribution of pressure pulse amplitude influences upon the focusing in water. The means for the focusing improvement have been developed. The high focal pressure (similar to 40 MPa) localized in a small spatial region (similar to 10 x 1 mm) was achieved. The destruction of solids loaded by the trains of shock pulses was studied also. It has been found that much more effective disintegration takes place under a quasi-resonance loading. The results show that efficiency of extracorporeal lithotripsy may be significantly increased when using laser-induced submicrosecond pressure pulses.
引用
收藏
页码:262 / 270
页数:9
相关论文
共 50 条
  • [1] Laser-induced lithotripsy
    Ell, C
    ADVANCES AND CONTINUING EDUCATION IN MEDICINE, VOL 20, (1996/97), 1996, 20 : 123 - 124
  • [2] A SPECIAL IRRIGATION LIQUID TO INCREASE THE RELIABILITY OF LASER-INDUCED SHOCKWAVE LITHOTRIPSY
    REICHEL, E
    PALTAUF, G
    SCHMIDTKLOIBER, H
    GROKE, K
    LASERS IN SURGERY AND MEDICINE, 1992, 12 (02) : 204 - 209
  • [3] Droplet deformation by short laser-induced pressure pulses
    Reijers, Sten A.
    Snoeijer, Jacco H.
    Gelderblom, Hanneke
    JOURNAL OF FLUID MECHANICS, 2017, 828 : 374 - 394
  • [4] LASER-INDUCED SHOCK-WAVE LITHOTRIPSY - BIOLOGIC EFFECTS OF NANOSECOND PULSES
    HOFMANN, R
    HARTUNG, R
    GEISSDORFER, K
    ASCHERL, R
    ERHARDT, W
    SCHMIDTKLOIBER, H
    REICHEL, E
    JOURNAL OF UROLOGY, 1988, 139 (05): : 1077 - 1079
  • [5] LASER-INDUCED LITHOTRIPSY WITH AUTOMATIC SHUT-OFF WHEN NOT IN CONTACT WITH THE STONE
    SCHMELLER, N
    KRIEGMAIR, M
    LIEDL, B
    HOFSTETTER, A
    MUSCHTER, R
    THOMAS, S
    KNIPPER, A
    UROLOGE-AUSGABE A, 1990, 29 (06): : 309 - 312
  • [6] LASER-INDUCED SHOCKWAVE LITHOTRIPSY OF GALLSTONES
    ELL, C
    WONDRAZEK, F
    FRANK, F
    HOCHBERGER, J
    LUX, G
    DEMLING, L
    ENDOSCOPY, 1986, 18 (03) : 95 - 96
  • [7] LASER-INDUCED LITHOTRIPSY OF URETERAL CALCULI
    SCHMELLER, N
    EHSAN, A
    KREIGMAIR, M
    MUSCHTER, R
    LIEDL, B
    HOFSTETTER, A
    UROLOGE-AUSGABE A, 1994, 33 (04): : 308 - 311
  • [8] LASER-INDUCED SHOCK-WAVE LITHOTRIPSY
    WENK, H
    BENECKE, W
    THOMAS, S
    BARRETON, G
    LANGE, V
    MOLLER, KO
    SCHILDBERG, FW
    LANGENBECKS ARCHIV FUR CHIRURGIE, 1988, 373 (02): : 104 - 108
  • [9] LASER-INDUCED SHOCK-WAVE LITHOTRIPSY
    THOMAS, S
    ENGELHARDT, R
    MEYER, W
    BRINKMANN, R
    HOFSTETTER, AG
    BERICHTE DER BUNSEN-GESELLSCHAFT-PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 1989, 93 (03): : 287 - 291
  • [10] Dynamics of laser-induced electroconvection pulses
    Giebink, N.C.
    Johnson, E.R.
    Saucedo, S.R.
    Miles, E.W.
    Vardanyan, K.K.
    Spiegel, D.R.
    Allen, C.C.
    Physical Review E - Statistical, Nonlinear, and Soft Matter Physics, 2004, 69 (6 2): : 066303 - 1
12345