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Aktuelle Urol 2003; 34(4): 276-278
DOI: 10.1055/s-2003-41617
Original Article
© Georg Thieme Verlag Stuttgart · New York

Experimental and Clinical Study of a Holmium: YAG Laser with Adjustable Pulse Duration

Experimentelle und klinische Studie eines Holmium:YAG-Lasers mit einstellbarer PulsationsdauerT.  Yoshida1 , K.  Fujimura1 , T.  Yamazaki1 , J.  Nogaki1 , K.  Okada1
  • 1Department of Urology, Nihon University School of Medicine, Tokyo, Japan
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Publication History

Publication Date:
25 August 2003 (online)

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Abstract

Background: The holmium:YAG laser is used for treatment of urolithiasis, transurethral laser ablation for benign prostate hypertrophy and bladder tumor. The pulse duration was fixed in the previous Ho:YAG laser systems. We have evaluated more practical pulse durations to disintegrate the stone. The SPHINX Ho40 (Heraeus Corporation) can change the pulse duration freely in the range from 150 µsec. to 800 µsec. Materials and Methods: 1) We measured the total energy to perforate through stone models at three different pulse durations (150, 300, 600 µsec.). 2) We experimented with the energy of each single pulse and the power of the shock wave. 3) We observed thermogenesis during the lithotripsy for each pulse duration. 4) Disintegration effects of Ho:YAG are compared with other lithotripsy systems in clinical cases. Results: 1) It was possible that the smallest amount of the total energy went through the fragment at the pulse duration 150 µsec. 2) The maximum amount of energy of the wave is higher when the pulse duration is short. Although the amount of energy was 12.6 V, the amounts of energy at 800 µsec decreased with a pulse duration 150 µsec. to 6.46 V which was about 40 % 3) The highest temperatures achieved when the irradiation of laser was started and finished were compared. The shorter the pulse duration was, the higher was the peak power. The shock wave was also more effective to disintegrate stones on using short pulse durations. 4) The individual clinical success rates are Ho:YAG (85.1 %), Alexandrite (80.6 %) and Lithoclast (74.5 %).

Key words

Ho:YAG laser system - laser lithotripsy - shock wave

References

  • 1 Mulvaney W P, Beck C W. The laser beam in urology.  J Urol. 1968;  99 122-127
    PubMedGoogle Scholar
  • 2 Tanahashi Y, Orikasa S, Chiba R. et al . Disintegration of urinary calculi by laser beam: Drilling experiment in extracted urinary stones.  Tohoku J Exp Med. 1979;  128 189-196
    PubMedGoogle Scholar
  • 3 Watson G, Murry S, Dretler S P. et al . The pulsed dye laser for fragmenting urinary calculi.  J Urol. 1987;  138 195-198
    PubMedGoogle Scholar
  • 4 Yoshida T, Morita H, Kumagai S. et al . Comparison of the safety and usefulness of two lithotripsy systems: pulse dye laser system versus Alexandrite laser system.  Jpn J Endouro. 1996;  9 67-70
    PubMedGoogle Scholar
  • 5 Sayer J, Johnson D E, Price R E. et al . Ureteral lithotripsy with the holmium:YAG laser.  Laser Surg Med. 1993;  11 61-65
    PubMedGoogle Scholar
  • 6 Gilling P J, Cass C B, Cresswell M D. et al . Holmium laser resection of the prostate: preliminary results of a new method for the treatment of benign prostatic hyperplasia.  Urology. 1996;  47 48-51
    PubMedGoogle Scholar
  • 7 Johnson D E. Use of holmium:YAG (Ho:YAG) laser for treatment of superficial bladder carcinoma.  Laser Surg Med. 1994;  14 213-218
    PubMedGoogle Scholar

T. Yoshida, M. D. 

Department of Urology · Nihon University School of Medicine

Tokyo

Japan

Phone: +81-33972-8111

Fax: +81-33972-5930

Email: wayne@med.nikon-u.ac.jp

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