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脉能、频率和长度对非漂浮人工尿结石钬:钇-铝-石榴石激光破碎效率的影响。

Effect of pulse energy, frequency and length on holmium:yttrium-aluminum-garnet laser fragmentation efficiency in non-floating artificial urinary calculi.

机构信息

Department of Urology, University Medical Center Mannheim, Mannheim, Germany.

出版信息

J Endourol. 2010 Jul;24(7):1135-40. doi: 10.1089/end.2010.0115.

DOI:10.1089/end.2010.0115
PMID:20575700
Abstract

BACKGROUND AND PURPOSE

Holmium:yttrium-aluminum-garnet (Ho:YAG) laser lithotripsy is the standard lithotrite in ureteroscopy. We investigated the influence of pulse frequency, energy and length on the fragmentation efficiency of Ho:YAG laser lithotripsy in non-floating artificial stones in vitro.

MATERIALS AND METHODS

Stone fragmentation efficiency of three different Ho:YAG laser devices were evaluated in vitro at different pulse energy (1.0 and 2.0 J) and frequency settings (5 and 10 Hz), resulting in a standardized output power of 10W, respectively. Where possible, pulse length was modified (350 vs 700 microsec). Each setting was performed with a 273 microm and a 365 microm fiber. Lithotripsy was conducted using non-repulsive stones consisting of soft stone (plaster of Paris) and hard stone composition (Fujirock type 4).

RESULTS

Our results showed an increased stone disintegration efficiency at higher pulse energy (2.0 J/5 Hz vs 1.0 J/10 Hz) independently of two fiber diameters and stone types applied in this study (P < 0.05 in 18 of 20 groups). Similarly, reduction of the pulse length from 700 to 350 microsec resulted in a higher stone disintegration (P < 0.05 in 13 of 16 groups). This effect was most prominent when applied to soft stones. Higher fiber diameter was not constantly associated with an increase in stone disintegration.

CONCLUSION

We demonstrate that an increase of pulse energy and a reduction of pulse length at a standardized output power of 10W can improve Ho:YAG laser fragmentation efficiency in vitro in nonfloating stones. These results may potentially affect clinical practice of Ho:YAG laser lithotripsy in impacted or large stones, when retropulsion is excluded.

摘要

背景与目的

钬激光碎石术是输尿管镜检查的标准碎石方法。我们研究了不同脉冲频率、能量和长度对非漂浮人工结石体外碎石效率的影响。

材料与方法

在不同脉冲能量(1.0 和 2.0 J)和频率设置(5 和 10 Hz)下,分别对三种不同的钬激光设备的结石粉碎效率进行了体外评估,从而分别产生标准化输出功率为 10 W。在可能的情况下,还对脉冲长度(350 微秒与 700 微秒)进行了调整。每种设置都使用 273 微米和 365 微米光纤进行。碎石术采用由软石(石膏)和硬石组成(富士摇滚 4 型)的非反弹结石进行。

结果

我们的结果表明,在更高的脉冲能量(2.0 J/5 Hz 比 1.0 J/10 Hz)下,结石分解效率更高,与本研究中应用的两种光纤直径和结石类型无关(20 组中的 18 组 P <0.05)。同样,将脉冲长度从 700 微秒缩短至 350 微秒,也会导致结石分解效率更高(16 组中的 13 组 P <0.05)。这种效果在软石中最为明显。较高的光纤直径并不总是与结石分解效率的提高相关。

结论

我们证明,在标准化输出功率为 10 W 的情况下,增加脉冲能量和缩短脉冲长度可以提高非漂浮结石中钬激光碎石的体外碎石效率。这些结果可能会影响到当排除后向推力时,在有影响或大结石时使用钬激光碎石术的临床实践。

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