使用 180W 绿激光 XPS 激光进行前列腺汽化时，激光光纤衰减导致的功率输出损失是否仍然是一个问题？

Is loss of power output due to laser fiber degradation still an issue during prostate vaporization using the 180 W GreenLight XPS laser?

机构信息

Department of Urology, University Hospital Zürich, University of Zürich, Frauenklinikstr. 10, 8091, Zurich, Switzerland.

Institute of Fluid Dynamics, ETH Zürich, Zurich, Switzerland.

出版信息

World J Urol. 2019 Jan;37(1):181-187. doi: 10.1007/s00345-018-2377-5. Epub 2018 Jun 19.

DOI:10.1007/s00345-018-2377-5

PMID:29923013

Abstract

PURPOSE

To investigate whether heat-induced fiber degradation and loss of power output, which occurred during GreenLight laser vaporization (LV) of the prostate using the first- and second-generation 80 and 120 W laser, are still an issue during LV using the upgraded third generation 180 W GreenLight XPS™ laser.

METHODS

Laser beam power output of 53 laser fibers was measured at baseline and after every 25 kJ of delivered energy during routine 180 W GreenLight XPS™ LV in 47 patients with prostatic bladder outflow obstruction. After the procedures, the fiber tips were microscopically examined.

RESULTS

The median applied energy per patient was 178 kJ [interquartile range (IQR): 106-247]. Loss of power output during the procedure was detectable in all fibers. After the application of 25, 150, and 250 kJ, the median power output decreased to 77% (IQR 59-87), 57% (IQR 32-71), and 51% (IQR 37-64) of the baseline value. Nine fibers (17%) remained on a relatively high power output level (> 80% of the initial output), while 13 fibers (25%) showed an end-of-procedure power output of less than 20%. Microscopy of the fiber tip revealed mild-to-moderate overall degradation and increasing degradation with higher energy delivered.

CONCLUSION

Despite changes in fiber design, heat-induced fiber damage and loss of power output remain an issue during 180 W GreenLight XPS™ LV. Whether modifications of the surgical technique can prevent impairment of fiber performance needs to be further evaluated.

摘要

目的

研究在使用第一代和第二代 80W 和 120W 激光进行 GreenLight 激光前列腺汽化术（LV）时，激光光纤会因热而发生降解并导致功率输出损失，这种情况在使用升级后的第三代 180W GreenLight XPS™激光进行 LV 时是否仍然存在。

方法

对 47 例前列腺膀胱流出道梗阻患者进行常规 180W GreenLight XPS™ LV 时，每 25kJ 传递能量后，测量 53 根激光光纤的激光束功率输出。手术结束后，用显微镜检查光纤尖端。

结果

每位患者的中位应用能量为 178kJ[四分位间距（IQR）：106-247]。所有光纤在手术过程中均可检测到功率输出损失。在应用 25、150 和 250kJ 后，功率输出中位数分别降至基线值的 77%（IQR 59-87）、57%（IQR 32-71）和 51%（IQR 37-64）。9 根光纤（17%）保持相对较高的功率输出水平（>初始输出的 80%），而 13 根光纤（25%）在手术结束时的功率输出低于 20%。光纤尖端的显微镜检查显示出轻度至中度的整体降解，并且随着传递能量的增加而逐渐降解。

结论

尽管光纤设计有所改变，但在 180W GreenLight XPS™ LV 过程中，热引起的光纤损伤和功率输出损失仍然是一个问题。是否需要进一步评估手术技术的修改是否可以防止光纤性能受损。

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使用 180W 绿激光 XPS 激光进行前列腺汽化时，激光光纤衰减导致的功率输出损失是否仍然是一个问题？

Is loss of power output due to laser fiber degradation still an issue during prostate vaporization using the 180 W GreenLight XPS laser?

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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