1) Laser lithotripsy
激光碎石术
1.
A clinical study on basket manipulation combined with ureteroscopy and holmium:YAG laser lithotripsy for treatment of proximal ureteral calculi;
套石篮在输尿管镜钬激光碎石术治疗上段输尿管结石中的应用
2.
[Methods] 214 cases ureteral calculi treated with Transuteteroscopic laser lithotripsy from Feb.
目的探讨输尿管镜钬激光碎石术治疗输尿管结石的有效性和安全性。
2) Holmium laser lithotripsy
钬激光碎石术
1.
Holmium laser lithotripsy for the treatment of ureteral calculus in pregnant women;
钬激光碎石术在孕妇输尿管结石治疗中的临床应用
2.
Holmium laser lithotripsy for the treatment of urinary calculi: Report of 1216 cases;
钬激光碎石术治疗泌尿系结石(附1216例报告)
3.
Clinical effects of treatment of ureteral calculi with endoscopic holmium laser lithotripsy;
输尿管结石ESWL失败改腔内钬激光碎石术的疗效观察
3) Holmium:YAG laser lithotripsy
钬激光碎石术
1.
Treatment of ureteral complicated calculi with Holmium:YAG laser lithotripsy(Report of 87 cases);
钬激光碎石术治疗复杂性输尿管结石87例报告
2.
Treatment of ureteral calculus with Holmium:YAG laser lithotripsy via ureteroscope(report of 280 cases).;
经输尿管镜钬激光碎石术治疗泌尿系结石(附280例报告)
3.
In 6 cases with ureterostenosis,treatment with holmium:YAG laser lithotripsy via ureteroscope after placing ureter catheter for 3-7 days was successful.
结论输尿管镜钬激光碎石术结合体外冲击波碎石治疗复杂性输尿管结石安全、有效。
4) Laser lithotripsy
激光碎石
1.
Purpose To present the experience and the efficacy of unenhanced spiral CT scan combined with ureteroscopy and holmium:yttrium aluminum garnet(YAG) laser lithotripsy for non-opaque ureteral calculi.
方法73例排泄性尿路造影(intravenous urogram,IVU)显示肾盂积水但未见结石的患者,均进行B超和螺旋CT平扫(2mm),采用输尿管镜/钬激光碎石治疗。
2.
Objective To evaluate the clinical use of ureteroscope U-100 laser lithotripsy on the treatment of ureter and bladder stones.
有2例输尿管上段结石患者1例术中结石移入肾盂,另1例激光碎石无效,术后均行ESWL治疗成功。
5) pneumatic lithotripsy and frequency-doubled-doubled-pulse laser lithotripsy
气压弹道/U100激光碎石术
6) percutaneous neplrolithotripsy
经皮肾镜钬激光碎石术
1.
The side-effects in percutaneous neplrolithotripsy and its anesthesia management;
经皮肾镜钬激光碎石术中不良反应的分析及麻醉管理
补充资料:体外冲击波碎石术
体外冲击波碎石术
extracorporeal sh?ock wave lithotripsy,ESWL
利用高电压、大储能电容通过在水中瞬间放电,产生冲击波,经半椭圆反射体的反射聚焦于半椭圆反射体的第二焦点处(放电处为第一焦点),能量增大230倍,可将置于该点之结石粉碎。由于冲击波以声学特性传播,在空气中会大大削减其能量,故需在水中进行,又由于对上述波人体与水的阻抗相似,因此,冲击波可经人体各层软组织作用于结石。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条