Clinical Trials Logo

Clinical Trial Summary

Retrograde intrarenal surgery (RIRS) has been considered as the first-line choice for the management of <20mm kidney stones. Insertion of a ureteral access sheath (UAS) before RIRS surgery is currently accepted as an effective method to improve the effectiveness of surgery, but can be accompanied by serious complications. In long-term clinical practice, the investigators has found that many ureteral injuries occur during UAS insertion of the ureter from ureteral orifice. And if we use rigid ureteroscopy to insert the UAS under direct vision, we can provide the placement success rate and reduce the incidence of complications. The investigator aims to perform a prospective and randomized controlled trial comparing the safety and efficacy of under direct vision and under non direct vision during the insertion of UAS.


Clinical Trial Description

Retrograde intrarenal surgery (RIRS) has been considered as the first-line choice for the management of <20mm kidney stones. Insertion of a ureteral access sheath (UAS) before RIRS surgery is currently accepted as an effective method to improve the effectiveness of surgery, but can be accompanied by serious complications. In long-term clinical practice, the investigators has found that many ureteral injuries occur during UAS insertion of the ureter from ureteral orifice. And if we use rigid ureteroscopy to insert the UAS under direct vision, we can provide the UAS insertion success rate and reduce the incidence of complications.

Options for the UAS insertion include inserted under fluoroscopy control or inserted by the experience of the surgeon. The former is more commonly used in the United States, while the latter is more commonly used in China. But neither is perfect. Moreover, Ibrahim Karabulut et al. and Mehmet Giray Sönmez et al. reported a different technique for placement ureteral access sheath called "Endovisional technique" in which the outer sheath of UAS was worn on the semirigid endoscope and placed into the ureter under direct vision. Nevertheless, They found that complication rate was lower in the patients who had the UAS placed under "Endovisional technique" when compared to the classical technique. But the difference was not statistically significant. In addition, the investigators are concerned that failure to use sheath cores may cause new damage to the ureter.

So the investigators find a new way to insert UAS without damaging the ureter. In our new procedure, the patient is placed in the lithotomy position, and a 0.035'' flexible tip guidewire is placed into the renal pelvis using a ureteroscope. Then take out the ureteroscope and insert the ureteroscope into urinary bladder beside the guidewire. A 12 Fr/ 14 Fr ureteral access sheath (UAS) is advanced into the ureteral over the guidewire under direct vision. When the UAS successfully enters the ureteral orifice a few centimeters, the ureteroscope is removed. Continue inserting the UAS into the proximal ureter or UPJ and use the direct urinary system X-graphy (DUSG) to confirm that the UAS is inserted into the correct position. A P5 or P6 Olympus flexible ureteroscope is passed through the UAS to finish lithotripsy.

Until now, routine technique to insert ureteral access sheath during RIRS is still under discussion. The investigator aims to perform a prospective and randomized controlled trial comparing the safety and efficacy of under direct vision and under non direct vision during the insertion of UAS. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT03717285
Study type Interventional
Source The First Affiliated Hospital of Guangzhou Medical University
Contact Guohua Zeng, Ph.D and M.D
Phone +86 13802916676
Email gzgyzgh@vip.tom.com
Status Recruiting
Phase N/A
Start date September 10, 2018
Completion date December 31, 2019

See also
  Status Clinical Trial Phase
Enrolling by invitation NCT04746378 - PRedictive Accuracy of Initial Stone Burden Evaluation.
Recruiting NCT05100017 - Methocarbamol vs Oxybutynin for Management of Pain and Discomfort S/P Ureteroscopy Procedure N/A
Recruiting NCT04021381 - Citrate Salts for Stone-free Result After Flexible Ureterorenoscopy for Inferior Calyx Calculi Phase 3
Completed NCT02266381 - A Prospective Comparison of Fluoroscopic, Sonographic or Combined Approach for Renal Access in Percutaneous Nephrolithotomy N/A
Terminated NCT01431378 - Pilot Study of Model Based Iterative Reconstruction Using 64-Slice N/A
Completed NCT01451931 - Study of Tomography of Nephrolithiasis Evaluation Phase 4
Completed NCT01295879 - Vitamin D Repletion in Stone Formers With Hypercalciuria Phase 4
Completed NCT02895711 - Radiation Dose of Pediatric Patients During Ureteroscopy
Completed NCT05340075 - Staged Bilateral Percutaneous Nephrolithotomy
Recruiting NCT03919227 - Measurement of Resistance During UAS Insertion Procedure in RIRS N/A
Completed NCT05340088 - Optimal Passive Dilation Time in Retrograde Intrarenal Surgery
Completed NCT05032287 - Medical Expulsive Therapy Post-SWL For Renal Stones N/A
Recruiting NCT05701098 - SOUND Pivotal Trial - (Sonomotion stOne comminUtion resoNance ultrasounD) N/A
Not yet recruiting NCT04080973 - Metabolic Workup in Patients Suffering From Kidney Stone Disease and Osteopenia N/A
Terminated NCT01736358 - The Use of Intranasal Ketoralac for Pain Management (Sprix) Phase 4
Completed NCT01792765 - Management of Ureteral Calculi Using Ultrasound Guidance: A Radiation Free Approach N/A
Completed NCT06211842 - Genetic Variations That Increase the Risk for Calcium Kidney Stones: a Family-based Study
Not yet recruiting NCT02214836 - Ultrasound Imaging of Kidney Stones and Lithotripsy N/A
Not yet recruiting NCT04606758 - Fluoroscopic Guided vs US-guided Percutaneous Nephrolithotripsy for the Treatment of Stone Disease N/A
Terminated NCT01873690 - Efficacy of Antimicrobial Prophylaxis for Shock Wave Lithotripsy (SWL) on Reducing Urinary Tract Infection (UTI) Phase 3