Morphological and physiological changes in the urinary tract associated with ureteral dilation and ureteropyeloscopy: an experimental study.

The gross and microscopic effects of four common modes of ureteral dilation and ureteroscopy were examined in 26 renoureteral units in 13 minipigs. Acutely, ureters subjected to mechanical (bougie, Teflon, or balloon) ureteral dilation and ureteropyeloscopy (UPS) demonstrated active mucosal bleeding with multiple sites of perforation, whereas ureters subjected to hydraulic dilation and UPS were significantly less traumatized. Two weeks after mechanical ureteral dilation and UPS, 3 of 6 ureters were obstructed radiographically, whereas all 7 hydraulically dilated ureters were unobstructed. By 6 weeks, all radiographic evidence of obstruction had resolved in the mechanically dilated group. While 5 of 6 mechanically dilated ureters showed extensive scarring with muscle loss 4 to 6 weeks after dilation, no scarring was seen in those ureters dilated hydraulically. Renal pelvic pressure (RPP) was measured continuously with a nephrostomy catheter in vivo during (bougie, Teflon, balloon and hydraulic) ureteral dilation and UPS. Renal pelvic pressure during rigid ureteroscopy approximated the resting pelvic pressure plus the irrigant height above the kidney or set pressure on a hydraulic pump, plus a "scope effect" which was characterized by a 20 to 25 mm. Hg increase in RPP produced by moving the endoscope in the ureter without flow. The effects on RPP of continuous bladder drainage with a uretheral catheter and renal pelvic decompression with an open-ended ureteral catheter passed into the renal pelvis through the ureteroscope working channel were also examined. The maximum RPP was evaluated in vitro in a separate group of 16 freshly harvested pig kidneys of similar weight examined immediately after sacrifice and was found to be 439 mm. Hg. We also studied the immediate and long-term effects of low (< 120 cm. H2O or 90 mm. Hg) versus high (> 200 cm. H2O or 150 mm. Hg) RPP on renal histology. Acutely, high pressure caused diffuse denudation and flattening of the caliceal urothelium, submucosal edema and congestion not seen in calyces subjected to low irrigant pressure. Four to six weeks later, there was a higher incidence of columnar metaplasia, subepithelial nests and pericalyceal vasculitis in calyces subjected to high pressure as compared with those subjected to low irrigant pressure. Acutely, renal tubules subjected to high irrigant pressure demonstrated marked vacuolization and degeneration, whereas tubules subjected to low pressure appeared normal. At 4 to 6 weeks, focal scarring was seen in 5 of 7 kidneys subjected to high irrigant pressure, whereas no scarring was noted in all 6 kidneys subjected to low irrigant pressure.(ABSTRACT TRUNCATED AT 400 WORDS)

[1]  G. Preminger,et al.  Intrarenal Pressures Generated During Flexible Deflectable Ureterorenoscopy , 1990 .

[2]  M. Campbell Varicocele due to anomalous renal vessel; an instance in a thirteen-year-old boy. , 1944, Transactions of the American Association of Genito-Urinary Surgeons.

[3]  B. Saltzman,et al.  Measurement of renal pelvis pressures during endourologic procedures. , 1987, Urology.

[4]  V. Ed,et al.  The renal hemodynamic response to chronic unilateral complete ureteral occlusion. , 1970 .

[5]  E. Lyon,et al.  Transurethral ureteroscopy in women: a ready addition to the urological armamentarium. , 1978, The Journal of urology.

[6]  M. Marberger,et al.  Late sequelae of the management of ureteral calculi with the ureterorenoscope. , 1986, The Journal of urology.

[7]  R. Dourmashkin Cystoscopic Treatment of Stones in the Ureter with Special Refrrence to Large Calculi; Based on the Study of 1550 Cases , 1945 .

[8]  L. F. Greene The Renal and Ureteral Changes Induced by Dilating the Ureter , 1944 .

[9]  M. Gallucci,et al.  Retrograde Cold-Knife Endopyelotomy in Secondary Stenosis of the Ureteropelvic Junction , 1991 .

[10]  Weaver Me,et al.  MINIATURE SWINE AS LABORATORY ANIMALS. , 1965 .

[11]  J. Wickham,et al.  Clinical and experimental evaluation of ureteric dilatation. , 1984, British journal of urology.

[12]  R. Clayman,et al.  Experimental Extensive Balloon Dilation of the Distal Ureter: Immediate and Long-Term Effects , 1987 .

[13]  V. Ed,et al.  Effects of acute and chronic ureteral obstruction on renal hemodynamics and function. , 1968 .

[14]  J. Parrish,et al.  An assessment of the pulsed dye laser for fragmenting calculi in the pig ureter. , 1987, The Journal of urology.

[15]  D. Levison,et al.  Acute ureteric dilatation for ureteroscopy. An experimental study. , 1988, British journal of urology.

[16]  J. Addonizio,et al.  The Minipig as a Practical Endourologic Model , 1989 .

[17]  R. Clayman,et al.  Balloon dilation of the distal ureter to 24F: an effective method for ureteroscopic stone retrieval. , 1991, The Journal of urology.

[18]  R. Dourmashkin Dilatation of Ureter with Rubber Bags in the Treatment of Ureteral Calculi. Presentation of a Modified Operating Cystoscope a Preliminary Report1 , 1926 .

[19]  W. Mulvaney The hydrodynamics of renal irrigations: with reference to calculus solvents. , 1963, The Journal of urology.

[20]  M. Eshghi Dilatation of ureteral orifice for ureterorenoscopy. , 1988, The Urologic clinics of North America.

[21]  M. Elhilali,et al.  Effect of Balloon Catheter Dilatation of the Ureter on Upper Tract Dynamics and Ureteral Wall in Swine , 1990 .

[22]  D. M. Davis,et al.  Complete obstruction of the ureter: immediate and long-term effects on the renal pelvic pressure in dogs. , 1968, Surgical forum.