V07_No_4.pdf


Laparoscopic Urology

238 Urology Journal   Vol 7   No 4   Autumn 2010

Intracorporeal Tapering of the Ureter for Distal 
Ureteral Stricture Before Laparoscopic Ureteral 
Reimplantation
Akbar Nouralizadeh, Nasser Simforoosh, Samad Zare, 
Seyyed Mohammad Ghahestani, Mohammad Hossein Soltani

Purpose: To present our experience of laparoscopic ureteral reimplantation 
using intracorporeal ureteral tapering for management of distal ureteral 
stricture.
Materials and Methods: Between April 2005 and October 2008, six 
patients, including 3 children and 3 adults, underwent laparoscopic modified 
Lich-Gregoir type extravesical ureteral reimplantation for distal ureteral 
stricture. Significant dilatations of proximal segment in these patients were 
repaired with intracorporeal ureteral tapering. Stricture etiologies were 
congenital ureterovesical megaureter and iatrogenic gynecologic injury in 4 
and 2 patients, respectively. 
Results: Mean age of the patients was 29.3 years (range, 2 to 62 years). Mean 
operation time and hospital stay was 185 minutes (range, 150 to 240 minutes) 
and 4 days (range, 2 to 6 days), respectively. No significant complications 
were noted intra-operatively. Surgical procedure was performed in all the 
subjects laparoscopically and no conversion to open surgery happened. 
Postoperatively, 2 patients were complicated with febrile urinary tract 
infection that were managed medically. No urinary leakage occurred in early 
postoperative period. All the patients had patent ureterovesical junction 
anastomosis in follow-up imaging and recurrence of obstruction was noted in 
no cases. Two patients (33.3%) developed grade II vesicoureteral reflux. 
Conclusion: Laparoscopic ureteral reimplantation with intracorporeal 
tapering of distal segment may be performed safely in management of patients 
with distal ureteral stricture and severe dilatation of proximal segment.

Urol J. 2010;7:238
www.uj.unrc.ir

Keywords: laparoscopy, 
reimplantation, ureter, ureteral 

obstruction, instrumentation 

Urology and Nephrology Research 
Center, Shahid Labbafinejad 

Medical Center, Shahid Beheshti 
University, MC, Tehran, Iran 

Corresponding Author:

Urology and Nephrology Research 
Center, No.103, 9th Boustan  St., 

Pasdaran Ave., Tehran, Iran
Tel: +98 21 2256 7222

Fax: +98 21 2256 7282

Received October 2009
Accepted April 2010

INTRODUCTION
Ischemia, iatrogenic injury from 
previous abdominal or pelvic 
surgery, endometriosis, malignancy, 
radiation, ureteral calculus, 
endoscopic instrumentation, 
infections such as tuberculosis and 
schistosomiasis, and  congenital 
disorders are considered as common 
causes of ureteral stricture.(1,2)
Proper evaluation and treatment 

of a ureteral stricture is essential 
to preserve renal function.(3,4)
Indications for intervention in 
ureteral stricture include the 
need to rule out malignancy, 
compromised renal function, 
recurrent pyelonephritis, and 
pain associated with functional 
obstruction.(5) Depending on 
the location and length of the 
stricture, different reconstructive 



Ureteral Tapering in Laparoscopic Ureteral Reimplantation—Nouralizadeh et al

239Urology Journal   Vol 7   No 4   Autumn 2010

procedures such as end to end anastomosis, 
ureteroneocystostomy with or without 
psoas hitch, Boari flap, ileal substitution, 
or autotransplantation can be performed.
(6) Recently, laparoscopic procedure has been 
introduced as a suitable alternative to open 
surgery in the management of patients with 
ureterovesical junction obstruction. Agarwal 
and colleagues demonstrated feasibility of 
laparoscopic intracorporeal excisional tailoring of 
megaureter and reimplantation in three subjects.
(7) In this study, we present a novel technique 
of intracorporeal tapering of the ureter for 
management of distal ureteral stricture before 
laparoscopic ureteral reimplantation in six 
patients during a short-term follow-up.

MATERIALS AND METHODS
From April 2005 to October 2008, six patients 
with ureteral stricture have undergone 
laparoscopic ureteral reimplantation with 
intracorporeal ureteral tapering in Shahid 
Labbafinejad Medical Center, which is a referral 
urologic center.

All surgical operations were performed by the 
same surgical team. The main symptom of the 
stricture was pain in 5 subjects and urinary tract 
infection in a 2-year-old boy. Pre-operative 
laboratory assessments included serum level 
of hemoglobin, creatinine, and urine culture. 
Abdominopelvic ultrasonography, intravenous 
pyelography, and voiding cystourethrography 
were performed in all the patients. Operative 
time, length of hospital stay, renal function, 
and intra-operative and early postoperative 
complications were recorded.

Surgical Technique
After general anesthesia in supine position, a 
Foley catheter was inserted in the bladder under 
sterile condition. The 4-port transperitoneal 
technique was performed (two 5-mm ports in 
the left and right lateral rectus abdominalis 
muscles, one 5-mm port in midline 5 centimeters 
infraumblical region, and one 10-mm umbilical 
camera port). After incision along the ipsilateral 
line of Toldt, the colon was reflected medially.

The ureter was identified and with attention to 
preservation of the adventitia, it was isolated 
above the level of stricture and divided just 
proximal to the stenotic portion. Because of 
significantly dilated ureteral portion proximal 
to the obstruction, intracorporeal tapering was 
done over 8Fr Feeding tube in children and 10Fr 
Nelaton catheter in adults. After defining vascular 
support, an atraumatic clamp was placed over 
the catheter, and excess ureter was excised. A 
running locking 4-0 vicryl suture was used for 
reapproximation of proximal two-thirds of the 
tapered ureter, and interrupted sutures completed 
the repair in distal part to allow any shortening 
that might be necessary (Figures 1 and 2).

Figure 1. Dissection of the severely dilated ureter proximal to 
stricture segment.

Figure 2. Laparoscopic intracorporeal tapering of dilated distal 
ureter.



Ureteral Tapering in Laparoscopic Ureteral Reimplantation—Nouralizadeh et al

240 Urology Journal   Vol 7   No 4   Autumn 2010

One hundred and eighty milliliters of saline was 
instilled in the bladder and then, an antrolateral 
seromuscular incision was made down to the 
bulging bladder mucosa and it was incised with 
electrocautery. Six Fr double-J stent was passed 
into the ureter and advanced to the renal pelvis, 
and its distal end was fixed in the bladder. 
Tapered ureter was anastomosed to the bladder 
mucosa with continuous 4-0 vicryl sutures. A 
distal anchoring stitch suture was used to hold 
the ureter near the seromuscular tissue of the 
bladder. The seromuscular layer was then loosely 
closed over the tapered ureter. A 14Fr Nelaton 
drain was placed within the 5-mm port. Ureteral 
stent was removed at 6 weeks after the operation. 
Two months later, intravenous pyelography for 
evaluation of residual obstruction and voiding 
cystourethrography for evaluation of residual 
vesicoureteral reflux were performed in all the 
patients.

RESULTS
The mean age of the patients was 29.3 years 
(range, 2 to 62 years). Three patients were 
children with the age of 2, 5, and 11 years and the 
other threes were adults with the age of 38, 47, 
and 62 years. Stricture etiologies were congenital 
obstructive megaureter and iatrogenic gynecologic 
injury in 4 and 2 patients, respectively. Mean 
operation time and length of hospital stay was 
185 minutes (range, 150 to 240 minutes) and 4 
days (range, 2 to 6 days), respectively. No major 
complication occurred during the surgery. Mean 
blood loss was 70 mL (range, 50 to 320 mL) 
and no blood transfusion was required in the 
postoperative period. The mean hemoglobin loss 
was 0.5 g/dL (range, 0.2 to 0.9 g/dL). The average 
time to start oral intake was 16 hours (range, 12 to 
36 hours).

The most primary presenting symptom was 
pain in 5 patients that resolved completely in 3 
subjects and relatively in 2 others. Urine culture 
was negative in short-term follow-up of a 2-year-
old boy presented with urinary tract infection. 
Surgical procedure was done in all the patients 
laparoscopically and there was not any conversion 
to open surgery. Two patients had fever for less 
than 48 hours (hospital stay, 6 days) that were 

Figure 3. Intravenous pyelogram of the patient with history of 
gynecologic surgery revealed a severe hydroureteronephrosis 
up to the distal portion of the right side ureter.

Figure 4. Problem was resolved after laparoscopic 
ureteroneocystostomy.



Ureteral Tapering in Laparoscopic Ureteral Reimplantation—Nouralizadeh et al

241Urology Journal   Vol 7   No 4   Autumn 2010

managed by antibiotic therapy. Urinary leakage 
was noted in none of the patients in immediate 
postoperative period. The mean time to start the 
normal activity in three adults was 2.9 weeks.

Resolution of obstruction and new occurrence 
of vesicoureteral reflux were assessed with 
intravenous pyelography and voiding 
cystourethrography, respectively. Mean follow-
up was 4 months (range, 3 to 8 months). All 
the patients had patent ureterovesical junction 
anastomosis in follow-up imaging and recurrence 
of obstruction was noted in no cases (Figures 3 
and 4). Two patients (33.3%) developed grade II 
vesicoureteral reflux. 

DISCUSSION
Initial experience of laparoscopic ureteral 
reimplantation for distal ureteral stricture 
described challenges with exposure of the ureter, 
trauma to the ureter, and difficulty in developing 
the extravesical tunnel without injury to the 
urothelium in addition to long operative time.(8)
Several modifications were introduced using 
laparoscopic approach that have resulted in 
shorter operative time and similar outcomes to 
open surgery.(3,9)

Seideman and colleagues reported that, with 
long-term follow-up, this technique is a proper 
alternative to open surgery with comparable 
outcomes and advantages of a minimally invasive 
procedure.(9) Rassweiler and associates(10) and 
Kamat and Khandelwa(11) in two separated 
retrospective comparison of laparoscopic and 
open techniques revealed that mean hospital stay, 
analgesic requirement, and mean convalescence 
time for laparoscopy were significantly lower 
than open surgery and success rate was noticeable. 
Mean operative time in our study was 185 
minutes (range, 150 to 240 minutes) that was 
slightly longer than mentioned operative time 
in other studies. This shortcoming reflects our 
learning curve in reconstructive laparoscopy, 
especially in early cases.

Symons and colleagues presented their 
experience in 6 patients, of whom 3 underwent 
neoureterocystostomy and the remaining 
underwent Boari flap technique. They reported 

acceptable outcomes, but mean operative time 
and hospital stay were not preferable.(12) Ogan 
and colleagues performed laparoscopic ureteral 
reimplantation in 5 of 6 patients with long 
stricture of distal ureter, using a modified dome 
advancement technique without requiring Boari 
flap.(13)

If the ureteral portion proximal to the 
obstruction was significantly dilated as it was in 
our subjects, the lower end should be tapered. 
Ansari and colleagues described a novel technique 
of extracorporeal tailoring for megaureter in 
3 subjects prior to laparoscopic extravesical 
transperitoneal ureteral reimplantation.(1) In their 
report, the free ureteral end was delivered out 
through the ipsilateral 5-mm port. The lower 
end was tailored over an 8Fr Feeding tube. A 
6Fr double-J stent was placed, and finally, the 
whole assembly was carefully replaced in the 
abdomen. Then, Lich-Gregoir type extravesical 
reimplantation was done. They concluded 
that extracorporeal tailoring for obstructing 
megaureter is an easy and a safe procedure, but 
more dissection of the ureter is required to be able 
to exteriorize and it may be concomitant with 
vascular support damage and possibly ischemia.

Recently, Agarwal and colleagues presented their 
initial experience of intracorporeal excisional 
tailoring of megureter before laparoscopic ureteral 
reimplantation with acceptable results in 3 young 
men.(7) We accept that operative time in this 
technique may be longer than extracorporeal 
tapering in initial experience, but more dissection 
of the ureter for exteriorizing from the abdominal 
wall is a main shortcoming; thus, with steep 
learning curve, the time-consuming technique 
will be modified and popularized. Likewise, to 
the best of our knowledge, this report is the first 
presentation of using this technique in children. 
Although operative time is longer than adults, 
but other variables, including blood loss, hospital 
stay, urinary leakage, and final improvement of 
obstruction were not statistically dependent on 
the age of the patients.

Mean blood loss, mean hospital stay, early 
postoperative complications such as excessive 
urinary leakage, average time for return to normal 
activity, ureteral stent removal time, success 



Ureteral Tapering in Laparoscopic Ureteral Reimplantation—Nouralizadeh et al

242 Urology Journal   Vol 7   No 4   Autumn 2010

rate, and complete resolution of stricture in our 
study may be acceptable and comparable to other 
previous reports, but accurate comparison of 
these items is not rationale; because various types 
of surgery and etiology of stricture as well as 
different diameter of stricture seriously affect the 
final conclusion. 

The issue of refluxing versus antirefluxing 
anastomosis in ureteroneocystostomy in 
adults has been examined previously. In a 
retrospective review of adult patients with 
ureteroneocystostomy, similar to our results, no 
significant difference in the preservation of renal 
function or risk of stenosis was identified in the 
refluxing versus antirefluxing procedures.(14)

Although the intracorporeal tapering of distal 
ureter is technically accessible, but it requires a 
high level of laparoscopic expertise and further 
studies should be performed with long-term 
follow-up in greater number of patients to 
propagate this technique.(15,16)

CONCLUSION
It seems that laparoscopic ureteroneocystostomy 
with intracorporeal ureteral tapering for 
management of obstructive megaureter is a 
feasible and reproducible option in patients with 
ureterovesical junction obstruction. Longer 
follow-up period and larger series of patients 
are necessary for validation of this technique, 
especially in pediatric patients.

CONFLICT OF INTEREST
None declared.

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