Pediatric Urology Guide Wire-Assisted Urethral Dilation in Pediatric Urology Experience of a Single Surgeon (original) (raw)
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Guide wire-assisted urethral dilatation for urethral strictures in pediatric urology
Journal of Pediatric Surgery, 2003
The aim of this study was to report the results of 32 cases of dilatation of urethral stricture using a guide wire and sheath dilator technique supplemented by clean intermittent catheterization if further stabilization of the urethral stricture was felt warranted. Methods: The procedure involves insertion of a straight flexi-tip lubricated guide wire through the urethral stricture under cystoscopic guidance followed by insertion of a series of sheath dilators. Dilatation was followed by insertion of a Foley catheter, which was left in situ for 1 to 3 days. Patients underwent repeat cystoscopy to evaluate the urethra for recurrent stricture and those with a recalcitrant stricture were commenced on clean intermittent catheterization (CIC) to stabilize the narrowing. Results: Thirty-two patients were included. They have been followed up for up to 2 1 ⁄2 years after their last cystoscopy (mean, 16 months). Thirteen of 32 patients had more than 4 dilatations under anesthesia. Twelve patients had undergone CIC postoperatively. Complications included a urinary tract infection in 3 boys and bladder spasms in one. No false passage or sepsis occurred with this approach. Conclusions: Guide wire-assisted urethral dilatation helps avoid risks associated with blind dilatation techniques and appears to be a safe and simple alternative for management of urethral strictures in pediatric urology.
Role of visual internal urethrotomy in pediatric urethral strictures
Journal of Pediatric Urology, 2013
To evaluate the efficiency of visual internal urethrotomies (VIUs) in pediatric patients. Thirty-four patients aged 0.2-16.3 years were treated with VIUs as a primary treatment for urethral stricture at our institution during 1980-2010. The stricture characteristics and need for repeat treatments as well as the results of repeat VIUs or dilatations were evaluated in a long-term follow-up. Each time first VIUs or repeat treatments were carried out there was a 22-33% success rate at 5 years. Twenty-four patients (71%) were treated successfully after repeat VIUs or dilatations at a median of 6.6 years' follow-up. None of the five patients with strictures longer than 2 cm were successfully treated, compared with 24 of 29 patients with shorter strictures (p = 0.001). However, stricture etiology or location did not have an impact on success. Currently four patients have undergone an open operation because of stricture and six patients are on a home dilatation program. Single VIU is successful for about one-quarter of pediatric patients with a urethral stricture. With repeated VIUs or dilatations 71% of the patients can achieve success. In strictures less than 2 cm, up to three VIUs can be attempted, but longer strictures need open correction if the patient does not wish to follow the home dilatation program.
Urology journal, 2005
Our aim was to evaluate the results of early versus delayed internal urethrotomy for management of recurrent urethral strictures after posterior urethroplasty in children. Twenty boys with proven posterior urethral strictures were treated by perineal posterior urethroplasty. Of these, 12 required internal urethrotomy. Each radiograph demonstrated a patent but irregular urethra with a decrease in diameter at the point of repair (fair results). Patients were then divided into 2 groups: 6 underwent early (within 6 weeks from urethroplasty), and 6 underwent delayed (after 12 weeks from urethroplasty), internal urethrotomy with the cold knife as a complementary treatment. The groups were comparable in terms of patient age, etiology of the primary urethral stricture, number of recurrences, length and site of the actual stricture, and preoperative maximum flow rate. Mean follow-up was 5 years. Kaplan-Meier analyses showed that the stricture-free rate was 66.6% after early, and 33.3% after ...
Post-traumatic posterior urethral stricture in children: How to achieve a successful repair
Journal of Pediatric Urology, 2008
Objective: Complex post-traumatic posterior urethral strictures in children constitute a major challenge to the pediatric urologist. Surgical repair depends primarily on the length of the urethral obliteration. Resection with end-to-end anastomosis is the usual procedure in the face of a short segment stricture. Transpubic urethroplasty and substitution urethroplasty are currently used to treat extensive and complex urethral strictures. We present our experience of the management of children presenting with post-traumatic posterior urethral stricture. Patients and methods: Fifty boys with a mean age of 9 years (6e13) with obliterative urethral stricture were operated on during May 1999 to August 2006. Short posterior urethral stricture was treated by excision and end-to-end anastomotic urethroplasty in 40 boys. Long posterior urethral stricture was managed by combined inferior pubectomy in three, transpubic urethroplasty in four and tubed penile fasciocutaneous flap in three. Results: With a mean follow-up of 4.5 years (6 monthse7 years), all children who underwent perineal anastomotic urethroplasty were successfully repaired. Transpubic urethroplasty was associated with a re-stricture in one child 6 years following the repair. In the group repaired by tubed fasciocutaneous flap, we encountered a distal anastomotic stricture accompanied by a huge proximal diverticulum which needed revision in one child, and another diverticulum with multiple stones in another who was treated successfully. Conclusion: Anastomotic urethroplasty in children is feasible with good results. Proper evaluation is needed to choose the best surgical technique for each patient. Tubed fasciocutaneous flap carries the highest complication rate.
Pediatric and adolescent transperineal anastomotic urethroplasty
Journal of Pediatric Urology, 2008
Abstract Purpose: Pediatric urethral stricture disease represents a significant surgical challenge because of smaller pelvic confines, decreased caliber and increased tissue fragility. Operative series of pediatric urethral reconstruction usually involve small numbers. In this study, we examined the outcome of open reconstructive techniques for pediatric and adolescent patients with posterior urethral distraction injuries. Patients and methods: Between February 2002 and September 2005, 15 patients from Kasr ElAini hospital presenting with posterior urethral distraction defects due to motor vehicle accidents were included in our study. Their age ranged between 5 and 17 years (mean 12.5). We used the progressive perineal approach to achieve a tension-free spatulated anastomosis. Results: Mean follow-up was 28.4 months. Initial and ultimate success rates were 80 and 86.6%, respectively. Other than re-stricture, one child had a bladder stone treated by cystolithotomy 6 months after surgery. No penile curvature, shortening or urethral diverticulae were noted during follow-up. Conclusion: Using the appropriate modern guidelines of urethroplasty, consistent success can be achieved in pediatric and adolescent patients with posterior urethral injuries. Open urethral reconstruction of adolescent and pediatric strictures provides excellent long-term results with minimal morbidity. Urethral reconstruction is strongly recommended as the primary treatment option, especially in the pediatric urethral stricture population, because of the repair durability.
Aetiology and treatment of symptomatic idiopathic urethral strictures in children
Journal of Pediatric Urology, 2009
Objective: To report the presentation and treatment outcomes on a series of 12 paediatric bulbar or posterior urethral strictures that were possibly congenital in origin, identified in a 9-year period. Methods: A retrospective case-note review of all cases of urethral strictures thought to be congenital in origin, prospectively collected into the departmental database. Results: The age at presentation had a bimodal distribution with 6/12 presenting in the first year of life of which four had antenatal hydronephrosis and 5/12 presenting after the age of 11 years. All six patients under 1-year old had a successful outcome following urethrotomy and urethral dilatation. Four of five over 11 years of age ultimately required an urethroplasty and one 3-year-old may well require an urethroplasty in the future. Conclusion: This outcome, in conjunction with the bimodal age distribution at presentation, would suggest a different aetiology in older children, and we would urge caution in classifying strictures in ambulant children as genuinely congenital, as this population may represent the long-term manifestation of unrecorded bulbar urethral trauma or asymptomatic inflammation. Optical urethrotomy or dilatation is durable when treated in infancy, but older patients do not experience prolonged resolution and we would recommend treatment along adult lines for these.