1660 | Reconstruction of Urethral Strictures in Pa- tients with a Long History of Blind Urethral Dilatation Ivan Ignjatovic, Ivica Stojkovic, Dragoslav Basic, Jablan Stankovic, Milan Potic, Ljubomir Dinic Corresponding Author: Ivan Ignjatovic, MD, PhD Professor of Urology, Clinical Center Nis/Clinic of Urology, Zorana Djind- jica 46, 18000 Nis, Serbia. Tel: +381 64 1810907 E-mail: ivanig@live.com Received March 2013 Accepted January 2014 Clinical Center Nis/Clinic of Urology, Zorana Djindjica 46, 18000 Nis, Serbia. RECONSTRUCTIVE SURGERY Reconstructive Surgery Purpose: To compare urethral reconstructions in patients after several years with or without blind urethral dilatation. Materials and Methods: A retrospective study of 107 patients with urethral reconstructions was performed. Sixty patients with a long history of blind urethral dilatation (group 1) were compared with 47 patients without prior dilatations (group 2). Results: The type of surgery planned according to urethrography and endoscopy findings was appropriate in 37/60 (61.6%) patients in group 1 and in 39/47 (83%) patients in group 2 (P < .03). Anastomotic repairs were more frequent among the patients in group 2 (P < .001). Eighty five out of 107 patients were available for the 24 months follow-up. The success rate was higher in group 2 (91.4%) than patients in group 1 (70%) (P < .04). The greatest im- provement in symptoms and quality of life occurred three months after the surgery (P < .05). Postoperative infection was persistent in 20/107 (18.7%) patients. Conclusion: Urethral strictures with a long history of blind dilatation are separate entity. They are more difficult to image, require more augmentation and staged procedures and have a lower success rate. Keywords: dilatation; intermittent urethral catheterization; adverse effects; recurrence; ure- thral stricture; therapy; surgery; treatment outcome. 1661Vol. 11 | No. 03 | May - June 2014 |U R O LO G Y J O U R N A L Urethral Reconstructions after Long Term Blind Dilatations | Ignjatovic et al INTRODUCTION Reconstructive urethral surgery is traditionally con-sidered as a demanding discipline due to different etiology and variety of surgical options. The reli- ability of preoperative radiological evaluation is lower in cases with spongiofibrosis(1) and requires a surgeon with adequate experience and the ability to change operative strategy during the surgery.(2,3) Urethral dilatation (especially a blind one) was a preferable type of treatment during previous decades due to its sim- plicity and immediate results. Dilatations are rarely cura- tive but are performed anyway by 31-33% of the urologists in the USA, even though failure is predictable.(4) Another reason is that 57.8% of urological surgeons never perform urethral reconstruction and only 4.2% perform buccal graft surgery,(4) which is currently the most frequent augmentation procedure. The increasing frequency of urethral reconstruc- tive procedures means that numerous patients are looking for more durable solution after many years of prior dilatations. The aim of this study is to analyze the difference between urethral reconstructions in patients with long history of blind urethral dilatations and patients without it. MATERIALS AND METHODS A retrospective study of 107 patients with urethral stricture disease, operated between 2003 and 2010 was performed. Surgery was done in all patients by a single well trained surgeon (I.I.). Standard diagnostic procedures in all patients included urethrography (retrograde and voiding), ultrasound evaluation of the kidneys, bladder, residual urine and en- doscopic evaluation of the urethra. Repeated blind urethral dilatations were performed in 60 patients (group 1) at least two years before the surgery, with or without direct visual internal urethrotomies (IU). The other 47 patients had neither previous dilatations nor IU (group 2). Absence of infection was confirmed in 78/107 (72.9%) patients before the surgery. In 29/107 (27.1%) patients with persistent positive urine culture, targeted antibiotic therapy was initiated three days before the surgery and continued for at least seven days. The type of surgery was planned according to urethrography and endoscopy findings. In patients with ≥ 3 cm length of the stricture and well defined endoscopic distinction, anastomot- ic repair was performed. In longer strictures and non-distinct appearance of the healthy mucosa, augmentation ventral buc- cal graft was planned. In cases with the long complete oblit- eration of the urethra staged procedure was planned. Plan of the surgery was considered as “appropriate” in pa- tients when the surgery planned according to the preoperative evaluation was possible. In “inappropriate” patients the plan of surgery was changed due to length of the stricture (longer than expected) or long “grey urethra” augmentation instead of the anastomotic repair. Staged procedures were required in cases with the absent urethral plate or unexpected pus in the urethral lumen. Success was defined as: no need for addition- al instrumentation during the follow up, absent residual urine and maximum flow rate (Qmax) > 15 mL/s. Symptoms and quality of life (QoL) in successfully repaired patients were evaluated with the International Prostate Symptom Score (IPSS) and IPSS quality of life score (IPSS-QoL) before and after the surgery . The nonparametric Yates corrected Chi square test was used for statistical analysis. RESULTS The mean age of the patients was 66.4 ± 7.4 years (range, 21- 81 years). Etiology and position of the strictures are shown in Table. There was no significant difference between groups regarding etiology and location of the strictures. Preopera- tive decision regarding the type of surgery was appropriate in 37/60 (61.6%) patients in group 1 and in 39/47 (83%) pa- tients in group 2 (P < .03). Acquired bladder diverticula were found in 12 patients. Eighty five out of 107 (79.4%) patients (35 from group 2 and 50 from group 1), were available for the evaluation 24 months after the surgery. The success was confirmed in 32/35 patients in group 2 (91.4%) and in 35/50 (70%) patients in group 1 (P < .04). Six out of the 107 pa- tients (5.6%) had a primary failure (graft necrosis). Deterio- ration occurred during the follow up in 18/85 (21%) patients. Total number of patients who were lost from the follow-up was almost equal in both groups; 9 (8.4%) in group 2 and 7 (6.5%) in group 1, totally 16 (14.9%) in both groups. The drop-out of patients occurred one year after the surgery with- out complications (Figure 1). Figure 2 shows the combined data for the stricture length and the type of surgery. Strictures longer than 5 cm were more frequent in group 1 (P < .01). Anastomotic repairs were performed in 32/47 (68%) patients in group 2 and in 16/60 1662 | (26.7%) patients in group 1 (P < .001). Augmentation pro- cedures were performed in 33/60 (55%) patients in group 1, and in 14/47 (29.8%) patients in group 2 (P < .02). Improvement of symptoms and QoL was significant in both groups (Figures 3 and 4). The highest improvement occurred three months after the surgery (P < .05). IPSS was better three months after the surgery in the group 2 than in group 1, but without statistical significance. The most frequent post- operative bothersome symptom was urgency. Infection was persistent after the surgery in 20/107 (18.7%) patients with- out statistical significance between 2 groups. DISCUSSION The etiology of urethral strictures has changed over the re- cent decades. Today, infective etiology is less important, but traffic accident, trauma, iatrogenic and idiopathic causes be- came more frequent.(5) The most important recognizable cause of urethral injury, ac- cording to our results, was iatrogenic trauma. Investigations of avoidable iatrogenic complications showed that educa- tional support regarding urethral catheterization was gener- ally poor, even in highly developed medical systems.(6) An Figure 1. Follow-up and complications of surgery. Figure 2. Type of surgery and length of the strictures. * Significantly more frequent strictures longer than 5 cm (P < .01) ** Anastomotic repair was more frequently possible among no previous dilatation strictures 0-5 cm (P < .001). Figure 3. Mean values of International Prostate Symptom Score before and after the urethral reconstruction. Keys: IPSS, International Prostate Symptom Score; ND, no previous dilatation; PD, previous dilatation. *Significant difference (P < .05). Figure 4. Mean values of International Prostate Symptom Score quality of life score before and after the urethral reconstruction. Keys: IPSS, International Prostate Symptom Score; IPSSQOL, IPSS qual- ity of life score; ND, no previous dilatation; PD, previous dilatation. *Significant difference (P < .05). Reconstructive Surgery 1663Vol. 11 | No. 03 | May - June 2014 |U R O LO G Y J O U R N A L overuse of urinary catheters was evident, with only 47% of the physician orders for catheters documented in hospital de- partments. Urinary catheter related morbidity resulted from interns performing catheterization in 74% of case.(6,7) Iatro- genic injury, in our series, occurred more frequently in non- urological departments (traumatology, neurosurgery, cardiac surgery and neurology). Preoperative evaluation was significantly less reliable with respect to operating strategy in the group 1. Other reports have demonstrated the relatively high reliability of urethrog- raphy in cases without spongiofibrosis.(1) In our series of pa- tients, reliability was less than reported in the group 1, which can be attributed to the repeated trauma (spongiofibrosis). Urethral dilatation and IU are rarely curative and associated with progressive deterioration and frequent inflammatory complications.(8) These procedures are frequently abused in the developing world,(8) such as in our series in the group 1. It should be recommended only in selected patients, who are recurrence free after 3 months.(9) Considerable evidence is accumulating that, patient undergoing more than two IU have a lower probability of success and negative effect on the length of the stricture.(10) Because of that numerous al- ternative techniques are developed.(11) The mean number of repeated urethrotomies suggests that IU contributed to the length of the stricture and decreased probability of suc- cess.(12,13) No uniform approach exists among the urologists worldwide regarding the treatment of urethral strictures. One reliable study from Netherlands suggests that almost all urol- ogists perform IU, and 49% of them will suggest it even for 3.5 cm long strictures and consider urethroplasty only after failure of IU.(14) Another step forward is uncritically forced blind urethral dil- atation (tunneling), which resulted in completely false pas- sage in 13 patients in both the anterior and bulbar urethra, followed by monthly subsequent dilatations and virtually no chance of success (Figure 5). These tunnels remained visible for more than four weeks, regardless of cystostomy placed before the surgery (Figure 3). Urethral dilatations, although ineffective, are highly accepted among the “non-reconstruc- tive” urological surgeons,(15,16) with a “soft” border between allowed and non-allowed manipulation. Anastomotic urethroplasty was performed in 47 patients. In 20 patients, strictures measuring 3-5 cm were excised from the bulbar urethra (mean 3.5 cm) and anastomotically re- paired using extensive preparation, diversion of the corporeal bodies, and urethral mobilization.(17) Anastomotic urethro- plasty is usually performed for strictures ≤ 2 cm.(8) There are rare, anecdotal reports regarding anastomotic urethroplasty for strictures up to 5 cm.(18) Anastomotic repairs were used less restrictively in our series, due to the age of the patients and the primary importance of complication-free voiding after the surgery and the less importance of sexual activity. Buccal graft augmentation has improved dramatically out- come of the surgery of long strictures, however, residual symptoms, as well as, complications are more frequent and numerous improvement are still under way.(19) Our results confirmed that augmentation surgery is initially as successful as reported in the series of other authors.(2,3,20) Deterioration subsequently occurred in a considerable num- ber of patients with the special impact on success in group 1. We were aware of the impaired durability and worse long- term outcome of an inflammatory stricture repair.(22) Per- sistent urinary infection (12%) is a common problem dur- ing the first postoperative months in other reports.(23) In our subjects, infection was present in 14.9% patients in the group Urethral Reconstructions after Long Term Blind Dilatations | Ignjatovic et al Figure 5. Multiple dilatation “channels” performed after several years of “blind” dilatation in the bulbar urethra four weeks after cystostomy. 1664 | REFERENCES 1. Gupta N, Dubey D, Mandhani A, Srivastava A, Kapoor R, Kumar A. Urethral stricture assessment: a prospective study evaluating ure- thral ultrasonography and conventional radiological studies. BJU Int. 2006;98:149-53. 2. Barbagli G, Lazzeri M. Urethral reconstruction. Curr Opin Urol. 2006;16:391-5. 3. Barbagli G, Lazzeri M. Surgical treatment of anterior urethral stric- ture diseases: brief overview. Int Braz J Urol. 2007;33:461-9. 4. Bullock TL, Brandes SB. Adult anterior urethral strictures: a national practice patterns survey of board certified urologists in the United States. J Urol. 2007;177:685-90. 5. Lumen N, Hoebeke P, Willemsen P, De Troyer B, Pieters R, Oosterlinck W. Etiology of urethral stricture disease in the 21st century. J Urol. 2009;182:983-7. 2 and 21.6 % of patients in the group 1 (P > .05). This could be partially explained by the chronically infected bladder di- verticula, which appeared in 12 cases (all in group 1) due to long-acting subvesical obstruction. Residual symptoms were not the same in all cases, regardless the anastomosis was clinically patent. The highest sympto- matic as well as QoL improvement, occurred three months after the surgery in group 2, probably due to less frequent infection and more frequent anastomotic repairs. The main complaint after the surgery was urgency. Symptoms declined together with infection and the mean IPSS remained between 6.8 and 11.1. The IPSS and IPSS-QoL are simple and reli- able, although not disease specific. They were previously used for the evaluation of the outcome of surgery. Patients in our series had higher values of IPSS than some that have been reported,(25) which could be explained by the advanced age of our patients, as well as coexisting morbidity (prostate hyperplasia, bladder diverticula and etc.). A patient reported outcome measurement tool has recently become available.(26) There is confirmed evidence that the IPSS-QoL questionnaire also has a moderate to high correlation with the outcome of surgery.(27) Clearly, although anatomical patency is a “must” for the successful reconstruction, residual symptoms could not be neglected. The strength of the present study is sufficient number of pa- tients, single operating surgeon and enough follow-up pe- riod. However, its weaknesses are the retrospective nature, certain number of patients was lost from the follow-up and the lack of data about sexual life. CONCLUSION Repeated dilatations are not a good treatment, although com- monly performed, due to relative ease of the procedure and a lack of awareness in the medical community. They are cor- related with the less reliable preoperative decision making, more frequent augmentation procedures and worse outcome of the surgery. Surgeon must be flexible in their approach as the type, location and degree of spongiofibrosis can affect the type of the surgery chosen for the repair. ACKNOWLEDGEMENT This work has been supported by the Serbian Ministry of Education and Science, grant No. 175092. CONFLICT OF INTEREST None declared. Table . Etiology and location of the strictures. Voiding Previous Dilatation Group No Dilatation Group Total no. (%) Etiology of the stricture* Infection 7 2 9 (8.4) Accident 8 5 13 (12.1) Iatrogenic 28 20 48 (44.8) Idiopathic 25 12 37 (35.5) Location of the stricture* Pendular 14 8 23 (21.5) Bulbar 37 30 67 (62.6) Membranous 11 6 17 (15.9) * There were no significant differences regarding the etiology and position of the strictures in the study groups. Reconstructive Surgery 1665Vol. 11 | No. 03 | May - June 2014 |U R O LO G Y J O U R N A L 6. Thomas AZ, Giri SK, Meagher D, Creagh T. Avoidable iatrogenic complications of urethral catheterization and inadequate intern training in a tertiary-care teaching hospital. BJU Int. 2009;104:1109- 12. 7. Fakih MG, Pena ME, Shemes S, et al. Effect of establishing guide- lines on appropriate urinary catheter placement. Acad Emerg Med. 2010;17:337-40. 8. Mundy, AR and Andrich, DE. Urethral strictures. BJU Int. 2011;107:6- 26. 9. Heyns CF, Steenkamp JW, De Kock ML, Whitaker P. Treatment of male urethral strictures: is repeated dilation or internal urethroto- my useful? J Urol. 1998;160:356-8. 10. Singh BP, Andankar MG, Swain SK, et al. Impact of prior urethral manipulation on outcome of anastomotic urethroplasty for post- traumatic urethral stricture. Urology. 2010;75:179-82. 11. Hosseini SJ, Kaviani A, Vazirnia AR. Internal urethrotomy combined with antegrade flexible cystoscopy for management of obliterative urethral stricture. Urol J. 2008;5:184-7. 12. Pansadoro V, Emiliozzi P. Internal urethrotomy in the manage- ment of anterior urethral strictures: long-term followup. J Urol. 1996;156:73-5. 13. Santucci R, Eisenberg L. Urethrotomy has a much lower success rate than previously reported. J Urol. 2010;183:1859-62. 14. Van Leeuwen MA, Brandenburg JJ, Kok ET, Vijverberg PL, Bosch JL. Management of adult anterior urethral stricture disease: nationwide survey among urologists in the Netherlands. Eur Urol. 2011;60:159-66. 15. Greenwell TJ, Castle C, Andrich DE, MacDonald JT, Nicol DL, Mundy AR. Repeat urethrotomy and dilation for the treatment of urethral stricture are neither clinically effective nor cost-effective. J Urol. 2004;172:275-7. 16. Ferguson GG, Bullock TL, Anderson RE, Blalock RE, Brandes SB. Minimally invasive methods for bulbar urethral strictures: a sur- vey of members of the American Urological Association. Urology. 2010;78:701-6. 17. Mundy AR. Anastomotic urethroplasty. BJU Int. 2005;96:921-44. 18. Morey AF, Kizer WS. Proximal bulbar urethroplasty via extended anas- tomotic approach--what are the limits? J Urol. 2006;175:2145-9. 19. Dalela D, Sinha RJ, Sankhwar SN, Singh V. Ventral bulbar augmenta- tion: a new technical modification of oral mucosa graft urethroplas- ty for stricture of the proximal bulbar urethra. Urol J. 2010;7:115-9. 20. Barbagli G, Palminteri E, Guazzoni G, Montorsi F, Turini D, Lazzeri M. Bulbar urethroplasty using buccal mucosa grafts placed on the ventral, dorsal or lateral surface of the urethra: are results affected by the surgical technique? J Urol. 2005;174:955-7. 21. Erickson BA, Breyer BN, McAninch JW. Single-stage segmental ure- thral replacement using combined ventral onlay fasciocutaneous flap with dorsal onlay buccal grafting for long segment strictures. BJU Int. 2012;109:1392-6. Urethral Reconstructions after Long Term Blind Dilatations | Ignjatovic et al 22. Mathur R, Aggarwal G, Satsangi B, Khan F, Odiya S. Comprehensive analysis of etiology on the prognosis of urethral strictures. Int Braz J Urol. 2011;37:362-9. 23. Mathur R, Aggarwal G, Satsangi B. A retrospective analysis of de- layed complications of urethroplasty at a tertiary care centre. Up- dates Surg. 2011;63:185-90. 24. Raber M, Naspro R, Scapaticci E, et al. Dorsal onlay graft urethro- plasty using penile skin or buccal mucosa for repair of bulbar ure- thral stricture: results of a prospective single center study. Eur Urol. 2005;48:1013-7. 25. Jackson MJ, Sciberras J, Mangera A, et al. Defining a patient-re- ported outcome measure for urethral stricture surgery. Eur Urol. 2011;60:60-8. 26. Kessler TM, Fisch M, Heitz M, Olianas R, Schreiter F. Patient satis- faction with the outcome of surgery for urethral stricture. J Urol. 2002;167:2507-11. 27. Frie GK, Van der Meulen J, Black N. Single item on patients’ satis- faction with condition provided additional insight into impact of surgery. J Clin Epidemiol. 2012;65:619-26.