Original Paper Curr Urol 2013;7:132–135 DOI: 10.1159/000356265
Received: September 16, 2013 Accepted: November 5, 2013 Published online: February 10, 2014
Use of BioGlue Surgical Adhesive in Hypospadias Repair Stanislav Kocherov
Genady Lev
Boris Chertin
Department of Pediatric Urology, Shaare Zedek Medical Center, Faculty of Medical Science, Hebrew University, Jerusalem, Israel
Abstract Purpose: To prospectively evaluate the efficacy of albumin glutaraldehyde tissue adhesive (BioGlue) in the surgical treatment of patients with hypospadias. Materials and Methods: Two groups of 20 patients each who underwent hypospadias repair were included in the study. In the first group we utilized BioGlue as an additional protective layer to the suture line of the neo-urethra, while patients in the second group were operated on utilizing a routine surgical technique. Results: There were no statistical differences between patients from the 2 groups in terms of surgical complications. Urethrocutaneous fistula was revealed in 4 (20%) patients after repair with BioGlue and in 3 (15%) patients from the control group (p = 0.686), suture line breakdown in 4 (20%) and in 1 (5%) patients (p = 0.478), meatal stenosis in 1 (5%) and in 1 (5%) patient (p = 1). Furthermore more patients in the BioGlue group (n = 12, 60%) demonstrated poor cosmetic results compared to the control group where most patients – 19 (95%) had acceptable cosmetic outcomes (p = 0.007). Conclusions: Our data showed no benefits of BioGlue use in hypospadias repair.
Copyright © 2013 S. Karger AG, Basel
© 2013 S. Karger AG, Basel 1015–9770/13/0073–0132$38.00/0 Fax +41 61 306 12 34 E-Mail [email protected] www.karger.com
Accessible online at: www.karger.com/cur
Introduction
Hypospadias is the most common congenital abnormality of the external genitalia in boys. The incidence of hypospadias in Western countries has tremendously risen and is approximately 1 in 150,300 male births [1]. The first description of urethral hypoplasia and hypospadias malformation goes back to Celsius and Galen, and dates as far back as the first and second centuries AD [2]. The renaissance of hypospadias surgery was established by Thiersch and Duplay during the second part of the 19th century [3, 4]. Since then, hundreds of techniques have evolved, mostly to answer the challenge of creating a functional neo-urethra. The complication rate varies with the complexity of the repair, technical modifications and the experience of the surgeon [5]. The most common complications include fistulae, urethral strictures, meatal stenosis, persistent chordee, infections, and wound dehiscence [6]. Different surgical modifications were proposed over the years in order to prevent functional and cosmetic problems after hypospadias repair. Some authors have demonstrated that covering the first suture line with single or double dartos flap or spongioplasty may decrease the incidence of fistula development [5–9]. Others have demonstrated some benefits with the use of fibrin glue as a sealant for urethrocutaneous fistula prevention after hypospadias repair and for the closure of fistulas [10–12]. However fibrin sealants from a single-donor or multiple donors have some risks of HCV, HBV or HIV contamination, may sometimes lead to a seBoris Chertin Department of Pediatric Urology Shaare Zedek Medical Center P.O.B 3235 IL–91031 Jerusalem (Israel) E-Mail [email protected]
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Key Words Hypospadias • BioGlue • Hypospadias repair • Urethrocutaneous fistula
Materials and Methods Following ethical committee approval, 40 patients were recruited into this study. All patients were randomly divided into 2 equal groups, each composed of 20 children. In Group I BioGlue surgical adhesive was applied as a thin layer on the second suture line of the neo-urethra. Patients in Group II were operated on utilizing the routine hypospadias repair technique. Demographic data and primary meatus location were similar in both groups (table 1). The mean age of children was 32.1 ± 11 months in Group I and 26.7 ± 7.7 months in Group II (p = 0.69). In Group I the meatus was positioned in the distal penile shaft in 7 (35%), in the mid-shaft in 6 (30%), in the proximal shaft 1 (5%), and in the peno-scrotal area in 6 (30%) children. In Group II distal hypospadias was in 8 (40%), mid-shaft in 5 (25%), proximal in 1 (5%), and peno-scrotal in 6 (30%) children. Thirteen (65%) patients underwent primary hypospadias repair in Group I and 12 (60%) in Group II. A second repair was performed in 7 (35%) children in Group I and in 8 (40%) in Group II. In Group I, 12 (60%) patients underwent a tubularized incised plate (TIP), 4 (20%) Mathieu repair, 2 (10%) a TIP procedure as a second stage of staged hypospadias repair, 1(5%) a prepucial tubularized flap as a covering, and 1 (5%) fistula closure. In Group II TIP hypospadias repair was performed in 14 (70%), Mathieu in 5 (25%), and fistula closure in 1 (5%) patients. Our regimen of the surgical treatment and follow-up after hypospadias patients was previously published [19]. All hypospadias repairs were performed during a 1-day surgery, utilizing loop magnification in all cases. The operations were performed by a single surgeon (B.C.). In all patients who underwent TIP hypospadias repair, a dartos vascularized pedicled flap was utilized to cover the neo-urethra. The neo-urethra was created utilizing 2 suture lines. The first line of the 6.0 PDS interrupted suture followed by the second line of the running Vicryl 6.0. During the first stage, repair of penile chordee was performed including transection of the urethral plate followed by transposition of the prepucial pedicled flap internal layer as a covering on the ventral part of the penis. The second stage was performed 6 months later. TIP procedure was performed in all study patients during the second stage. A Silastic 6 or 8 Fr catheter was left for a period of 1 week in all study patients. As a part of the routine protocol in our depart-
Surgical Adhesive in Hypospadias Repair
Table 1. Demographic data and meatus localization
Group I (BioGlue) Group II (Control) Number of patients 20 Age (months) 32.10 ± 11.00 Distal shaft hypospadias 7 (35%) Mid-shaft hypospadias 6 (30%) Proximal shaft hypospadias 1 (5%) Peno-scrotal hypospadias 6 (30%)
20 26.70 ± 7.72 8 (40%) 5 (25%) 1 (5%) 6 (30%)
ment all hypospadias patients are advised to come back after 3 months following surgery, after 1 year, and at the age of 18 years. Mean follow-up in the study patients was 15 ± 2.3 months (mean ± SD). Cosmetic appearance and late complications: urethrocutaneous fistula, suture line breakdown and meatal stenosis were recorded. Commercially available software Graph Pad Prism version 5.00 for Windows, (Graph Pad software, San Diego, CA, chi square and Fisher test) was used for statistical evaluation, with a p value of < 0.05 considered as statistically significant.
Results
There were no statistical differences between patients from the 2 groups in terms of surgical complications. Urethrocutaneous fistula was revealed in 4 (20%) patients after repair with BioGlue and 3 (15%) in Group II (p = 0.686) and 4 (20%) from the BioGlue group had suture line breakdown compared with 1 (5%) patient from Group II (p = 0.478). Meatal stenosis developed in 1 (5%) patient (p = 1) from each group. However, more patients in Group I (n = 12, 60%) demonstrated poor cosmetic results compared to Group II where most of the patients (n = 19, 95%) had acceptable cosmetic outcomes (p = 0.007). Discussion
The proportion of patients who experience complications after undergoing hypospadias repair as infants is reported as 2 to 15% [6, 20, 21]. However, this rate varies depending on the degree of hypospadias and the surgical technique used. The most commonly reported complications in this population included fistula, stricture and wound breakdown [6]. The requirements for hypospadias techniques, particularly regarding cosmetic issues are very demanding,
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vere allergic reaction, and are also expensive [13, 14]. A bovine serum albumin-glutaraldehyde surgical adhesive is a well-known sealant agent (BioGlue, CryoLife, NW Kennesaw, GA, USA) and has been widely used in surgery, such as in aortic operations, partial nephrectomy, lung resections and neurosurgery [15–18]. CryoLife’s BioGlue is a proprietary compound approved in 2000 by the FDA as an adjunct to standard methods of achieving hemostasis (such as sutures and staples) in adult patients in open surgical repair of large vessels (such as aorta, femoral and carotid arteries). The aim of this study was to prospectively evaluate the efficacy of using albumin glutaraldehyde tissue adhesive (BioGlue) in hypospadias repair.
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hypospadias repair in a prospective study. Since natural human fibrin tissue sealant may carry a potential risk of HIV, HBV or HCV contamination, BioGlue seems to be an ideal agent [13, 14]. BioGlue is a 2-component system consisting of purified bovine serum albumin and glutaraldehyde. Glutaraldehyde bridges the amine groups from the bovine serum albumin to extracellular matrix proteins of the target tissue forming a covalent bond between the tissue and adhesive. In spite of the technical characteristics and previously published encouraging data on use of fibrin sealing agents, our data failed to demonstrate BioGlue’s benefits regarding the decrease of fistula formation rate and reconstruction breakdowns. The patients from both group showed the same fistula formation and surgical breakdown. Although almost half of the patients in both groups had proximal type hypospadias, which is associated with a high rate of complications and often requires multiple repairs, the complication rate did not decrease with the use of BioGlue. Furthermore the patients from the BioGlue group were inferior to the control patients in cosmetic appearance with prominent severe fibrotic skin reaction in most cases. It has been published that BioGlue may lead to tissue toxicity, local inflammatory response and postoperative wound complications [30–32]. In spite of the fact that in all study patients an additional protective layer of dartus vascular flap was utilized between the sealant and penile skin, we are tempted to speculate that this complication may be explained by toxicity to glutaraldehyde. This manuscript is not without limitations. We presented a relatively small cohort of patients, and therefore it is hard to demonstrate a noticeable difference between the groups. We included both distal and proximal hypospadias in one analysis, different repair techniques and a relatively high number of repair cases. However the aim of this pilot study was to evaluate whether the use of BioGlue sealant carries some benefits in hypospadias patients. Including heterogeneous patients allowed us to check out the benefits of the BioGlue in different clinical set-ups. A large group of more homogenous patients should be considering in further evaluation of biological tissue sealant in hypospadias repair. Conclusions
The data clearly demonstrated that the use of BioGlue surgical adhesive in hypospadias repair in pediatric patients does not carry additional benefits to the existing surgical techniques. Kocherov/Lev/Chertin
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and therefore the current policy of hypospadias repair has completely changed. The urethroplasty technique of ‘tubularized incised plate urethroplasty’ or TIP, is currently one of the most popular procedures in the surgical repair of hypospadias, and according to the last survey on the most popular hypospadias repairs, it was found to be utilized in 85% of all hypospadias cases [22]. This technique allows the creation of a slit-like meatus that addresses all esthetic demands, in contrast to the less satisfactory cosmetic results of other techniques, such as Mathieu’s flap [23, 24]. Although this technique has demonstrated superior cosmetic results, it is not without complications. Some authors reported 20–30% complications [25]. A lot of efforts were invested in order to reduce the number of complications. Use of a vascularized dartus flap or tunica vaginalis of the testis as a protective layer between the neo-urethra and skin, spongioplasty, and fine non-braided sutures were proposed in order to reduce the complication rate [5, 7–9, 26]. However the complication rate following TIP repair with regards to fistula rate and glans breakdown is still high in some cases [25]. In order to achieve a better sealing effect during formation of the neo-urethra, a number of tissue sealants agents were proposed to facilitate urologic surgery. In the past, fibrin sealant was used to augment hypospadias repairs. Kinahan et al. [27] utilized Tisseel, a fibrin glue preparation, to augment hypospadias repairs in children. They showed a clear benefit of using Tisseel in patients undergoing hypospadias repair. In the group of patients where sealant agent was applied on the suture line, the fistula rate was significantly lower (9 vs. 28% in a control group). Furthermore, Hick et al. [28] concluded that fibrin sealant appears to promote early catheter removal and enhanced wound healing after pendulous urethral reconstruction. Barbagli et al. [29] published their experience with the use of fibrin glue in the buccal mucosa graft urethroplasty for bulbar urethral stricture. The authors clearly demonstrated a shortened overall operative time and a decreased occurrence of the early postoperative leakage. Others however have pointed out that the application of glue in hypospadias repair does not completely eliminate fistula formation, even though it seems that it may minimizes the incidence of fistula formation and flap dehiscence [11, 12]. The aforementioned publications regarding the use of fibrin sealant gel in repair of hypospadias, closure of urethrocutaneous fistula and reconstruction of bulbar urethra have led us to investigate BioGlue’s efficacy in
References
Surgical Adhesive in Hypospadias Repair
13 Joch C: The safety of fibrin sealants. Cardiovasc Surg 2003;11(Suppl 1):23–28. 14 Jackson MR, Alving BM: Fibrin sealant in preclinical and clinical studies. Curr Opin Hematol 1999;6:415–419. 15 Mitrev Z, Belostotskii V, Hristov N: Suture line reinforcement using suction-assisted bioglue application during surgery for acute aortic dissection. Interact Cardiovasc Thorac Surg 2007;6:147–149. 16 Hidas G, Kastin A, Mullerad M, Shental J, Moskovitz B, Nativ O: Sutureless nephron-sparing surgery: use of albumin glutaraldehyde tissue adhesive (BioGlue). Urology 2006;67:697–700. 17 Passage J, Tam R, Windsor M, O’Brien M: Bioglue: a review of the use of this new surgical adhesive in thoracic surgery. ANZ J Sur 2005;75:315–318. 18 Kumar A, Maartens NF, Kaye AH: Evaluation of the use of BioGlue in neurosurgical procedures. J Clin Neurosci 2003;10:661– 664. 19 Kocherov S, Prat D, Koulikov D, Ioscovich A, Shenfeld OZ, Farkas A, Chertin B: Outcome of hypospadias repair in toilet-trained children and adolescents. Pediatr Surg Int 2012;28:429–433. 20 Baskin LS: Hypospadias: long term outcome; in: Stringer M, Mouriquand PD, Oldham K, Howard E (eds): Pediatric surgery and urology: long-term outcomes. Cambridge University Press, 2006, pp611–620. 21 El-Kassaby AW, Al-Kandari AM, Elzayat T, Shokeir AA: Modified tubularized incised plate urethroplasty for hypospadias repair: a long-term results of 764 patients. Urology 2008;71: 611–615. 22 Cook A, Khoury AE, Neville C, Bagli DJ, Farhat WA, Pippi Salle JL: A multicenter evaluation of technical preferences for primary hypospadias repair. J Urol 2005;174:2354– 2357. 23 Imamoglu MA, Bakırtas H: Comparison of two methods– Mathieu and Snodgrass – in hypospadias repair. Urol Int 2003;71:251– 254.
24 El-Saket HM: Primary distal hypospadias repair tubularized incised plate urethroplasty (Snodgrass) versus the perimeatal-based flap (Mathieu). Egypt J Plast Reconstr Surg 2004; 28:55–61. 25 Akbiyik F, Tiryaki T, Senel E, Mambet E, Livanelioglu Z, Atayurt H: Clinical experience in hypospadias: results of tubularized incised plate in 496 patients. Urology 2009; 73:1255–1257. 26 Snodgrass W, Bush N: Tubularized incised plate proximal hypospadias repair: continued evolution and extended applications. J Pediatr Urol 2011;7:2–9. 27 Kinahan TJ, Johnson HW: Tisseel in hypospadias repair. Can J Surg 1992;35:75–77. 28 Hick EJ, Morey AF: Initial experience with fibrin sealant in pendulous urethral reconstruction. Is early catheter removal possible? J Urol 2004;171:1547–1549. 29 Barbagli G, De Stefani S, Sighinolfi MC, Pollastri CA, Annino F, Micali S, Bianchi G: Experience with fibrin glue in bulbar urethral reconstruction using dorsal buccal mucosa graft. Urology 2006;67:830–832. 30 Fürst W, Banerjee A: Release of glutaraldehyde from an albumin-glutaraldehyde tissue adhesive causes significant in vitro and in vivo toxicity. Ann Thorac Surg 2005;79: 1522–1528. 31 Hewitt CW, Marra SW, Kann BR, Tran HS, Puc MM, Chrzanowski FA Jr, Tran JL, Lenz SD, Cilley JH Jr, Simonetti VA, DelRossi AJ: BioGlue surgical adhesive for thoracic aortic repair during coagulopathy: efficacy and histopathology. Ann Thorac Surg 2001;71: 1609–1612. 32 Klimo P Jr, Khalil A, Slotkin JR, Smith ER, Scott RM, Goumnerova LC: Wound complications associated with the use of bovine serum albumin-glutaraldehyde surgical adhesive in pediatric patients. Neurosurgery 2007; 60(4 suppl 2):305–309.
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1 Mouriquand PD, Persad R, Sharma S: Hypospadias repair: Current principles and procedures. Br J Urol 1995;76(suppl 3):9–22. 2 Smith ED: The history of hypospadias. Pediatr Surg Int 1997;21:81–85. 3 Thiersch C: Uber die entstehungswise and operative behandlung der epispadie. Arch Heitkunde 1869;10:20–25. 4 Duplay S: De l’hypospade périnéoscrotal et de son traitement chirurgical. Arch General Med 1874;1:613–657. 5 Hafez AT, Helmy T: Tabularized incised plate repair for penoscrotal hypospadias: role of surgeon’s experience. Urology 2012;79:425– 427. 6 Snodgrass WT: Tubularized incised plate hypospadias repair: indications, technique, and complications. Urology 1999;54:6–11. 7 Sarhan OM, El-Hefnawy AS, Hafez AT, Elsherbiny MT, Dawaba ME, Ghali AM: Factors affecting outcome of tubularized incised plate (TIP) urethroplasty: single-center experience with 500 cases. J Pediatr Urol 2009;5: 378–382. 8 Bakan V, Yildiz A: Dorsal double-layer dartos flap for preventing fistulae formation in the Snodgrass technique. Urol Int 2007;78:241– 244. 9 Maarouf AM, Shalaby EA, Khalil SA, Shahin AM: Single vs. double dartos layers for preventing fistula in a tubularized incised-plate repair of distal hypospadias. Arab J Urol 2013;10:408–413. 10 Kinahan TJ, Johnson HW: Tisseel in hypospadias repair. Can J Surg 1992;35:75–77. 11 Ambriz-Gonzalez G, Velazquez-Ramirez GA, Garcia-Gonzalez JL, de Leon-Gomez JM, Mucino-Hernandez MI, Gonzalez-Ojeda A, Basterra JV: Use of fibrin sealant in hypospadias surgical repair reduces the frequency of postoperative complications. Urol Int 2007;78:37–41. 12 Gopal SC, Gangopadhyay AN, Mohan TV, Upadhyaya VD, Pandey A, Upadhyaya A, Gupta DK: Use of fibrin glue in preventing urethrocutaneous fistula after hypospadias repair. J Pediatr Sur 2008;43:1869–1872.
Received: September 16, 2013 Accepted: November 5, 2013 Published online: February 10, 2014
Use of BioGlue Surgical Adhesive in Hypospadias Repair Stanislav Kocherov
Genady Lev
Boris Chertin
Department of Pediatric Urology, Shaare Zedek Medical Center, Faculty of Medical Science, Hebrew University, Jerusalem, Israel
Abstract Purpose: To prospectively evaluate the efficacy of albumin glutaraldehyde tissue adhesive (BioGlue) in the surgical treatment of patients with hypospadias. Materials and Methods: Two groups of 20 patients each who underwent hypospadias repair were included in the study. In the first group we utilized BioGlue as an additional protective layer to the suture line of the neo-urethra, while patients in the second group were operated on utilizing a routine surgical technique. Results: There were no statistical differences between patients from the 2 groups in terms of surgical complications. Urethrocutaneous fistula was revealed in 4 (20%) patients after repair with BioGlue and in 3 (15%) patients from the control group (p = 0.686), suture line breakdown in 4 (20%) and in 1 (5%) patients (p = 0.478), meatal stenosis in 1 (5%) and in 1 (5%) patient (p = 1). Furthermore more patients in the BioGlue group (n = 12, 60%) demonstrated poor cosmetic results compared to the control group where most patients – 19 (95%) had acceptable cosmetic outcomes (p = 0.007). Conclusions: Our data showed no benefits of BioGlue use in hypospadias repair.
Copyright © 2013 S. Karger AG, Basel
© 2013 S. Karger AG, Basel 1015–9770/13/0073–0132$38.00/0 Fax +41 61 306 12 34 E-Mail [email protected] www.karger.com
Accessible online at: www.karger.com/cur
Introduction
Hypospadias is the most common congenital abnormality of the external genitalia in boys. The incidence of hypospadias in Western countries has tremendously risen and is approximately 1 in 150,300 male births [1]. The first description of urethral hypoplasia and hypospadias malformation goes back to Celsius and Galen, and dates as far back as the first and second centuries AD [2]. The renaissance of hypospadias surgery was established by Thiersch and Duplay during the second part of the 19th century [3, 4]. Since then, hundreds of techniques have evolved, mostly to answer the challenge of creating a functional neo-urethra. The complication rate varies with the complexity of the repair, technical modifications and the experience of the surgeon [5]. The most common complications include fistulae, urethral strictures, meatal stenosis, persistent chordee, infections, and wound dehiscence [6]. Different surgical modifications were proposed over the years in order to prevent functional and cosmetic problems after hypospadias repair. Some authors have demonstrated that covering the first suture line with single or double dartos flap or spongioplasty may decrease the incidence of fistula development [5–9]. Others have demonstrated some benefits with the use of fibrin glue as a sealant for urethrocutaneous fistula prevention after hypospadias repair and for the closure of fistulas [10–12]. However fibrin sealants from a single-donor or multiple donors have some risks of HCV, HBV or HIV contamination, may sometimes lead to a seBoris Chertin Department of Pediatric Urology Shaare Zedek Medical Center P.O.B 3235 IL–91031 Jerusalem (Israel) E-Mail [email protected]
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Key Words Hypospadias • BioGlue • Hypospadias repair • Urethrocutaneous fistula
Materials and Methods Following ethical committee approval, 40 patients were recruited into this study. All patients were randomly divided into 2 equal groups, each composed of 20 children. In Group I BioGlue surgical adhesive was applied as a thin layer on the second suture line of the neo-urethra. Patients in Group II were operated on utilizing the routine hypospadias repair technique. Demographic data and primary meatus location were similar in both groups (table 1). The mean age of children was 32.1 ± 11 months in Group I and 26.7 ± 7.7 months in Group II (p = 0.69). In Group I the meatus was positioned in the distal penile shaft in 7 (35%), in the mid-shaft in 6 (30%), in the proximal shaft 1 (5%), and in the peno-scrotal area in 6 (30%) children. In Group II distal hypospadias was in 8 (40%), mid-shaft in 5 (25%), proximal in 1 (5%), and peno-scrotal in 6 (30%) children. Thirteen (65%) patients underwent primary hypospadias repair in Group I and 12 (60%) in Group II. A second repair was performed in 7 (35%) children in Group I and in 8 (40%) in Group II. In Group I, 12 (60%) patients underwent a tubularized incised plate (TIP), 4 (20%) Mathieu repair, 2 (10%) a TIP procedure as a second stage of staged hypospadias repair, 1(5%) a prepucial tubularized flap as a covering, and 1 (5%) fistula closure. In Group II TIP hypospadias repair was performed in 14 (70%), Mathieu in 5 (25%), and fistula closure in 1 (5%) patients. Our regimen of the surgical treatment and follow-up after hypospadias patients was previously published [19]. All hypospadias repairs were performed during a 1-day surgery, utilizing loop magnification in all cases. The operations were performed by a single surgeon (B.C.). In all patients who underwent TIP hypospadias repair, a dartos vascularized pedicled flap was utilized to cover the neo-urethra. The neo-urethra was created utilizing 2 suture lines. The first line of the 6.0 PDS interrupted suture followed by the second line of the running Vicryl 6.0. During the first stage, repair of penile chordee was performed including transection of the urethral plate followed by transposition of the prepucial pedicled flap internal layer as a covering on the ventral part of the penis. The second stage was performed 6 months later. TIP procedure was performed in all study patients during the second stage. A Silastic 6 or 8 Fr catheter was left for a period of 1 week in all study patients. As a part of the routine protocol in our depart-
Surgical Adhesive in Hypospadias Repair
Table 1. Demographic data and meatus localization
Group I (BioGlue) Group II (Control) Number of patients 20 Age (months) 32.10 ± 11.00 Distal shaft hypospadias 7 (35%) Mid-shaft hypospadias 6 (30%) Proximal shaft hypospadias 1 (5%) Peno-scrotal hypospadias 6 (30%)
20 26.70 ± 7.72 8 (40%) 5 (25%) 1 (5%) 6 (30%)
ment all hypospadias patients are advised to come back after 3 months following surgery, after 1 year, and at the age of 18 years. Mean follow-up in the study patients was 15 ± 2.3 months (mean ± SD). Cosmetic appearance and late complications: urethrocutaneous fistula, suture line breakdown and meatal stenosis were recorded. Commercially available software Graph Pad Prism version 5.00 for Windows, (Graph Pad software, San Diego, CA, chi square and Fisher test) was used for statistical evaluation, with a p value of < 0.05 considered as statistically significant.
Results
There were no statistical differences between patients from the 2 groups in terms of surgical complications. Urethrocutaneous fistula was revealed in 4 (20%) patients after repair with BioGlue and 3 (15%) in Group II (p = 0.686) and 4 (20%) from the BioGlue group had suture line breakdown compared with 1 (5%) patient from Group II (p = 0.478). Meatal stenosis developed in 1 (5%) patient (p = 1) from each group. However, more patients in Group I (n = 12, 60%) demonstrated poor cosmetic results compared to Group II where most of the patients (n = 19, 95%) had acceptable cosmetic outcomes (p = 0.007). Discussion
The proportion of patients who experience complications after undergoing hypospadias repair as infants is reported as 2 to 15% [6, 20, 21]. However, this rate varies depending on the degree of hypospadias and the surgical technique used. The most commonly reported complications in this population included fistula, stricture and wound breakdown [6]. The requirements for hypospadias techniques, particularly regarding cosmetic issues are very demanding,
Curr Urol 2013;7:132–135
133
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vere allergic reaction, and are also expensive [13, 14]. A bovine serum albumin-glutaraldehyde surgical adhesive is a well-known sealant agent (BioGlue, CryoLife, NW Kennesaw, GA, USA) and has been widely used in surgery, such as in aortic operations, partial nephrectomy, lung resections and neurosurgery [15–18]. CryoLife’s BioGlue is a proprietary compound approved in 2000 by the FDA as an adjunct to standard methods of achieving hemostasis (such as sutures and staples) in adult patients in open surgical repair of large vessels (such as aorta, femoral and carotid arteries). The aim of this study was to prospectively evaluate the efficacy of using albumin glutaraldehyde tissue adhesive (BioGlue) in hypospadias repair.
134
Curr Urol 2013;7:132–135
hypospadias repair in a prospective study. Since natural human fibrin tissue sealant may carry a potential risk of HIV, HBV or HCV contamination, BioGlue seems to be an ideal agent [13, 14]. BioGlue is a 2-component system consisting of purified bovine serum albumin and glutaraldehyde. Glutaraldehyde bridges the amine groups from the bovine serum albumin to extracellular matrix proteins of the target tissue forming a covalent bond between the tissue and adhesive. In spite of the technical characteristics and previously published encouraging data on use of fibrin sealing agents, our data failed to demonstrate BioGlue’s benefits regarding the decrease of fistula formation rate and reconstruction breakdowns. The patients from both group showed the same fistula formation and surgical breakdown. Although almost half of the patients in both groups had proximal type hypospadias, which is associated with a high rate of complications and often requires multiple repairs, the complication rate did not decrease with the use of BioGlue. Furthermore the patients from the BioGlue group were inferior to the control patients in cosmetic appearance with prominent severe fibrotic skin reaction in most cases. It has been published that BioGlue may lead to tissue toxicity, local inflammatory response and postoperative wound complications [30–32]. In spite of the fact that in all study patients an additional protective layer of dartus vascular flap was utilized between the sealant and penile skin, we are tempted to speculate that this complication may be explained by toxicity to glutaraldehyde. This manuscript is not without limitations. We presented a relatively small cohort of patients, and therefore it is hard to demonstrate a noticeable difference between the groups. We included both distal and proximal hypospadias in one analysis, different repair techniques and a relatively high number of repair cases. However the aim of this pilot study was to evaluate whether the use of BioGlue sealant carries some benefits in hypospadias patients. Including heterogeneous patients allowed us to check out the benefits of the BioGlue in different clinical set-ups. A large group of more homogenous patients should be considering in further evaluation of biological tissue sealant in hypospadias repair. Conclusions
The data clearly demonstrated that the use of BioGlue surgical adhesive in hypospadias repair in pediatric patients does not carry additional benefits to the existing surgical techniques. Kocherov/Lev/Chertin
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and therefore the current policy of hypospadias repair has completely changed. The urethroplasty technique of ‘tubularized incised plate urethroplasty’ or TIP, is currently one of the most popular procedures in the surgical repair of hypospadias, and according to the last survey on the most popular hypospadias repairs, it was found to be utilized in 85% of all hypospadias cases [22]. This technique allows the creation of a slit-like meatus that addresses all esthetic demands, in contrast to the less satisfactory cosmetic results of other techniques, such as Mathieu’s flap [23, 24]. Although this technique has demonstrated superior cosmetic results, it is not without complications. Some authors reported 20–30% complications [25]. A lot of efforts were invested in order to reduce the number of complications. Use of a vascularized dartus flap or tunica vaginalis of the testis as a protective layer between the neo-urethra and skin, spongioplasty, and fine non-braided sutures were proposed in order to reduce the complication rate [5, 7–9, 26]. However the complication rate following TIP repair with regards to fistula rate and glans breakdown is still high in some cases [25]. In order to achieve a better sealing effect during formation of the neo-urethra, a number of tissue sealants agents were proposed to facilitate urologic surgery. In the past, fibrin sealant was used to augment hypospadias repairs. Kinahan et al. [27] utilized Tisseel, a fibrin glue preparation, to augment hypospadias repairs in children. They showed a clear benefit of using Tisseel in patients undergoing hypospadias repair. In the group of patients where sealant agent was applied on the suture line, the fistula rate was significantly lower (9 vs. 28% in a control group). Furthermore, Hick et al. [28] concluded that fibrin sealant appears to promote early catheter removal and enhanced wound healing after pendulous urethral reconstruction. Barbagli et al. [29] published their experience with the use of fibrin glue in the buccal mucosa graft urethroplasty for bulbar urethral stricture. The authors clearly demonstrated a shortened overall operative time and a decreased occurrence of the early postoperative leakage. Others however have pointed out that the application of glue in hypospadias repair does not completely eliminate fistula formation, even though it seems that it may minimizes the incidence of fistula formation and flap dehiscence [11, 12]. The aforementioned publications regarding the use of fibrin sealant gel in repair of hypospadias, closure of urethrocutaneous fistula and reconstruction of bulbar urethra have led us to investigate BioGlue’s efficacy in
References
Surgical Adhesive in Hypospadias Repair
13 Joch C: The safety of fibrin sealants. Cardiovasc Surg 2003;11(Suppl 1):23–28. 14 Jackson MR, Alving BM: Fibrin sealant in preclinical and clinical studies. Curr Opin Hematol 1999;6:415–419. 15 Mitrev Z, Belostotskii V, Hristov N: Suture line reinforcement using suction-assisted bioglue application during surgery for acute aortic dissection. Interact Cardiovasc Thorac Surg 2007;6:147–149. 16 Hidas G, Kastin A, Mullerad M, Shental J, Moskovitz B, Nativ O: Sutureless nephron-sparing surgery: use of albumin glutaraldehyde tissue adhesive (BioGlue). Urology 2006;67:697–700. 17 Passage J, Tam R, Windsor M, O’Brien M: Bioglue: a review of the use of this new surgical adhesive in thoracic surgery. ANZ J Sur 2005;75:315–318. 18 Kumar A, Maartens NF, Kaye AH: Evaluation of the use of BioGlue in neurosurgical procedures. J Clin Neurosci 2003;10:661– 664. 19 Kocherov S, Prat D, Koulikov D, Ioscovich A, Shenfeld OZ, Farkas A, Chertin B: Outcome of hypospadias repair in toilet-trained children and adolescents. Pediatr Surg Int 2012;28:429–433. 20 Baskin LS: Hypospadias: long term outcome; in: Stringer M, Mouriquand PD, Oldham K, Howard E (eds): Pediatric surgery and urology: long-term outcomes. Cambridge University Press, 2006, pp611–620. 21 El-Kassaby AW, Al-Kandari AM, Elzayat T, Shokeir AA: Modified tubularized incised plate urethroplasty for hypospadias repair: a long-term results of 764 patients. Urology 2008;71: 611–615. 22 Cook A, Khoury AE, Neville C, Bagli DJ, Farhat WA, Pippi Salle JL: A multicenter evaluation of technical preferences for primary hypospadias repair. J Urol 2005;174:2354– 2357. 23 Imamoglu MA, Bakırtas H: Comparison of two methods– Mathieu and Snodgrass – in hypospadias repair. Urol Int 2003;71:251– 254.
24 El-Saket HM: Primary distal hypospadias repair tubularized incised plate urethroplasty (Snodgrass) versus the perimeatal-based flap (Mathieu). Egypt J Plast Reconstr Surg 2004; 28:55–61. 25 Akbiyik F, Tiryaki T, Senel E, Mambet E, Livanelioglu Z, Atayurt H: Clinical experience in hypospadias: results of tubularized incised plate in 496 patients. Urology 2009; 73:1255–1257. 26 Snodgrass W, Bush N: Tubularized incised plate proximal hypospadias repair: continued evolution and extended applications. J Pediatr Urol 2011;7:2–9. 27 Kinahan TJ, Johnson HW: Tisseel in hypospadias repair. Can J Surg 1992;35:75–77. 28 Hick EJ, Morey AF: Initial experience with fibrin sealant in pendulous urethral reconstruction. Is early catheter removal possible? J Urol 2004;171:1547–1549. 29 Barbagli G, De Stefani S, Sighinolfi MC, Pollastri CA, Annino F, Micali S, Bianchi G: Experience with fibrin glue in bulbar urethral reconstruction using dorsal buccal mucosa graft. Urology 2006;67:830–832. 30 Fürst W, Banerjee A: Release of glutaraldehyde from an albumin-glutaraldehyde tissue adhesive causes significant in vitro and in vivo toxicity. Ann Thorac Surg 2005;79: 1522–1528. 31 Hewitt CW, Marra SW, Kann BR, Tran HS, Puc MM, Chrzanowski FA Jr, Tran JL, Lenz SD, Cilley JH Jr, Simonetti VA, DelRossi AJ: BioGlue surgical adhesive for thoracic aortic repair during coagulopathy: efficacy and histopathology. Ann Thorac Surg 2001;71: 1609–1612. 32 Klimo P Jr, Khalil A, Slotkin JR, Smith ER, Scott RM, Goumnerova LC: Wound complications associated with the use of bovine serum albumin-glutaraldehyde surgical adhesive in pediatric patients. Neurosurgery 2007; 60(4 suppl 2):305–309.
Curr Urol 2013;7:132–135
135
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1 Mouriquand PD, Persad R, Sharma S: Hypospadias repair: Current principles and procedures. Br J Urol 1995;76(suppl 3):9–22. 2 Smith ED: The history of hypospadias. Pediatr Surg Int 1997;21:81–85. 3 Thiersch C: Uber die entstehungswise and operative behandlung der epispadie. Arch Heitkunde 1869;10:20–25. 4 Duplay S: De l’hypospade périnéoscrotal et de son traitement chirurgical. Arch General Med 1874;1:613–657. 5 Hafez AT, Helmy T: Tabularized incised plate repair for penoscrotal hypospadias: role of surgeon’s experience. Urology 2012;79:425– 427. 6 Snodgrass WT: Tubularized incised plate hypospadias repair: indications, technique, and complications. Urology 1999;54:6–11. 7 Sarhan OM, El-Hefnawy AS, Hafez AT, Elsherbiny MT, Dawaba ME, Ghali AM: Factors affecting outcome of tubularized incised plate (TIP) urethroplasty: single-center experience with 500 cases. J Pediatr Urol 2009;5: 378–382. 8 Bakan V, Yildiz A: Dorsal double-layer dartos flap for preventing fistulae formation in the Snodgrass technique. Urol Int 2007;78:241– 244. 9 Maarouf AM, Shalaby EA, Khalil SA, Shahin AM: Single vs. double dartos layers for preventing fistula in a tubularized incised-plate repair of distal hypospadias. Arab J Urol 2013;10:408–413. 10 Kinahan TJ, Johnson HW: Tisseel in hypospadias repair. Can J Surg 1992;35:75–77. 11 Ambriz-Gonzalez G, Velazquez-Ramirez GA, Garcia-Gonzalez JL, de Leon-Gomez JM, Mucino-Hernandez MI, Gonzalez-Ojeda A, Basterra JV: Use of fibrin sealant in hypospadias surgical repair reduces the frequency of postoperative complications. Urol Int 2007;78:37–41. 12 Gopal SC, Gangopadhyay AN, Mohan TV, Upadhyaya VD, Pandey A, Upadhyaya A, Gupta DK: Use of fibrin glue in preventing urethrocutaneous fistula after hypospadias repair. J Pediatr Sur 2008;43:1869–1872.
