PURPOSE: Varicocelectomy after previous inguinal surgery poses a potential risk of testicular volume loss. To assess the extent to which varicocelectomy can be done without the complication of ipsilateral testis atrophy we present outcomes in adolescent patients with a history of inguinal surgery who underwent ipsilateral varicocelectomy. MATERIALS AND METHODS: We retrospectively reviewed patient data from a single urologist practice. Testicular volume was recorded preferentially by ultrasound or, when unavailable, by ring orchidometry. Testicular asymmetry was calculated using the formula, [(right testis volume - left testis volume)/right testis volume] × 100. Symmetry was defined as less than 10% asymmetry. Catch-up growth was defined as resolution of asymmetry. RESULTS: We identified 22 adolescent patients who fit study criteria. The patients underwent a total of 25 varicocelectomies since 3 underwent bilateral repair after previous bilateral inguinal surgery. Initial inguinal surgery included inguinal herniorrhaphy, hydrocelectomy and orchiopexy. Varicocelectomy was done laparoscopically in 17 cases and via open technique in 8 with variations in preservation/sacrifice of the lymphatics and artery. Median ± SD followup was 24.2 ± 18.2 months. After varicocelectomy mean testicular asymmetry decreased from 27.6% to 10.5%. There was no incidence of testicular atrophy postoperatively. The incidence of catch-up growth was 43% with no difference between the artery sparing and the nonartery sparing technique. CONCLUSIONS: Varicocelectomy with a history of previous inguinal surgery is safe and provides a significant incidence of testicular catch-up growth. Artery sparing vs sacrificing technique did not make a difference in terms of catch-up growth.
PURPOSE: Varicocelectomy after previous inguinal surgery poses a potential risk of testicular volume loss. To assess the extent to which varicocelectomy can be done without the complication of ipsilateral testis atrophy we present outcomes in adolescent patients with a history of inguinal surgery who underwent ipsilateral varicocelectomy. MATERIALS AND METHODS: We retrospectively reviewed patient data from a single urologist practice. Testicular volume was recorded preferentially by ultrasound or, when unavailable, by ring orchidometry. Testicular asymmetry was calculated using the formula, [(right testis volume - left testis volume)/right testis volume] × 100. Symmetry was defined as less than 10% asymmetry. Catch-up growth was defined as resolution of asymmetry. RESULTS: We identified 22 adolescent patients who fit study criteria. The patients underwent a total of 25 varicocelectomies since 3 underwent bilateral repair after previous bilateral inguinal surgery. Initial inguinal surgery included inguinal herniorrhaphy, hydrocelectomy and orchiopexy. Varicocelectomy was done laparoscopically in 17 cases and via open technique in 8 with variations in preservation/sacrifice of the lymphatics and artery. Median ± SD followup was 24.2 ± 18.2 months. After varicocelectomy mean testicular asymmetry decreased from 27.6% to 10.5%. There was no incidence of testicular atrophy postoperatively. The incidence of catch-up growth was 43% with no difference between the artery sparing and the nonartery sparing technique. CONCLUSIONS: Varicocelectomy with a history of previous inguinal surgery is safe and provides a significant incidence of testicular catch-up growth. Artery sparing vs sacrificing technique did not make a difference in terms of catch-up growth.