Long-term protective effects of the combination of intermittent reperfusion and hypothermia on reperfusion injury in an experimental testicular torsion model

• Published in: Journal of pediatric surgery Vol. 56; no. 11; pp. 2037 - 2044
• Main Authors: Erdem, Ali Onur, Ozkisacik, Sezen, Mersinli, Bayram, Şirinyildiz, Ferhat, Ek, Rauf, Culhaci, Nil, Yazici, Mesut
• Format: Journal Article
• Language: English
• Published: Elsevier Inc 01.11.2021
• Subjects: Hypothermia; Long-term effect; Reperfusion injury; Testicular torsion; Testicular torsion; Long-term effect; Reperfusion injury; Hypothermia
• ISSN: 0022-3468; 1531-5037
• DOI: 10.1016/j.jpedsurg.2020.11.021

There are many significantfactors in testicular injury which determine the prognosis in testicular torsion. Reperfusion injury following detorsion also has a significant effect on testicular injury.This study was planned considering that with the implementation of intermittent reperfusion and hypothermia, reperfusion injury can be reduced, and such an application might have a positive effect on testicular tissue in the long term. Forty adult male rats were divided into five groups as follows: Sham(Sh)(n = 8), Torsion(T)(n = 8), Intermittent reperfusion(IR)(n = 8), Hypothermia(H)(n = 8), and Intermittent reperfusion+hypothermia(IR+H)(n = 8). Except forGroup Sh, the left testicle was taken out of the scrotum in all groups, rotated three times counterclockwise, fixed back in the scrotum, and left for four hours.After four hours, and just before reperfusion, the testicle's detorsion was performed while holding the vascular structures in the proximal part of the torsed segment with an atraumatic vessel clamp, and thus, not allowing reperfusion in Groups T, IR, H, and IR+H. In Group T, the clamp was released immediately. In Group H, an ice-bag cooling was performed around the testis, and the clamp was released when the tissue temperature was reached and kept constant at 4 °C. In Group IR, the clamp was released, allowing reperfusion of five seconds, followed by reclamping, providing an ischemic status for ten seconds; this procedure was repeated ten times. In Group H+IR,an ice-bag cooling was performed around the testis, and the clamp was released when the tissue temperature was reached and kept constant at 4 °C. Then, reperfusion was applied for 5 s, followed by 10 s ischemia with reclamping. This procedure was repeated ten times.Tissue blood flow was provided for60 days of reperfusion in all groups. After 60 days, both testicles were excised under anesthesia in all living rats, and samples ofthe left testicle werereserved for biochemical and pathological examinations. At the end of the procedure, all animals were sacrificed by a high dose of anesthesia. It was biochemically and histopathologically determined that the tissues were preserved in the experimental groups compared to Group T, which was statistically significant (p < 0.05).However, no experimental group's superiority over each other was determined both biochemically and histopathologically (p > 0.05). Our long-term experimental study revealed that all methods were protective in testicular torsion. The authors believe that these methods can be applied in clinical practice because of their ease of application and no additional cost. On the other hand, the results of our study should further be supported by other experimental studies.