Gradual detorsion of torsioned rat testis attenuates ischemia reperfusion injury

Aim

This study was designed to investigate effect of gradual detorsion on testicular ischemia reperfusion injury.

Materials and Methods

A total of 21 male rats were divided into 3 groups, each containing 7 rats. Torsion was created by rotating the left testis 720° in a clockwise direction. Group 1 underwent sham operation. Group 2 (sudden detorsion) served as a torsion/detorsion group, receiving 2 hours torsion and 2 hours detorsion. In group 3, 360° detorsion was done for 20 minutes after 720° torsion for 2 hours. Then, testis was done full detorsion for 100 minutes. At the end of the experiments (fourth hour), left orchiectomy was performed to measure the tissue levels of malondialdehyde (MDA), superoxide dismutase, and glutathione peroxidase and to perform histologic examination in testes.

Results

The MDA levels of testis tissues were significantly increased in the sudden detorsion group as compared with the sham group. We found decrease of the MDA level in gradual detorsion group, but it was not a statistically significant amount. Significant decrease was found in the superoxide dismutase and glutathione peroxidase activities in the sudden detorsion group as compared with the sham and gradual detorsion groups. Histologic examinations were in accordance with the testicular tissue MDA levels.

Conclusion

In the light of our biochemical and histopathologic findings, we can say that gradual detorsion has a trend to decrease the degree of testicular reperfusion injury in the rat torsion/detorsion model.     

The effect of zinc aspartate pretreatment on ischemia-reperfusion injury and early changes of blood and tissue antioxidant enzyme activities after unilateral testicular torsion-detorsion

Background/purpose

The aim of this study is to investigate the effect of zinc aspartate (ZA) pretreatment on ischemia-reperfusion (I/R) injury and blood and tissue antioxidant enzyme activity early after unilateral testicular torsion-detorsion (T/D).

Methods

Forty prepubertal male Sprague-Dawley rats (weight 160 to 220 g) were divided into 4 groups each containing 10 rats. Surgery was conducted under intraperitoneal 1-shot ketamine (50 mg/kg) anesthesia. The scrotum was entered through a midline incision. Rotating the left testis 720° in a clockwise direction was the model of the testicular torsion. Group 1 was for the basal values. Group 2 had 4 hours T/D. Group 3 also had 4 hours T/D and pretreated with 50 mg/kg intraperitoneal ZA injection half an hour before detorsion. Group 4 was designed as a sham group. In the Group 2 and Group 3, the tunica vaginalis was opened, and left testicles were rotated clockwise 720° and maintained in this torsion position by fixing with a silk suture to the scrotal wall. The scrotum was closed and 4 hours later reentered for testicular detorsion. After spermatic cord detorsion, the scrotum was closed. At the end of 4 hours detorsion period, bilateral orchiectomies were performed, and 5-mL intracardiac blood samples were taken. Blood and tissue superoxide dismutase (SOD), catalase (CAT) activities, and malondialdehyde (MDA) levels were measured, and histopathologic examination was performed.

Results

Group 2 and group 3 had decreased blood SOD and CAT activities and elevated MDA levels indicating I/R injury. The 2 groups were also different from each other for these parameters reflecting the beneficial effect of ZA pretreatment (P < .05). The decreased ipsilateral tissue SOD and CAT activities in group 2 were different from the other groups including group 3 (P < .05). Ipsilateral tissue MDA levels of both group 2 and group 3 were elevated. Group 2 had higher values than group 3 (P < .05). In addition, specimens from group 2 had a significantly greater histologic injury than group 3 (P < .05). These findings were also supporting the beneficial effect of ZA pretreatment. All measurements of contralateral tests were similar to the basal values for all groups (P > .05).

Conclusions

ZA pretreatment reduces I/R injury by its antioxidant effects after unilateral testicular T/D and affects the antioxidant enzyme systems.     

Dose-dependent protective effect of sildenafil citrate on testicular injury after torsion/detorsion in rats

This experiment was designed to investigate the effect of sildenafil citrate on testicular injury after unilateral testicular torsion/detorsion (T/D). Thirty-seven adult male Wistar albino rats were divided into four groups: sham operated group (group 1), T/D+ saline (group 2), T/D+ 0.7 mg sildenafil citrate (group 3) and T/D+ 1.4 mg sildenafil citrate (group 4). Testicular torsion was created by rotating the right testis 720° in a clockwise direction for 2 h in other groups, except for group 1, which was served as sham group. The level of GSH (P < 0.05) in the testis in the group 2 were significantly lower (P < 0.05) and the levels of MDA and NO (P < 0.01 for both) in the testis were significantly higher when compared with those of the group 1. Administration of low dose sildenafil citrate prevented the increases in MDA and NO levels and decreases in GSH values induced by testicular torsion. However, administration of high dose sildenafil citrate did not have any effect on these testicular tissue parameters (P > 0.05). Also, mean values of seminiferous tubules diameters, germinal cell layer thicknesses and mean testicular biopsy score were significantly better in group 3 than groups 2 and 4. These results suggest that T/D injury occurred in testis after unilateral testicular T/D and that administration of low dose sildenafil citrate before detorsion prevents ischemia/reperfusion cellular damage in testicular torsion. Sildenafil citrate probably acts through reduction of reactive oxygen species and support antioxidant enzyme systems.     

Ethyl pyruvate reduces germ cell-specific apoptosis and oxidative stress in rat model of testicular torsion/detorsion

Purpose

Testicular torsion/detorsion (T/D) results in enhanced formation of free radical metabolites, which contributes to the pathophysiology of tissue damage. We investigated the protective effects of ethyl pyruvate (EP) against testis tissue damage in an experimental model of testicular torsion.

Methods

Sprague-Dawley rats were divided into 5 groups. In those animals that underwent T/D, right testes were rotated 720° for 1 hour. Group 1 control rats underwent sham operation. In group 2, the rats underwent T/D. The EP was prepared and injected in the form of Ringer's ethyl pyruvate solution. The rats in group 3, 4, and 5 received 2 doses of 20, 50, and 100 mg/kg EP (30 minutes before and after detorsion), respectively. The right testes of 6 animals from each group were excised 4 hours after detorsion for the measurement of lipid peroxidation, myeloperoxidase (MPO), and antioxidant enzymes activities. Germ cell apoptosis was determined in right testes of 8 animals per group 24 hours after detorsion. The epididymal sperm concentration and motility were evaluated 1 month after treatments.

Results

Germ cell apoptosis indices were significantly higher in group 2 compared with control group. The level of lipid peroxidation and MPO activity increased, whereas antioxidant enzymes activities decreased after T/D. Sperm count and motility were also reduced 1 month after T/D in group 2 rats. However, EP treatment at doses of 50 and 100 mg/kg significantly decreased the early apoptotic damage and improved long-term sperm count and motility. In the same dosing groups, we observed normalization of oxidant/antioxidant balance and decrement of MPO activity. However, administration of 20 mg/kg of EP conferred no protective effect.

Conclusions

Administration of Ringer's ethyl pyruvate solution (in appropriate doses) is protective against apoptotic tissue damage following testicular torsion and improves long-term testicular function. The antioxidant and anti-inflammatory properties of EP seem responsible for the protective effects. Our findings suggest this resuscitation solution as a possible substitute for fluid and electrolyte maintenance during surgical detorsion.     

Antiapoptotic effects of dehydroepiandrosterone on testicular torsion/detorsion in rats

In the present study, we aimed to evaluate the effects of dehydroepiandrosterone (DHEA) on apoptosis of testicular germ cells after repair of testicular torsion in rats. Twenty-four adult male Sprague-Dawley rats were randomly divided into four groups, with six rats in each group: sham operation, torsion/detorsion (T/D), T/D + vehicle, and T/D + DHEA. Three hours before detorsion, 50 mg kg(-1) DHEA was given intraperitoneally to T/D + DHEA group. In all groups, bilateral orchiectomies were performed and both testicles were histologically examined, with apoptosis detected using the in situ DNA fragmentation [terminal deoxynucleotidyl transferase-mediated deoxyuridine triphosphate nick-end labeling (TUNEL)] system, with morphological damage detected using a four-level grading scale in each specimen. The testes of the sham group showed a normal histology. In T/D and T/D + vehicle groups, apoptotic spermatogonia and spermatocyte number were significantly higher than in the sham group (P < 0.01 for all). The T/D + DHEA group showed a reduction in apoptotic spermatocyte and spermatogonia number in seminiferous epithelia compared with T/D group (P < 0.01 for both). Apoptotic cell number of contralateral testes did not reveal any significant differences among these groups (P > 0.05). Specimens from T/D and T/D + vehicle had a significantly greater histological injury than sham and T/D + DHEA groups in the ipsilateral testes (P < 0.01 for both). Therefore, the results suggest that DHEA may be a protective agent for preventing apoptosis caused by testicular torsion.     

The effects of short-interval postconditioning in preventing testicular ischemia-reperfusion injury in rats

Aim

Testicular torsion can lead to testicular damage. During reperfusion, tissue damage is more severe. The aim of this study was to investigate the protective effect of short-interval postconditioning and determine the optimal time of reperfusion for postconditioning.

Materials and Methods

Thirty-five adult male rats were divided into 5 subgroups: Sh (sham operated), TD (torsion + detorsion), PC5 (torsion + postconditioning 5 seconds), PC10 (torsion + postconditioning-10 seconds), PC20 (torsion + postconditioning 20 seconds). Torsion was created by rotating the left testis counterclockwise 1080° and the testis fixed to the scrotum with 3 sutures. Torsion was maintained for 4 hours. The testicular artery was visualized, and before detorsion of the testis, an atraumatic vessel clamp was applied to prevent reperfusion in all study groups. Then, detorsion of the testis was performed. In the TD group, the clamp was released just after detorsion; in the PC5 group, the clamp was released for 5 seconds and closed for 10 seconds (10 times); in the PC10 group, the clamp was released for 10 seconds and closed for 10 seconds (10 times); and in the PC20 group, the clamp was released for 20 seconds and closed for 10 seconds (10 times). Then, all testes were reperfused for a 1-hour period in all study groups. After this period, the rats were sacrificed, and the left testes were removed and evaluated histopathologically and biochemically. The Mann-Whitney U test was used for statistical analyses.

Results

Tissue malondialdehyde levels were 79.3 ± 10.6, 231.7 ± 102.3, 71.3 ± 12.6, 73.8 ± 13.7, and 124.3 ± 48.0 nmol/g tissue in the Sh, TD, PC5, PC10, and PC20 groups, respectively. Tissue malondialdehyde levels were significantly lower in the PC5 and PC10 groups (P < .05) compared to the other groups. However, mean histopathologic grade was lower in all postconditioning groups compared to the control group, but the difference was significant only in the PC5 group (P < .05).

Conclusion

We conclude that short-interval postconditioning can reduce reperfusion injury in ischemic tissue and the optimal mode of short-interval postconditioning is 5 seconds × 10 times. This technique seems easily applicable, and a similar technique may be used during testicular surgery.     

Protective effects of trapidil in ischemia–reperfusion injury due to testicular torsion and detorsion: An experimental study

OBJECTIVE: We aimed to detect the preventive effects of trapidil in ischemia-reperfusion (IR) injury due to testicular torsion and detorsion. METHODS: Forty prepubertal albino rats were used. In the IR group, torsion was created by rotating the left testis over 2 h, and detorsion was done by untwisting the testis. Bilateral orchiectomies were performed after 4 h. In study group, 2-h torsion was performed and trapidil was administered as a single dose 1 h before detorsion. Bilateral orchiectomies were performed after 4 h. In the sham group, a sham operation was done. In the sham plus trapidil group, a sham operation was done and trapidil was administered as a single dose. Testicular tissue malondialdehyde (MDA), nitric oxide (NO) and total sulfhydryl (T-SH) levels were determined for each group. The grades of interstitial injury were determined in histopathologic examination. RESULTS: The NO and MDA levels in the IR group were significantly higher than the study, sham and sham plus trapidil groups in the left testis (P<0.05, P<0.001 and P<0.001, respectively). A statistical difference was not found among study, sham and sham plus trapidil groups in the left testis in NO and MDA levels (P>0.05). The T-SH level in the study group was significantly higher than in the IR, sham and sham plus trapidil groups in left testis P<0.05). In the IR group (left testis), grade 1 interstitial injury was 30% (3/10), grade 2 injury was 60% (6/10) and grade 3 injury was 10% (1/10). In the study group (left testis), grade 1 interstitial injury was 30% (3/10) and there was no injury in 70% (7/10). CONCLUSION: Trapidil decreased free oxygen radical formation in testicular torsion and detorsion, and attenuated histopathological damage in the ipsilateral twisted testis.     

Beneficial effects of melatonin compared with allopurinol in experimental testicular torsion

Background/purpose

Several antioxidant agents such as allopurinol have been used to prevent ischemia-reperfusion (I/R) injury-induced tissue damage after experimental testicular torsion so far. The current study was designed to determine the effect of melatonin, which is a potent antioxidant agent, in preventing testicular damage following torsion.

Methods

Sixty prepubertal male Wistar-Albino rats were divided into 5 groups: control (C), torsion (T), torsion plus detorsion (TD), torsion plus allopurinol (200 mg/kg) plus detorsion (A), and torsion plus melatonin (50 mg/kg) plus detorsion (M). Left testes were rotated 720° for 6 hours. The torsed testes were detorsed. Detorsion time was 6 hours. In all groups, left orchiectomies were performed to determine the tissue levels of malondialdehyde (MDA) and histopathologic changes. Blood samples were taken to measure serum creatine phosphokinase (CPK) levels. The results were analyzed statistically.

Results

Serum CPK levels of groups A and M were found to be significantly lower than groups T and TD (P < .05). Tissue MDA levels in group M were statistically different from groups T and TD (P < .05). However, in groups A and T, MDA levels were similar (P > .05). The highest histologic grade was determined in group TD (3.8 ± 0.5). Histologic grade of group M was significantly lower than group TD (P < .001), but there was no histologic difference between testes of groups A and TD (P > .05).

Conclusions

These results have shown that melatonin treatment prevents I/R injury both biochemically and histopathologically, whereas allopurinol treatment prevents it only biochemically in experimental testicular torsion. Melatonin is a potent antioxidant agent more effective than allopurinol in preventing testicular I/R injury.     

The short term effects of resveratrol on ischemia–reperfusion injury in rat testis

Purpose

The purpose of this study was to identify changes taking place in the rat testis at the 24th hour of reperfusion following testicular torsion and to evaluate the effects of resveratrol (RSV), a powerful antioxidant, in preventing these changes using novel biochemical parameters and histopathology.

Methods

Eighteen adult male rats were divided into three groups: Sham-operated (S), torsion/detorsion (T/D), and T/D + RSV groups. In the T/D group, testicular ischemia was achieved by rotating the left testis 720° clockwise for 4 h. In the T/D + RSV group, 20 mg/kg RSV was administered intraperitoneally 30 min before detorsion. All rats were sacrificed 24 h after detorsion. Serum and tissue malondialdehyde (MDA) concentrations, ischemia modified albumin (IMA), total oxidative status (TOS), total antioxidant status (TAS), oxidative stress index (OSI), and histopathological damage score were analyzed.

Results

Serum MDA, IMA, TOS, and OSI levels rose significantly in the T/D group. Serum MDA and IMA values were lower in the T/D + RES groups, but not significantly. OSI and TOS values were lower in the T/D + RES group, and the difference was significant. TAS values decreased significantly in the T/D group and rose in the T/D + RSV group, but not significantly. Ipsilateral tissue MDA values were significantly elevated in the T/D group and decreased in the T/D + RSV group, but not significantly. Apoptosis and histopathological damage increased significantly in the T/D group and decreased significantly in the T/D + RSV group. In the contralateral testis, apoptosis increased significantly in the T/D group. It decreased significantly in the T/D + RSV group.

Conclusions

Our findings show that RSV had a protective effect against oxidative damage induced with a testicular T/D model, especially at the antiapoptotic and histopathological level. OSI may be a good guide to the clinical status of testicular T/D.     

The protective effect of Cold-inducible RNA-binding protein (CIRP) on testicular torsion/detorsion: An experimental study in mice

Purpose

To evaluate the expression of Cold-inducible RNA-binding protein (CIRP) in torsion/detorsion of the testes in different phases and demonstrate the protective effect of CIRP on testicular injury after torsion/detorsion (T/D) in an experimental mouse model.

Methods

Twenty-four male BALB/c mice were divided randomly into 8 groups: normal control group (N), sham-operated group (S), torsion 2 h group (T2h), torsion/detorsion 12 h group (T/D12h), and T/D24h, T/D48h, T/D72h, and T/D96h groups. The testes were examined for the expression levels of CIRP. Another 32 male BALB/c mice were divided randomly in to 4 groups: normal control group (N), T/D group, T/D + pcDNA3.1 group, and T/D + pcDNA3.1-CIRP group. The plasmids were transfected into testes with in vivo-jetPEI. After 3 days, morphological changes, mean seminiferous tubule diameter (MSTD), and the number of the germ cell layers were observed. Superoxide dismutase (SOD) activity, the levels of malondialdehyde (MDA), and Bcl-2/Bax ratios were studied in the different groups.

Results

Compared with the N and S groups, the expression of CIRP in the T2h group was down-regulated. In T/D groups, the levels of CIRP were reduced in a time dependent manner. Compared to T/D and T/D + pcDNA3.1 group, the MSTD, number of the germ cell layers, SOD activity, and Bcl-2/Bax ratio increased in T/D + pcDNA3.1-CIRP group, while the level of MDA decreased.

Conclusions

The results of our study have shown that down-regulated CIRP is involved in testicular injury after testicular torsion/detorsion. Up-regulation of the expression of CIRP may reduce the damage caused by torsion/detorsion, possibly by preventing germ cell oxidative stress and apoptosis.     

The protective effects of grape seed extract on MDA, AOPP, apoptosis and eNOS expression in testicular torsion: an experimental study

Objectives

Grape seed proanthocyanidin extract (GSPE) is a potent antioxidant and a free radical scavenger. This study was designed to determine whether GSPE could protect against dysfunction and oxidative stress induced by torsion–detorsion injury in rat testis.

Methods

A total of 45 male Wistar albino rats were divided into five groups: control group, sham group, torsion–detorsion (T/D) group, T/D + GSPE group, GSPE group. GSPE was administrated 100 mg/kg/day with oral gavage over seven days before torsion. Testicular torsion was performed for 2 h, and afterward, detorsion was performed for 2 h. The rats were decapitated under ketamine anesthesia, and their testes tissues were removed. Tissue malondialdehyde, advanced oxidation protein products levels, eNOS expression, apoptosis and histopathological damage scores were then compared.

Results

Testicular torsion–detorsion caused significant increases in malondialdehyde level, apoptosis and eNOS expression level and caused a significant decrease in advanced oxidation protein product levels and testicular spermatogenesis in ipsilateral testes. GSPE prevented the rise in malondialdehyde, apoptosis and eNOS expression and improved testicular morphology and Johnsen’s score.

Conclusions

As a result, testicular torsion gives rise to serious damage in testes and GSPE is a potent antioxidant agent in preventing testicular injury.     

The effects of nitric oxide on the expression of cell adhesion molecules (ICAM-1, UEA-1, and tenascin) in rats with unilateral testicular torsion

Background/Purpose:

The aim of this study was to determine the effects of nitric oxide (NO) on the expression of adhesion molecules in the early course of testicular I-R injury in rats.

Methods:

Forty male Sprague-Dawley rats were separated into 4 groups, each containing 10 rats. A sham operation was performed in group 1 (control). In group 2 (I-R), after 6 hours of unilateral testicular torsion, 1-hour detorsion of the testis was performed. In group 3 (I-R/l-NAME), after performing the same surgical procedures as in group II, l-NAME was given for 30 minutes. In group 4 (I-R/Mol), after performing the same surgical procedure (torsion and detorsion) as in group II, molsidomine, an NO donor, was infused for 30 minutes. Then, ipsilateral orchiectomies were performed to measure the tissue levels of malondialdehyde (MDA) and NO and to make histologic examination.

Results:

MDA values and the testicular injury score decreased and NO values increased in the I-R/Mol-treated group compared with other experimental groups. The tenascin expression in the interstitial space and basement membrane of the tubuli seminiferi were milder in the I-R/Mol group compared with that of the I-R and the I-R/l-NAME. The acrosomes of the spermatids in I-R and I-R/l-NAME groups were stained mildly by lectin. In the I-R and I-R/l-NAME groups, the interstitial spaces, basement membrane of the tubuli seminiferi, and sertoli and germinal cells in testicular tissue were stained intensely by ICAM-1.

Conclusions:

The expression of adhesion molecules such as tenascin, lectin, and ICAM-1 in the torted testicular tissue may be a pathophysiologic sign of inflammation. NO regulates adhesion molecules expression.     

Protective effect of erythropoietin on torsion/detorsion injury in rat model

Purpose

The aim of the study is to investigate the effects of erythropoietin on torsion/detorsion injury in rats.

Methods

Forty rats were divided randomly into 5 groups: group I (sham, S), sham operation; group II (torsion/detorsion 1, T/D₁), 3 hours ischemia and 1 hour reperfusion; group III (torsion/detorsion 2, T/D₂), 3 hours ischemia and 48 hours reperfusion; group IV (erythropoietin 1, EPO₁), 3 hours ischemia, 1 hour reperfusion, and a single dose of EPO; and group V (erythropoietin 2, EPO₂), 3 hours ischemia, 48 hours reperfusion, and 2 doses of EPO. Malondialdehyde (MDA) and nitric oxide (NO) levels and activities of superoxide dismutase and catalase were measured. Tissue damage to ovarian tissue was scored by histologic examination. Data were compared among groups with parametric tests.

Results

The MDA levels in the S and EPO groups were significantly lower than the T/D groups (P < .001). Catalase and superoxide dismutase activities, and NO levels in the S and EPO groups were significantly higher than in the T/D groups (P < .05). Ovarian tissue damage in the S and EPO groups was significantly less than in the T/D groups (P < .05). Levels of all biochemical markers and ovarian tissue damage scores were similar among the S, EPO₁, and EPO₂ groups (P > .05).

Conclusion

Erythropoietin attenuates ischemia-reperfusion injury when given during the acute phase of ovarian torsion-detorsion in a rat model.     

Nortriptyline protects testes against germ cell apoptosis and oxidative stress induced by testicular ischaemia/reperfusion

We designed this experiment to evaluate the effects of nortriptyline on testicular injury after torsion/detorsion (T/D). Ninety‐six adult Wistar rats were divided into six groups 16 each in control group (Group 1), sham operated (Group 2), T/D + saline (Group 3), and in groups 4–6; were administered 2, 10 and 20 mg kg^?1, i.p. of nortriptyline 30 and 90 min after torsion respectively. Testicular torsion was created by twisting the right testis 720° in clockwise direction for 1 h. In six rats of each group, tissue MDA level and caspase‐3 activity increased and the activities of catalase, superoxide dismutase and glutathione peroxidase decreased in compared with control group 4 h after detorsion (P < 0.001). In six rats of each group 24 h after detorsion, histopathological changes and germ cell apoptosis were significantly deteriorated by measuring mean of seminiferous tubules diameters (MSTD) and TUNEL test. Moreover, 30 days after T/D, sperm concentration and motility were examined in rest of rats. Pre‐ and post‐reperfusion nortriptyline could reduce MDA and caspase‐3 levels and normalise antioxidant enzymes activities, dose dependently. Germ cell apoptosis was significantly decreased, and the MSTD, as well as sperm functions, were significantly improved. Inhibition of mitochondrial permeability transition pore is probably involved in protective effects of nortriptyline against testicular T/D cell damages.     

Protective effect of urapidil on testicular torsion–detorsion injury in rats

Purpose

The aim of this study was to investigate the effect of urapidil and low-molecular weight heparin (LMWH) on testicular torsion–detorsion injury in rats.

Methods

Thirty-two male Sprague–Dawley rats were used. In the torsion–detorsion (T/D) group, the left testis was twisted at 720° for 3 h. After 3 h of reperfusion, the testis was removed. Urapidil or LMWH was administered intraperitoneally 30 min before detorsion in the treatment groups.

Results

Unilateral testicular torsion–detorsion caused significant increases in the malondialdehyde level and apoptosis and significant decreases in the superoxide dismutase (SOD) and glutathione peroxidase (GPx) activities in ipsilateral testes (p < 0.001). The rats treated with urapidil had a significant decrease in the malondialdehyde level and apoptosis and significant increases in the SOD and GPx activities in ipsilateral testes compared to the T/D group (p < 0.001). Animals treated with LMWH showed non-significant reductions in malondialdehyde levels and apoptosis compared to the T/D group. In addition, no significant difference in the SOD activities (p = 0.52) between the groups was found. The increase in the GPx activities was significant in the LMWH group compared to the T/D group (p < 0.001).

Conclusion

The administration of urapidil before detorsion prevents ischemia/reperfusion cellular damage in testicular tissue. LMWH was not found to have a beneficial effect on testicular T/D injury in rats.

     

The role of nitric oxide in testicular ischemia-reperfusion injury

PURPOSE: This study was designed to determine the role of nitric oxide (NO) in the ischemia-reperfusion (I/R) injury process in testes. METHODS: Fifty prepubertal male rats were divided into 5 groups each containing 10 rats. After 4-hour torsion and 4-hour detorsion, bilateral orchiectomies were performed for measurement of tissue malondialdehyde (MDA) level and histopathologic examination. The results were compared statistically. The groups were labeled as group 1, basal values of biochemical parameters in testes; group 2 (control group), torsion plus detorsion; group 3, torsion plus N-monomethyl-L-arginine (L-NMMA) plus detorsion; group 4, torsion plus L-arginine plus detorsion; group 5, sham operation. RESULTS: The highest MDA values were determined in the L-arginin group in ipsilateral testes. Group 3 and group 4 were statistically different from control group. Histological examination showed that specimens from group 4 had a significantly (P < .05) greater histological injury than group 3, and contralateral testes showed normal testicular architecture in all groups. CONCLUSIONS: These results suggest that NO plays an important role in damaging the testis with I/R. Although inhibition of NO synthesis with L-NMMA significantly improves I/R injury in testes, enhancing NO production by providing excess of L-arginine increases such damage. In the early periods of detorsion, there is no damage to contralateral testes after unilateral testicular torsion.     

Propofol attenuates reperfusion injury after testicular torsion and detorsion

Propofol, which is widely used as an intravenous anesthetic, has been shown to have an antioxidant activity on several tissues. This study was designed to investigate the prevention of reperfusion injury with propofol after testicular torsion. Five groups of rats (seven in each group) were used. Animals in the control group (group I) did not received any treatment, while animals in the sham group (group II) underwent scrotal incision and testicular fixation only. After 2 h of 720° left testicular torsion in groups III, IV and V, subsequent detorsion was done for 2 h in groups IV and V. Propofol (50 mg/kg) was injected transperitoneally 30 min prior to detorsion in group V. Both testicles in all rats were retrieved and tissue malondialdeyhde (MDA) level, which is a measure of the amount of free oxygen radicals, and enzymatic activity of xanthine oxidase (XO), which converts hypoxanthine to xanthine and uric acid were studied. In addition, tissue catalase (CAT) and glutathione peroxidase (GSH-Px) activities, which are endogenous scavenger enzymes, protecting tissues against free radicals, were studied. Additionally, histological evaluations were performed after hematoxylin and eosin staining. Testicular MDA levels, and XO and CAT activities were higher in the torsion group compared to sham control group (P<0.05). Detorsion caused a further increase in MDA levels, contrasting with a decrease in the levels of XO activity, while CAT activity was not changed. Pretreatment with propofol prevented a further increase in MDA levels and significantly decreased CAT activity following detorsion. GSH-Px activities were not effected either by torsion/detorsion or propofol pretreatment. Histologically, torsion caused some separation between germinal cells in the seminiferous tubules, which became much more prominent in the detorsion group and attenuated with propofol pretreatment. There was no significant change in any of the abovementioned enzymatic activities nor were there histopathological changes in the contralateral testicle in any groups. It is concluded that biochemically and histologically reperfusion injury occurs in the ipsilateral testis following detorsion up to 2 h. Preference of propofol for anaesthesia during the detorsion procedure may attenuate such reperfusion injury.     

Late hormonal function after testicular torsion

Introduction

Testicular torsion may be an important cause of male infertility. We aimed to investigate the late hormonal function in patients with testicular ischemia/reperfusion injury of the testis after orchidectomy or detorsion.

Methods

Twenty patients (mean age, 13.6 years) were prospectively evaluated at a mean of 5 years after testicular torsion. The serum follicle-stimulating hormone, luteinizing hormone (before and after gonadotropin-releasing hormone stimulation), testosterone, and inhibin B were measured. Fifteen age-matched adolescents without evidence of endocrine disease were used as controls for inhibin B values. Data are quoted as mean ± SEM.

Results

Twelve patients were treated with detorsion and orchidopexy, and 8 underwent orchidectomy. Serum follicle-stimulating hormone, luteinizing hormone, and testosterone were all within the reference range. Inhibin B levels were significantly reduced in the 2 groups compared with the controls (34.5 ± 5.2 vs 63.9 ± 12.8 pg/mL, P = .02), but were not significantly different between the orchidectomy group and the group that underwent detorsion (41.3 ± 9.7 vs 30.4 ± 5.9 pg/mL, P = .41).

Conclusion

Hormonal testicular function can be compromised after testicular torsion, although the type of surgery (orchidectomy or orchidopexy) does not seem to change the effect of this ischemia/reperfusion injury.     

Effects of oral zinc administration on long‐term ipsilateral and contralateral testes damage after experimental testis ischaemia–reperfusion

The purpose of this study was to examine potential long‐term post‐torsion changes that can occur in the histopathology, biochemistry and spermatogenesis of both torsioned and nontorsioned opposite testes. The study also determines the effect of zinc (Zn) administration on the testicular torsion/detorsion (T/D) damage on both testes. Forty‐eight male rats, divided equally into eight groups: (SHAM), (SHAM+,Zn+), (T/D+, Zn? 1 month), (T/D+,Zn? 2 months), (T/D+,Zn? 3 months), (T/D+,Zn+ 1 months), (T/D+,Zn+ 2 months), (T/D+,Zn+ 3 months), have been used. Drug administration was carried out by adding 100 μg (0.016 ml/rat) Zn per rat to drinking water in related groups. Testicular damage decreased superoxide dismutase (SOD) and glutathione (GSH) and increased malondialdehyde (MDA) in the testis tissues of rats, while Zn administration increased SOD and GSH and decreased MDA in the testis tissues in comparison with the SHAM group. The beneficial effect of zinc sulphate was more evident on the nonrotated testis than the rotated testis. In the histopathological study, a significant decrease in torsion and detorsion injuries was observed in the treatment groups compared to the torsion and detorsion groups. We found a protective effect of zinc sulphate on oxidative stress as a result of T/D injuries in rats, especially for the nonrotated testis; results were supported histopathologically.     

The protective role of caffeic acid phenethyl ester (CAPE) on testicular tissue after testicular torsion and detorsion

Testicular artery occlusion causes an enhanced formation of reactive oxygen species, which contributes to the pathophysiology of tissue damage. Here, we have investigated the effects of caffeic acid phenethyl ester (CAPE), a new antioxidant and antiinflammatory agent, in rats subjected to testicular torsion/detorsion (T/D). Thirty-five male rats were divided into four groups: sham operation group (n=8), torsion group (n=9), T/D+saline group (n=9) and T/D+CAPE group (n=9). Rats, except the sham operation group, were subjected to left unilateral torsion (720° rotation in the clockwise direction) without including the epididymis. After torsion (2 h) and detorsion (4 h) periods, rats were sacrificed and bilateral orchidectomy was performed. Testis tissues were washed with cold saline solution, cut into small pieces with scissors, placed into glass bottles and homogenised in four volumes of ice-cold Tris-HCl buffer. Clear supernatant fluid was used for biochemical analyses. Treating rats with CAPE (applied at 10 µmol/kg, 30 min prior to T/D) attenuated the testicular injury, as well as the increase in the tissue levels of myeloperoxidase and thiobarbituric acid-reactant substances (TBARS) caused by T/D in the testis. Testis tissues showed a significant increase in glutathione peroxidase (GSH-Px) activity compared to the torsion group when CAPE was applied. Taken together, our results clearly demonstrate that CAPE treatment exerts a protective effect on testicular T/D, and part of this effect may be due to inhibiting the neutrophil-mediated cellular injury.