New animal model to evaluate testicular blood flow during testicular torsion.

BACKGROUND/PURPOSE: Unilateral testicular torsion is known to cause infertility because of damage to the contralateral testis. Testicular damage has been attributed to many different mechanisms, one of which is altered contralateral blood flow. In our experiment, in an effort to identify the reason for contralateral testicular injury, the authors developed an accurate method of measuring blood flow in both testes before, during, and after unilateral torsion. METHODS: Four- to 6-week-old piglets weighing 4 to 6 kg were studied. The animals were anesthetized, intubated, ventilated, and catheterized for vascular access. Piglets were assigned randomly to a sham group or a group undergoing 360 degrees or 720 degrees torsion of the left testis (n = 5 per group) for 8 hours, after which it was untwisted. Data were collected at baseline (T = 0), 8 hours of torsion (T = 8), and 1 hour after detorsion (T = 9). Mean arterial blood pressure and heart rate were monitored continuously. Testicular blood flow was determined using radiolabeled microspheres. Blood flow data were evaluated by analysis of variance. RESULTS: In the 360 degrees torsion group, blood flow changes were insignificant during torsion and after detorsion. In the 720 degrees torsion group, blood flow to the twisted testis was reduced significantly, whereas the contralateral testis was unaffected. One hour after detorsion, blood flow to both testes was increased significantly. CONCLUSIONS: The authors describe a new animal model to evaluate testicular blood flow during and after testicular torsion. Increased blood flow after detorsion may be the cause of testicular damage in patients with unilateral testicular torsion.     

Pentoxifylline improves blood flow to both testes in testicular torsion

Objectives: Electromagnetic and radioisotopic studies have shown thatunilateral testicular torsion causes a decrease in contralateral testicularblood flow. Pentoxifylline improves microvascular blood flow in conditionsof vascular insufficiency. An experimental study was designed to evaluatethe effects of pentoxifylline (Ptx) on blood flow to both testes duringunilateral testicular torsion and detorsion.Materials and methods: Thirty-six adult male albino Wistar rats wererandomly divided into six groups where each consisted of six rats: group1: sham operation, group 2: sham operation with Ptx, group 3: torsion,group 4: torsion with Ptx, group 5: detorsion, group 6: detorsion with Ptx.After intraperitoneal administration of Ptx at a dose of 50 mg/kg 15minutes before torsion; right testes of the rats underwent 30 minutes oftorsion and 30 minutes of detorsion. Blood flows of both testes weremeasured during torsion and detorsion simultaneously by using ¹³³Xeclearance technique.Results: Unilateral testicular torsion caused decrease in bilateraltesticular blood flow. Pentoxifylline had no effect on testicular blood flowduring torsion. Detorsion caused a partially increase in blood flow toipsilateral (detorted) testis, but had no effect on contralateral (nontorted)testicular blood flow. Pentoxifylline administration during detorsionsignificantly increased blood flow to both testes.Conclusions: Testicular torsion is a pathological process that causesdecreased blood flow to both testes. Pentoxifylline improves blood flow toboth testes during detorsion in a rat model of testicular torsion. Furtherstudies are needed to evaluate the effects of pentoxifylline on testiculartorsion.     

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.     

Protective role of erythropoietin during testicular torsion of the rats

Testicular torsion is an important clinical urgency. Similar mechanisms occurred after detorsion of the affected testis as in the ischemia reperfusion (I/R) damage. This study was designed to investigate the effects of erythropoietin (EPO) treatment after unilateral testicular torsion. Fifty male Sprague-Dawley rats were divided into five groups. Group 1 underwent a sham operation of the right testis under general anesthesia. Group 2 was same as sham, and EPO (3,000 IU/kg) infused i.p., group 3 underwent a similar operation but the right testis was rotated 720° clockwise for 1 h, maintained by fixing the testis to the scrotum, and saline infused during the procedure. Group 4 underwent similar torsion but EPO was infused half an hour before the detorsion procedure, and in group 5, EPO was infused after detorsion procedure. Four hours after detorsion, ipsilateral and contralateral testes were taken out for evaluation. Treatment with EPO improved testicular structures in the ipsilateral testis but improvement was less in the contralateral testis histologically, but EPO treatment decreased germ cell apoptosis in both testes following testicular IR. TNF-α, IL-1β, IL-6 and nitrite levels decreased after EPO treatment especially in the ipsilateral testis. We conclude that testicular I/R causes an increase in germ cell apoptosis both in the ipsilateral and contralateral testes. Eryhropoietin has antiapoptotic and anti-inflammatory effects following testicular torsion.     

Reperfusion injury after detorsion of unilateral testicular torsion

Summary Reperfusion injury has been well documented in organs other than testis. An experimental study was conducted to investigate reperfusion injury in testes via the biochemical changes after unilateral testicular torsion and detorsion. As unilateral testicular torsion and varicocele have been shown to affect contralateral testicular blood flow, reperfusion injury was studied in both testes. Given that testicular blood flow does not return after 720° testicular torsion lasting more than 3 h, the present study was conducted after 1 and 2 h of 720° torsion. Adult male albino rats were divided into seven groups each containing ten rats. One group served to determine the basal values of biochemical parameters, two groups were subjected to 1 and 2 h of unilateral testicular torsion respectively, two groups were subjected to detorsion following 1 and 2 h of torison respectively, and two groups underwent sham operations as a control. Levels of lactic acid, hypoxanthine and lipid peroxidation products were determined in testicular tissues. Values of these three parameters obtained from the sham operation control groups did not differ significantly from basal values (P>0.05). All three parameters were increased significantly in both ipsilateral and contralateral testes after unilateral testicular torsion when compared with basal values (P<0.01 and P<0.05, respectively). Detorsion caused significant changes in lipid peroxidation products levels in ipsilateral but not in contralateral testes when compared with values obtained after torsion (P<0.01 and P>0.05, respectively). It is concluded that ipsilateral testicular torsion causes a decrease in perfusion not only in the ipsilateral but also in the contralateral testis. Additionally, detorsion following up to 2 h of 720° torsion causes reperfusion injury in ipsilateral but not in contralateral testis.     

The effect of testicular torsion on the contralateral testis and the value of various types of treatment

In an attempt to investigate the effect of testicular torsion and various forms of treatment on the contralateral testis, an experimental study on rats was undertaken. The first group comprised control animals. In the second group the left testes were twisted 720 degrees and the right testes were removed 4 weeks later for histopathological examination. In the third group the rats were subjected to a left detorsion procedure 24 h after torsion, while in the fourth group cortisone treatment was added to the above procedure. The fifth group consisted of rats which had undergone left orchiectomy 24 h after torsion and the sixth group had cortisone treatment plus orchiectomy after torsion. Cortisone treatment was started 24 h after testicular torsion and continued for 4 weeks. Histopathological examination of the contralateral testes which were removed 4 weeks later showed that either orchiectomy plus cortisone or detorsion plus cortisone was more successful than other forms of treatment.     

大鼠一侧睾丸扭转对侧睾丸改变的实验研究

目的 :研究一侧睾丸扭转 (UTT)后对侧睾丸组织学及生精细胞凋亡的改变 ,以明确UTT后对侧睾丸是否存在损伤。　方法 :SD雄性大鼠 6 0只 ,随机分为实验组 (n =4 8)及对照组 (n =12 )。实验组采用Turner方法建立左侧睾丸扭转模型 ,于扭转后 6h处死 4只 ,其余 4 4只再分为扭转睾丸复位及切除组 ,分别于术后 1d、1周、4周处死7～ 8只 ,取睾丸组织进行组织学及生精细胞凋亡的检测。　结果 :UTT复位后对侧睾丸组织学发生明显改变 ,生精细胞凋亡指数明显高于对照组 (P <0 .0 5 )。扭转睾丸切除后对侧睾丸变化不明显。　结论 :UTT可引起对侧睾丸损伤 ,其机制可能与再灌注有关 ,扭转睾丸切除可防止或减轻对侧睾丸的损伤     

Prenatal testicular torsion: Ultrasonographic features, management and histopathological findings

AIM: To highlight the ultrasonographic features of prenatal torsion of the testis in utero (IUTT) at presentation, the neonatal management and the histological findings postorchiectomy or biopsy. METHODS: Seven newborns underwent emergency exploration for IUTT. All patients underwent a sonography and real-time color Doppler ultrasound study of the scrotum before any surgical procedure. A histological examination was performed in the removed specimens. RESULTS: Sonography of the scrotum revealed enlarged, heterogeneous testes. In all cases the color and power Doppler did not reveal any flow signal on the affected side. Four newborn with unilateral testicular torsion underwent orchiectomy and contralateral orchidopexy. In one neonate after detorsion and with the absence of gangrenous changes and a reassuring biopsy, a twisted testis could be treated conservatively with orchidopexy. In another case, the parents, acknowledging the inviability of the affected testis, gave consent only for a biopsy of the testis. In the neonate with bilateral IUTT, bilateral testicular biopsies were performed. Histology of the removed testes variably showed interstitial red cell extravasion and coagulation or hemorrhagic necrosis. Light microscopy of the preserved testis highlighted surviving seminiferous tubules, with gonocytes, spermatogonia and fetal Sertoli cells. CONCLUSIONS: An early diagnosis and treatment in IUTT is essential. Surgical exploration should be always performed through the inguinal route. In bilateral IUTT testes should be left to try to assure, as long as possible, a residual Leydig cell function.     

Unpredictability of capsulotomy in testicular torsion

Testicular torsion results in irreversible histologic changes in the ipsilateral testis, which may induce alterations in contralateral testicular histology and in fertility. It was hypothesized that these ipsilateral changes could be minimized by splitting the tunica albuginea at the time of detorsion, thus decompressing the testicular "closed compartment syndrome." Unilateral spermatic cord torsion was induced in prepubertal, male Sprague Dawley rats for a period of 0, 4, 8, or 12 hours. At the time of detorsion, capsulotomy was performed on half the animals. The mature rats were killed 35 days after detorsion and the testes examined histologically. Testicular capsulotomy did not alter the significant histologic changes observed in the affected testis following spermatic cord torsion.     

Effects of unilateral testicular torsion on the blood flow of contralateral testis--an experimental study on dogs

The effects of unilateral testicular torsion on the blood flow of the contralateral testis were investigated. Fourteen adult male dogs were recruited. Seven dogs underwent unilateral testicular torsion of 4 h duration, and the other seven dogs had a control operation. Testicular blood flow was determined by colour Doppler ultrasonography before and after the testicular torsion. Bilateral orchidectomy was performed at the end of the study and histopathological changes were evaluated. Values of peak systolic velocity, end diastolic velocity, and resistive index were not statistically significant between ipsilateral and contralateral testes in the study group (p > 0.05). On comparison with the control group, blood flow in the contralateral testes showed no statistically significant difference (p > 0.05). Oedema and congestion were seen on ipsilateral testes in the study group. No histopathological changes were noted on the contralateral testes. Minimal oedema and congestion secondary to manipulation were found in the control operation testes. We conclude that unilateral testicular torsion does not decrease contralateral testicular blood flow as shown by colour Doppler ultrasonography.     

Blood perfusion of the contralateral testis evaluated with contrast-enhanced ultrasound in rabbits with unilateral testicular torsion

The changes of blood perfusion of contralateral testis after unilateral testicular torsion remain controversial. In this study, 28 New Zealand white male rabbits were randomly divided into five groups. Group A (n = 8), the control group, underwent a sham operation on the unilateral testis without inducing testicular torsion. In groups B, C, and D (n = 5 each), unilateral testicular torsion was induced, and, after 3, 6 or 24 h, respectively, detorsion was performed. In group E (n = 5), permanent unilateral testicular torsion was applied. Contrast-enhanced ultrasound was used to observe the blood perfusion of the contralateral testis at the following stages: pre-torsion (preopration), immediately post-torsion (postopration), pre-detorsion, immediately post-detorsion, and late-stage post-detorsion (6–12 h post-detorsion in groups B–D) or at a similar time point (15–21 h post-torsion in group E). Time-intensity curves were generated, and the following parameters were derived and analyzed: arrival time, time to peak intensity, peak intensity, and half-time of the descending peak intensity. The analysis revealed that blood perfusion of the contralateral testis increased immediately after testicular torsion on the opposite side (P < 0.05), which increased with prolonged testicular torsion of the other testis. This research demonstrated that contrast-enhanced ultrasound was valuable in evaluating blood perfusion of the contralateral testis after unilateral testicular torsion.     

未成熟大鼠睾丸单侧扭转后对健侧血流和组织学的影响

目的:观察未成熟大鼠睾丸单侧扭转后对健侧睾丸血流供应和组织学的影响,并比较不同处理方法的疗效。方法:建立Wistar3周龄大鼠左侧睾丸扭转模型,分别建立对照组、扭转组、扭转复位组和扭转切除组,每组10只。彩色多普勒测量各组术前、术后8h(即扭转复位或切除术后2h)、12h、24h、72h右侧睾丸动脉收缩期最大血流速度,并于对照组和扭转组术后2h,扭转复位组和扭转切除组第1次术后12h各取2只大鼠右侧睾丸进行组织病理学观察。各组喂养至9周龄时分别取右侧睾丸进行组织学观察及检测各组大鼠右侧睾丸的生精小管直径(STD)、生精上皮细胞计数(CMSE)和睾丸活检评分(TBS)。结果:①未成熟睾丸左侧扭转后,右侧睾丸的血供呈持续性增加。②扭转组、扭转复位组和扭转切除组右侧睾丸均有不同程度的间质水肿和超微结构改变。③9周龄时扭转组、扭转切除组右侧睾丸重量均较对照组显著增加(P<0.01);各组大鼠STD、CMSE、TBS均无显著性差异(P>0.05)。结论:未成熟大鼠睾丸单侧扭转后可引起对侧睾丸的血供增加和组织学改变,轻微损伤后扭转复位和睾丸切除预后效果相似。     

Effect of insulin-like growth factor-1 on apoptosis of rat testicular germ cells induced by testicular torsion

OBJECTIVE: To investigate the possible protective role of insulin-like growth factor-1 (IGF-1, reported to have a protective effect in experimental models of hypoxic ischaemia), and the involvement of apoptotic cell death in a model of torsion/detorsion of the rat testis. MATERIALS AND METHODS: Adult male Wistar rats were divided into five groups of five rats each. Group 1 underwent a sham operation as a control; in group 2 the testis was twisted and in group 3 then untwisted; in group 4 IGF-1 was injected subcutaneously just before bilateral torsion, and then the right testis removed after 4 h and the left after 24 h; in group 5, IGF-1 was injected immediately after bilateral detorsion and then the testes removed as in group 4. Both testicles were examined histologically, with apoptosis detected using the in situ DNA fragmentation (TUNEL) system, with combined enzymology and immunohistochemistry techniques. RESULTS: In groups 2 (torsion) and 3 (detorsion), light microscopy of the testis showed some degenerative changes in the germ cells. Compared to group 1, apoptosis was more significant in group 3 than in the other groups. Group 4 (torsion/IGF-1) had a similar number of apoptotic germ cells as in group 2 (torsion) after 24 h, but fewer than the same group after 4 h. In group 5 (detorsion/IGF-1), apoptosis was reduced by IGF-1 significantly more than in group 3 (P < 0.05). Apoptosis was significantly less in spermatids in group 5 than in group 3 (P < 0.05). CONCLUSIONS: IGF-1 seems to lower the levels of germ cell apoptosis, which may be important for protecting the testes from torsion/detorsion injury. Further clinical studies are needed to evaluate this protective effect in testicular torsion/detorsion.     

Semen quality and endocrine parameters after acute testicular torsion.

Of 16 postpubertal patients evaluated following testicular torsion 9 were treated with detorsion and bilateral orchiopexy (detorsion group), and 7 were treated with ipsilateral orchiectomy and contralateral orchiopexy (orchiectomy group). Each patient was evaluated with regard to semen quality, endocrine parameters (follicle-stimulating hormone, luteinizing hormone and testosterone) and the presence or absence of semen antisperm antibodies. These data were compared to similar data from a group of proved fertile semen donors. The semen quality in the detorsion group did not differ significantly from that of controls (p = 0.25) but follicle-stimulating hormone was significantly elevated compared with that of controls before and after stimulation with gonadotropin-releasing hormone. The orchiectomy group, which had been subjected to prolonged torsion (mean 69 hours), demonstrated a significant decrease in semen quality compared with semen quality in controls (p = 0.001), with average sperm density of only 29.0 million per ml. Baseline and post-stimulation levels of follicle-stimulating hormone in the orchiectomy group were also significantly abnormal when compared with those in controls and in the detorsion group. Our study demonstrates that testicular damage (changes in semen quality and/or endocrine parameters) occurs in the ipsilateral and contralateral testis following torsion, regardless of treatment modality. However, with early intervention by detorsion and testicular salvage, subsequent semen quality is likely to remain within normal limits. Late surgical intervention, even with removal of the nonviable testes, may result in significant impairment of semen quality.     

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.     

Experimental testicular torsion and its effects on the contralateral testicle

Objective Following experimental unilateral torsion of the testis the histologic effects of unilateral testicular torsion on the contralateral testis were investigated. Materials and methods Utilizing detorsion or orchiectomy at 4 hours and 8 hours after torsion, the effects of early and late treatment modalities on the contralateral testicle were observed. Results Morphometry of the contralateral testis revealed some alterations including focal sclerosis, decrease in mean seminiferous tubular diameter and a marked increase of the Leydig cells in some subgroups. Conclusion In spite of some changes, definite evidence for contralateral damage due to ipsilateral torsion contributing to male infertility was hardly observed.     

The preventive effects of thiopental and propofol on testicular ischemia-reperfusion injury

BACKGROUND: Testicular torsion is a urological emergency that requires immediate surgical intervention to prevent testicular damage. The aim of the study was to investigate the preventive effects of thiopental and propofol as anesthetics on testicular ischemia-reperfusion injury. METHODS: Forty male Wistar Albino rats were randomly assigned to four groups of 10 rats each. During 5 h, anesthesia was induced and maintained with thiopental in groups 1 and 2 and with propofol in groups 3 and 4. Groups 2 and 4 received left testicular ischemia (torsion) during 1 h and reperfusion (detorsion) during 4 h. Groups 1 and 3 (control groups) had no testicular torsion and detorsion. At the end of 5 h, animals were killed and both ipsilateral and contralateral testes were removed for histopathologic examination and measurement of tissue MDA (malondialdehyde) and NO (nitric oxide) levels. RESULTS: In the contralateral testes of all the groups, MDA and NO measurements were not different from ipsilateral testes of the control groups. Between the groups 1 and 3, there were no differences in MDA and NO levels. Although torsion/detorsion of testes in group 4 caused significantly increased levels of tissue MDA and NO values compared with group 3, ischemia-reperfusion in group 2 caused a further increase in these levels compared with group 4. The ipsilateral testes in the control groups did not show any morphological changes. Testicular torsion/detorsion in rats with thiopental anesthesia (group 2) caused significantly greater histopathologic injury levels than rats with propofol anesthesia (group 4). CONCLUSION: Our results suggest that propofol as an anesthetic agent may prevent testicular damage by scavenging reactive oxygen and nitrogen species and inhibiting lipid peroxidation in an animal model of testicular torsion and detorsion.     

The protective effect of darbepoetin alfa on experimental testicular torsion and detorsion injury

AIM: Testicular torsion is a serious urological emergency, usually involving newborns, children, and adolescents which can lead to subfertility and infertility. Prevention of testicular damage caused by torsion is still a clinical and experimental problem. So far many chemicals and drugs have been investigated for decreasing ischemia/reperfusion (I/R) injury in experimental animals. The possible protective effect of darbepoetin alfa, a novel erythropoietic protein, on testicular tissue after I/R injury was examined in this study. METHODS: Thirty rats were divided into three groups: sham operation, torsion/detorsion, and torsion/detorsion plus darbepoetin alfa groups. After torsion (2 hours) and detorsion (4 hours), bilateral orchiectomy was performed. Malondialdehyde, nitric oxide and glutathione levels were determined in testicular tissue. RESULTS: Administration of darbepoetin alfa caused a decrease of malondialdehyde and nitric oxide levels and an increase in glutathione levels compared with the torsion/detorsion group. In addition, histological injury scores were significantly decreased in the treatment group more than the torsion/detorsion group. CONCLUSION: The results suggest that darbepoetin alfa may be a potential protective agent for preventing testicular injury caused by testis torsion.     

The significance of measuring the time course of serum malondialdehyde concentration in patients with torsion of the testis

PURPOSE: We determined the time course of malondialdehyde, a measure of free radical damage, in patients undergoing standard surgical treatment for testicular torsion. MATERIALS AND METHODS: Patients presenting with testicular torsion were studied prospectively. Blood samples were obtained after administering general anesthesia but before surgical incision, and 10 minutes, 30 minutes and 24 hours after detorsion. Orchiopexy was performed in patients with viable testes (group 1) and orchiectomy was performed in those with nonviable testes (group 2). Further blood samples were obtained 1 and 3 months after surgery. Similar blood samples were taken from controls, including patients younger than 40 years undergoing other operations involving manipulation of the testis, such as hydrocelectomy or orchiopexy (group 3). The level of malondialdehyde in each serum sample was determined by the thiobarbituric acid reaction. RESULTS: A total of 65 patients were studied, including 56 with testicular torsion and 9 controls (group 3). Of the 56 patients 11 (19.6%) with testicular torsion underwent ipsilateral orchiectomy and contralateral orchiopexy (group 2). The remaining 45 patients (80.4%) underwent bilateral orchiopexy (group 1). However serum malondialdehyde was estimated in only 34 of the 56 patients with torsion. Mean malondialdehyde at 0, 10 and 30 minutes, 24 hours, and 3 and 6 months was 3.3, 3.69, 3.69, 2.9, 2.65 and 2.39 nmol./ml. on the 24 group 1 patients, 3.53, 4.56, 3.87, 2.87, 2.82 and 2.64 nmol./ml. in the 10 group 2 patients, and 3.6, 3.08, 3.18, 2.95, 2.88 and 2.65 nmol./ml. in the 9 group 3 controls, respectively. The highest serum malondialdehyde was at 10 minutes after detorsion in groups 1 and 2. There was a statistically significant difference in malondialdehyde between groups 1 and 2 compared with group 3 at 10 minutes (p <0.04). Serum malondialdehyde returned to baseline at 24 hours in all patients. CONCLUSIONS: The results of this study indicate that testicular torsion and its treatment with detorsion is an example of ischemia-reperfusion injury, producing measurable changes in malondialdehyde in humans. Thus, serum malondialdehyde could be used to determine the extent of injury.     

Dehydroepiandrosterone treatment attenuates reperfusion injury after testicular torsion and detorsion in rats

Purpose

We aimed to evaluate the effects of dehydroepiandrosterone (DHEA) on antioxidant enzyme activities, lipid peroxidation, and histopathologic changes in both testes after unilateral testicular torsion and detorsion.

Methods

Twenty-four adult male Sprague-Dawley rats were randomly divided into 4 groups (n = 6 for each group): sham operation, torsion/detorsion (T/D), T/D + vehicle, and T/D + DHEA. Three hours before detorsion, 50 mg/kg DHEA was given intraperitoneally to the T/D + DHEA group. Testicular ischemia was achieved by twisting the left testis 720° clockwise for 3 hours, and reperfusion was allowed for 24 hours after detorsion. In all groups, bilateral orchiectomies to determine the testicular tissue catalase (CAT) and superoxide dismutase activities and malondialdehyde (MDA) levels and histopathologic examination were performed.

Results

Compared with those from the sham group, CAT activities in the ipsilateral testis obtained from the T/D group were significantly lower and MDA levels were significantly higher (P < .05 for all).Administration of DHEA prevented increases in MDA levels and decreases in CAT and superoxide dismutase activities when compared to the T/D group. Specimens from the T/D and the T/D + vehicle groups had a significantly greater histologic injury than the specimens from the sham and the T/D + DHEA groups had (P < .01 for both).

Conclusions

The results suggest that DHEA may be a protective agent for preventing biochemical and histopathologic changes related to oxidative stress in testicular injury caused by testis torsion.