nach oben

Pediatric Surgery International

Erschienen in:

01.04.2014 | Original Article

Does gradual detorsion protect the ovary against ischemia–reperfusion injury in rats?

verfasst von: Sezen Ozkisacik, Mesut Yazici, Harun Gursoy, Nil Culhaci

Erschienen in: Pediatric Surgery International | Ausgabe 4/2014

Einloggen, um Zugang zu erhalten

Abstract

Aim

Adnexal torsion is an infrequent and serious gynecologic surgical emergency. Adnexal torsion may result from pre-existing tubal or ovarian pathology or hyperstimulation of the ovary during ovulation. Early diagnosis and emergency surgical treatment (detorsion) are important to preserve fertility and to prevent peritonitis or loss of the adnexa. However, during reperfusion, tissue damage is more severe than during ischemia because of oxygen-derived radicals. The present study aimed to investigate the protective effect of gradual detorsion on adnexal torsion.

Materials and methods

Twenty-one adult female rats were divided into three groups as sham-operated (Sh group, n = 7); torsion + detorsion (TD group, n = 7); and torsion + gradual detorsion (TGD group, n = 7). A midline laparotomy was performed under anesthesia. In the TD and TGD groups, the left adnexa along with tubal and ovarian vessels were twisted three times in a clockwise direction and fixed to the abdominal wall. After 30 h, detorsion was performed on the mesenteries of both TD and TGD groups. In the TGD group, however, detorsion was performed gradually: the ovarian mesentery was detorsioned 360°, followed by a 5-min pause, then a repeat of the cycle until full detorsion was achieved. Rats were killed 1 week later. Left ovaries were removed and evaluated histopathologically.

Results

The histopathological mean grade was significantly higher in the TD than in the TGD group (p < 0.05).

Conclusion

Gradual detorsion can reduce reperfusion injury in a rat model of ovarian torsion. This method is easily applicable and may be a useful method for human patients with ovarian torsion.

Meyer JS, Harmon CM, Harty MP et al (1995) Ovarian torsion: clinical and imaging presentation in children. J Pediatr Surg 30:1433–1436PubMedCrossRef

Taskin O, Birincioglu M, Aydin A et al (1998) The effects of twisted ischaemic adnexa managed by detorsion on ovarian viability and histology: an ischaemia–reperfusion rodent model. Hum Reprod 13:2823–2827PubMedCrossRef

Bayer AI, Wiskind AK (1994) Adnexal torsion: can the adnexa be saved? Am J Obstet Gynecol 171:1506–1511PubMedCrossRef

Celik O, Turkoz Y, Hascalik S et al (2004) The protective effect of caffeic acid phenethyl ester on ischemia–reperfusion injury in rat ovary. Eur J Obstet Gynecol Reprod Biol 117:183–188PubMedCrossRef

Filho DW, Torres MA, Bordin AL et al (2004) Spermatic cord torsion, reactive oxygen and nitrogen species and ischemia–reperfusion injury. Mol Aspects Med 25:199–210PubMedCrossRef

Akgür FM, Kilinç K, Aktuğ T (1993) Reperfusion injury after detorsion of unilateral testicular torsion. Urol Res 21:395–399PubMedCrossRef

Liu X, Chen H, Zhan B et al (2007) Attenuation of reperfusion injury by renal ischemic postconditioning: the role of NO. Biochem Biophys Res Commun 359:628–634PubMedCrossRef

Chen M, Chen CD, Yang YS (2001) Torsion of the previously normal uterine adnexa. Evaluation of the correlation between the pathological changes and the clinical characteristics. Acta Obstet Gynecol Scand 80:58–61PubMed

Shalev J, Mashiach R, Bar-Hava I et al (2001) Subtorsion of the ovary: sonographic features and clinical management. J Ultrasound Med 20:849–854PubMed

10.

Kumtepe Y, Odabasoglu F, Karaca M et al (2010) Protective effects of telmisartan on ischemia/reperfusion injury of rat ovary: biochemical and histopathologic evaluation. Fertil Steril 93:1299–1307PubMedCrossRef

11.

Jefayri MK, Grace PA, Mathie RT (2000) Attenuation of reperfusion injury by renal ischaemic preconditioning: the role of nitric oxide. BJU Int 85:1007–1013PubMedCrossRef

12.

Ozmen S, Ayhan S, Demir Y et al (2008) Impact of gradual blood flow increase on ischaemia–reperfusion injury in the rat cremaster microcirculation model. J Plast Reconstr Aesthet Surg 61:939–948PubMedCrossRef

13.

Aguilar A, Alvarez-Vijande R, Capdevila S et al (2007) Antioxidant patterns (superoxide dismutase, glutathione reductase, and glutathione peroxidase) in kidneys from non-heart-beating-donors: experimental study. Transpl Proc 39:249–252CrossRef

14.

Pryor RA, Wiczyk HP, O’Shea DL (1995) Adnexal infarction after conservative surgical management of torsion of a hyperstimulated ovary. Fertil Steril 63:1344–1346PubMed

15.

Sahin FK, Cosar E, Koken G et al (2008) Protective effect of aprotinin on ischemia–reperfusion injury in rat ovary. J Obstet Gynaecol Res 34:794–800PubMedCrossRef

16.

Turner TT, Brown KJ (1993) Spermatic cord torsion: loss of spermatogenesis despite return of blood flow. Biol Reprod 49:401–407PubMedCrossRef

17.

Akçora B, Altuğ ME, Balci A et al (2008) Gradual detorsion of torsioned rat testis attenuates ischemia reperfusion injury. J Pediatr Surg 43:1879–1884PubMedCrossRef

Titel: Does gradual detorsion protect the ovary against ischemia–reperfusion injury in rats?
verfasst von: Sezen Ozkisacik
Mesut Yazici
Harun Gursoy
Nil Culhaci
Publikationsdatum: 01.04.2014
Verlag: Springer Berlin Heidelberg
Erschienen in: Pediatric Surgery International / Ausgabe 4/2014
Print ISSN: 0179-0358
Elektronische ISSN: 1437-9813
DOI: https://doi.org/10.1007/s00383-014-3480-3

Update Pädiatrie

Bestellen Sie unseren Fach-Newsletter und bleiben Sie gut informiert.

Newsletter bestellen

Springer Medizin

Does gradual detorsion protect the ovary against ischemia–reperfusion injury in rats?

Abstract