Do experimentally induced ipsilateral testicular torsion, vas deferens obstruction, intra‐abdominal testis or venous obstruction damage the contralateral testis through a common mechanism?

Objective To evaluate if various conditions affecting the ipsilateral testis which also damage the contralateral testis share a common pathway for their effects.

[1]  Tanyel,et al.  Noradrenaline and nitrite‐nitrate concentrations in the contralateral testes during ipsilateral spermatic cord torsion in the presence or absence of a testis and epididymis , 1999, BJU International.

[2]  F. Tanyel,et al.  DNA Flow Cytometry Reveals Depressed Spermatogenetic Activity in the Contralateral Testis within 24 h of Ipsilateral Spermatic Cord Torsion Independently of the Presence of the Testis and Epididymis , 1998, European Urology.

[3]  N. Büyükpamukçu,et al.  The effects of vasodilatation and chemical sympathectomy on spermatogenesis after unilateral testicular torsion: a flow cytometric DNA analysis. , 1998, British journal of urology.

[4]  M. Mutlu,et al.  Hemodynamic Monitoring of the Contralateral Testis during Unilateral Testicular Torsion Describes the Mechanism of Damage , 1998, European Urology.

[5]  O. Ichiyanagi,et al.  Assessment of testicular function in experimental varicocele rats by phosphorus-31 magnetic resonance spectroscopy , 1998, Urological Research.

[6]  A. Zini,et al.  Cu/Zn superoxide dismutase, catalase and glutathione peroxidase mRNA expression in the rat testis after surgical cryptorchidism and efferent duct ligation. , 1997, The Journal of urology.

[7]  N. Büyükpamukçu,et al.  Tissue hypoxia in ipsilateral and contralateral testes undergoing surgically induced maldescent. , 1996, European journal of pediatric surgery : official journal of Austrian Association of Pediatric Surgery ... [et al] = Zeitschrift fur Kinderchirurgie.

[8]  A. Gross,et al.  The influence of temperature on changes in pH, lactate and morphology during testicular ischaemia. , 1996, British journal of urology.

[9]  G. Gedıkoğlu,et al.  The effects of chemical sympathectomy on contralateral testicular histology, fertility and fecundity in unilateral abdominal testes. , 1996, British journal of urology.

[10]  K. Miyake,et al.  The incidence of antisperm antibodies in patients with seminal tract obstructions. , 1996, Nagoya journal of medical science.

[11]  T. Matsuda,et al.  Quantitative analysis of testicular histology in patients with vas deferens obstruction caused by childhood inguinal herniorrhaphy: comparison to vasectomized men. , 1996, The Journal of urology.

[12]  G. Gedıkoğlu,et al.  Subsequent biological effects of chemical sympathectomy in rats undergoing unilateral testicular torsion. , 1995, European urology.

[13]  N. Büyükpamukçu,et al.  The preventive role of chemical sympathectomy on contralateral testicular hypoxic parameters encountered during unilateral testicular torsion. , 1994, British journal of urology.

[14]  F. Akgür,et al.  Ipsilateral and contralateral testicular biochemical acute changes after unilateral testicular torsion and detorsion. , 1994, Urology.

[15]  M. T. Chen,et al.  Decreased blood flow and defective energy metabolism in the varicocele-bearing testicles of rats. , 1994, European urology.

[16]  K. Bandhauer,et al.  Testicular dysplasia causing disturbance of spermiogenesis in patients with unilateral torsion of the testis. , 1992, Urologia internationalis.

[17]  A. Ayhan,et al.  Subsequent testicular histology: fertility and fecundity of rats subjected to unilateral incarcerated inguinal hernia during the prepubertal period. , 1991, Journal of pediatric surgery.

[18]  H. Takihara,et al.  Pathogenesis of Varicocele: Experimental Study Using Flow Cytometric DNA Analysis: Zur Pathogenese der Varikocele: Experimentelle Studie unter Verwendung der Flow‐Cytometrie‐DNA‐Analyse , 2009, Andrologia.

[19]  T. Turner,et al.  Testicular blood flow in peripubertal and older rats with unilateral experimental varicocele and investigation into the mechanism of the bilateral response to the unilateral lesion. , 1990, The Journal of urology.

[20]  N. Buyukpamukcu,et al.  The fate of testes following unilateral incarcerated inguinal hernia in adult rats. , 1989, British journal of urology.

[21]  N. Büyükpamukçu,et al.  Contralateral testicular blood flow during unilateral testicular torsion. , 1989, British journal of urology.

[22]  O. Saugstad Hypoxanthine as an Indicator of Hypoxia: Its Role in Health and Disease through Free Radical Production , 1988, Pediatric Research.

[23]  B. A. Madarikan Testicular salvage following spermatic cord torsion. , 1987, Journal of pediatric surgery.

[24]  A. Bergh,et al.  Testicular blood flow, vascular permeability, and testosterone production after stimulation of unilaterally cryptorchid adult rats with human chorionic gonadotropin. , 1985, Endocrinology.

[25]  J. Smart,et al.  Testicular torsion does not cause autoimmunization in man , 1985, The British journal of surgery.

[26]  A. Hikim,et al.  Quantitative evaluation of testicular biopsies from men with unilateral torsion of spermatic cord. , 1985, Urology.

[27]  J. Roberts,et al.  Testicular blood flow and fluid dynamics in monkeys with surgically induced varicoceles. , 1983, Journal of andrology.

[28]  G. Bartsch,et al.  Testicular torsion: late results with special regard to fertility and endocrine function. , 1980, The Journal of urology.

[29]  T. Krarup,et al.  The testes after torsion. , 1978, British journal of urology.