Effects of electromagnetic radiation from a cellular phone on human sperm motility: an in vitro study.

BACKGROUND: There has been growing public concern on the effects of electromagnetic radiation (EMR) emitted by cellular phones on human health. Many studies have recently been published on this topic. However, possible consequences of the cellular phone usage on human sperm parameters have not been investigated adequately. METHODS: A total number of 27 males were enrolled in the study. The semen sample obtained from each participant was divided equally into two parts. One of the specimens was exposed to EMR emitted by an activated 900 MHz cellular phone, whereas the other was not. The concentration and motility of the specimens were compared to analyze the effects of EMR. Assessment of sperm movement in all specimens was performed using four criteria: (A) rapid progressive, (B) slow progressive, (C) nonprogressive, (D) no motility. RESULTS: Statistically significant changes were observed in the rapid progressive, slow progressive and no-motility categories of sperm movement. EMR exposure caused a subtle decrease in the rapid progressive and slow progressive sperm movement. It also caused an increase in the no-motility category of sperm movement. There was no statistically significant difference in the sperm concentration between two groups. CONCLUSIONS: These data suggest that EMR emitted by cellular phone influences human sperm motility. In addition to these acute adverse effects of EMR on sperm motility, long-term EMR exposure may lead to behavioral or structural changes of the male germ cell. These effects may be observed later in life, and they are to be investigated more seriously.

Vascular anatomy of normal and undescended testes: surgical assessment of anastomotic channels between testicular and deferential arteries.

OBJECTIVES: To demonstrate the vascular anatomy of the normal and undescended testes, emphasizing the surgical importance of the anastomotic channels between the testicular and deferential arteries in the undescended testis. METHODS: This study was performed on four normal testes obtained from adult cadavers and the undescended testes taken from men undergoing unilateral orchiectomy. To show the arteries and their connections, we used the injection-corrosion casting technique. RESULTS: The normal and undescended testes measured 36.3 +/- 9.2 mm x 21.2 +/- 4.3 mm x 14.3 +/- 5.4 mm and 19 x 16 x 9 mm, respectively. The testis and epididymis had an unusual shape in the undescended testes. The undescended testes were round, with a semilunar epididymis that was over the testis. All the testes, including the undescended testes, had testicular, deferential, and cremasteric arteries. The testicular, deferential, and cremasteric arterial diameter was 1.7 +/- 0.4, 1.1 +/- 0.3, and 0.5 +/- 0.3 mm in the normal testes and 1.5, 0.7, and 0.6 mm in the undescended testes, respectively. Communication among the three arteries was illustrated consistently by retrograde filling of the two noninjected arteries. Clearly visible anastomotic channels were present between the testicular and deferential arteries in the normal and undescended testes. CONCLUSIONS: We suggest that the original Fowler and Stephans concept (high ligation of the testicular artery) is valid to preserve vascularity to the testis when vascular transection orchiopexy is performed, although the number of our specimens was not enough to prove this definitively.