OBJECTIVE
To assess testicular rupture, scrotal haematoma, penile fracture and penile injury, comparing the prognoses of surgery and conservative management, as trauma to male external genital organs can cause devastating effects on patients and their partners.
PATIENTS AND METHODS
We reviewed the medical records of 156 male patients who presented to our emergency centre with trauma to the external genital organs between January 1996 and March 2006.
RESULTS
In all, 74 patients had testicular rupture, 32 penile fracture, 26 a penile injury and 24 a scrotal haematoma (mean age 27.8 years). The main cause of trauma was assault (52, 33%). Four of 14 patients with penile trauma who were managed conservatively had complications. Of 20 patients, 17 had a partial orchidectomy and were followed for a month after surgery; scrotal ultrasonography showed three cases of testicular atrophy. The mean hospital stay was less for patients with surgical intervention, at 6.4 days, than for those managed conservatively, at 8.7 days (P < 0.05). A visual analogue pain scale showed less pain in patients who were surgically treated (P < 0.05).
CONCLUSION
Prompt surgical intervention is crucial; it should be considered by urologists, and is strongly recommended. Ultrasonography was highly sensitive and specific, and should be used in all patients with trauma to the external genital organs, to aid diagnosis and evaluation before surgery.
Recently, a significant understanding of the molecular mechanisms regulating spermatogenesis has been achieved utilizing small RNA molecules (small RNAs), including small interfering RNAs (siRNAs), microRNAs (miRNAs), and Piwi-interacting RNAs (piRNAs) which emerged as important regulators of gene expression at the post-transcriptional or translation level. piRNAs are only present in pachytene spermatocytes and round spermatids, whereas miRNAs are expressed abundantly in male germ cells throughout spermatogenesis. This review is aimed at providing a glimpse of piRNAs and their interacting family proteins such as PIWIL1, PIWIL2, and PIWIL4 in spermatogenesis.
The effect of infertility on the psychological well-being of couples has been the subject of increasing attention in recent years. The frustration of couples of a relatively young age (ie, in their fourth decades) provokes not only anxiety and depression but also negative effects on the relationships. The objective of this study was to evaluate the effect of a diagnosis of male infertility on anxiety and depression in the men themselves and in fertile female spouses. The prospective cross-sectional study consisted of 264 participants, 72 males diagnosed with nonobstructive azoospermia (NOA) and their fertile spouses and 60 fertile couples attending our university between January 1, 2009, and April 30, 2010. The Beck Anxiety Inventory, Beck Depression Inventory (BDI), and hormone levels were measured during initial and follow-up visits. In NOA men, follicle-stimulating hormone and luteinizing hormone were positively associated with anxiety, in contrast to testosterone, which was inversely associated with anxiety. After the diagnosis of NOA, producing no testicular sperm, the panic intensity among men increased significantly, whereas their spouses exhibited less panic. By contrast, fertile female partners of NOA men reported higher BDI scores after the initial diagnosis of azoospermia, whereas their partners recorded higher levels of depression after the absence of testicular sperm was discovered. Insomnia was the most common complaint for both sexes after the diagnosis of azoospermia. Hormonal abnormalities had a negative effect on the quality of life. Physicians and clinicians should acknowledge the immense psychosocial effect of the diagnosis of male infertility on both males and their fertile female partners.
E 2 2 7What ' s known on the subject? and What does the study add? It is known that timed intercourse that is planned to coincide with ovulation causes stress in women. In men premature ejaculation is more common than delayed ejaculation.
Microdeletion of the Azoospermia Factor (AZF) regions in Y chromosome is a well-known genetic cause of male infertility resulting from spermatogenetic impairment. However, the partial deletions of AZFc region related to spermatogenetic impairment are controversial. In this study, we characterized partial deletion of AZFc region in Korean patients with spermatogenetic impairment and assessed whether the DAZ and CDY1 contributes to the phenotype in patients with gr/gr deletions. Total of 377 patients with azoo-/oligozoospermia and 217controls were analyzed using multiplex polymerase chain reaction (PCR), analysis of DAZ-CDY1 sequence family variants (SFVs), and quantitative fluorescent (QF)-PCR. Of the 377 men with impaired spermatogenesis, 59 cases (15.6%) had partial AZFc deletions, including 32 gr/gr (8.5%), 22 b2/b3 (5.8%), four b1/b3 (1.1%) and one b3/b4 (0.3%) deletion. In comparison, 14 of 217 normozoospermic controls (6.5%) had partial AZFc deletions, including five gr/gr (2.3%) and nine b2/b3 (4.1%) deletions. The frequency of gr/gr deletions was significantly higher in the azoo-/oligozoospermic group than in the normozoospermic control group (p = 0.003; OR = 3.933; 95% CI = 1.509–10.250). Concerning Y haplogroup, we observed no significant differences in the frequency of gr/gr deletions between the case and the control groups in the YAP+ lineages, while gr/gr deletion were significantly higher in azoo-/oligozoospermia than normozoospermia in the YAP− lineage (p = 0.004; OR = 6.341; 95% CI = 1.472–27.312). Our data suggested that gr/gr deletion is associated with impaired spermatogenesis in Koreans with YAP− lineage, regardless of the gr/gr subtypes.
Most couples with severe male factor infertility are treated with assisted reproduction technology and little has been known about the prognosis of severe male factor infertility itself. We investigated the prognosis of infertile male patients with severe oligozoospermia. Thirty-nine patients with severe nonobstructive oligozoospermia were followed more than 6 months without any medical or surgical intervention. Retrospective analyses of the natural sequence of the condition and influences on the future fertility potential of the study participants were conducted. Sperm concentration, motility, and morphology between first semen analysis and last semen analysis were not significantly different. However, during the follow-up period, 5 (12.8%) patients became azoospermic. In 7 (17.9%) patients, the sperm count declined to a severe level that could be detected only after centrifugation. Three patients underwent microdissection testicular sperm extraction (TESE) for sperm retrieval after confirmation of azoospermia. The sperm retrieval was successful only in 1 of the 3 patients. Therefore, male patients diagnosed with severe oligozoospermia should be informed about possible aggravation of their residual spermatogenesis function and the necessity of intermittent follow-up semen analyses. If follow-up semen tests show a declining tendency, sperm cryopreservation may be recommended for these patients. If azoospermia develops during the follow-up period, early TESE procedure should be considered to improve the chance of sperm retrieval.
This study provides objective evidence that patients with MI have a higher degree of anxiety than those with pure SUI. Therefore, we suggest that doctors should pay more attention to anxiety symptoms when caring for patients with MI.
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