Effect of time since vasectomy on live birth rate of TESE‒ICSI egg donation cycles and male-related prognostic factors.

BACKGROUND: Vasectomy is a widely used method of contraception. However, some men may have the desire to become biological fathers again after a period. OBJECTIVE: To explore the effect of time since vasectomy and different male comorbidities on live birth rates from intracytoplasmic sperm injection cycles using donated oocytes by using testicular spermatozoa obtained by testicular sperm extraction. MATERIALS AND METHODS: This was a retrospective study of 123 couples who underwent a testicular sperm extraction‒intracytoplasmic sperm injection cycle after vasectomy using donated oocytes. Subjects were divided into groups according to time since vasectomy and the male risk factor evaluated. The main outcomes measured were live birth rate per embryo transfer, per oocyte donation cycle, and per couple. We assessed the cumulative live birth rate according to the time since vasectomy and considered male comorbidities: body mass index, hypertension, diabetes mellitus, dyslipidemia, and smoking. RESULTS: The overall live birth rate per couple was 59.3% (50.6-68.0). Considering the number of embryo transfer and oocyte donation cycle, the live birth rates were 34.1% (27.8-40.4) and 44.5% (36.9-52.1), respectively. The live birth rate according to time since vasectomy was not statistically different between groups. Consequently, the cumulative live birth rate was similar between the different interval times when considering one to eight embryo transfers (p = 0.74). No statistical differences in live birth rate and cumulative live birth rate were found between groups clustered according to male body mass index, smoking, hypertension, and dyslipidemia. However, diabetic male patients had a significantly lower rate of live birth rate per couple (22.2% [4.94-49.4]) than non-diabetic patients did (62.7% [53.7-71.8]) (p = 0.03), but not in their cumulative live birth rate. CONCLUSIONS: The time since vasectomy seems to have no detrimental effects on the live birth rate and cumulative live birth rate in testicular sperm extraction‒intracytoplasmic sperm injection cycles with donated oocytes. Male diabetes negatively affects the overall live birth rate per couple, but not the cumulative live birth rate. These results could be useful for multidisciplinary patient-tailored counseling, regarding the chance of having a pregnancy and facilitating the decision-making process of the fertility specialists.

[SARS-CoV-2 infection: implications for sexual and reproductive health. A position statement of the Asociación Española de Andrología, Medicina Sexual y Reproductiva (ASESA)]. / Infección por SARS-CoV-2: implicaciones para la salud sexual y reproductiva. Una declaración de posición de la Asociación Española de Andrología, Medicina Sexual y Reproductiva (ASESA).

OBJECTIVE: The main objective of this revision is to summarize the current existing evidence of the potential adverse effects of SARS-CoV-2 on the male reproductive system and provide the recommendations of the Asociación Española de Andrología, Medicina Sexual y Reproductiva (ASESA) concerning the implications of COVID-19 infection in the management of male infertilty patients and testicular endocrine dysfunction. METHODS: A comprehensive systematic literature search of the databases of PubMed, Web of Science, Embase, Medline, Cochrane and MedRxiv, was carried out. RESULTS: The presence of orchitis as a potential complication of the infection by SARS-CoV-2 has not yet been confirmed. One study reported that 19% of males with COVID-19 infection had scrotal symptoms suggestive of viral orchitis which could not be confirmed. It is possible that the virus, rather than infecting the testes directly, may induce a secondary autoimmune response leading to autoimmune orchitis. COVID-19 has been associated with coagulation disorders and thus the orchitis could be the result of segmental vasculitis. Existing data concerning the presence of the virus in semen are contradictory. Only one study reported the presence of RNA in 15.8% of patients with COVID-19. However, the presence of nucleic acid or antigen in semen is not synonyms of viral replication capacity and infectivity. It has been reported an increase in serum levels of LH in males with COVID-19 and a significant reduction in the T/LH and FSH/LH ratios, consistent with subclinical hypogonadism. CONCLUSIONS: The findings of recent reports related to the potential effects of COVID-19 infection on the male reproductive system are based on poorly designed, small sample size studies that provide inconclusive, contradictory results. Since there still exists a theoretical possibility of testicular damage and male infertilty as a result of the infection by COVID-19, males of reproductive age should be evaluated for gonadal function and semen analysis. With regard to the sexual transmission of the virus, there is not sufficient evidence to recommend asymptomatic couples to abstein from having sex in order to protect themselves from being infected by the virus. Additional studies are needed to understand the long-term effects of SARS-CoV-2 on male reproductive function, including male fertility potential and endocrine testicular function.

[Testosterone deficit syndrome and erectile dysfunction]. / Síndrome de déficit de testosterona y disfunción eréctil.

OBJECTIVES: To analyze the relationship between testosterone deficit syndrome (TDS)and erectile dysfunction and its diagnostic and therapeutic implications. METHODS: Bibliographic review in the Pub Med database of the US National Library of Medicine RESULTS: The real TDS is unknown, due to the lack of uniform diagnostic criteria on what fraction should be measured (total, free or bioavailable) and what the diagnostic values are. Despite this fact, it is estimated that between 5-15% of males with erectile dysfunction show diminished testosterone levels. There is a solid research base demonstrating that testosterone plays an essential role in the physiology of erection, both at central and peripheral levels. Nevertheless, evidence obtained in human studies is not that strong, mainly in old patients with TDS. The results of some metaanalysis show that substitutive treatment with testosterone improves erections and sexual desire. However, not every patient with TDS will benefit from testosterone substitution therapy, probably because in some cases the origin of erectile dysfunction is multifactorial. Combined treatment with testosterone plus phosphodiesterase 5 (PDE 5)seems to be an adequate alternative to rescue patients with erectile dysfunction and hypogonadism not responding to monotherapy, be it with testosterone alone or PDE 5 inhibitors alone. CONCLUSIONS: Systematic determination of serum testosterone in patients consulting for erectile dysfunction is highly recommendable, because testosterone substitution therapy enables, in a number of patients, improvement of erections and sexual desire. Moreover, testosterone substitution therapy may improve the other symptoms of TDS and increase the efficacy of PDE5 inhibitors when they are not effective in monotherapy.

[Hormonal etiology in erectile dysfunction]. / Disfunción eréctil de origen hormonal.

The proper function of erection mechanisms depend on correct interrelationship between psychological, vascular, neurological and hormonal factors. Endocrine diseases affect sexual function, and sexual dysfunction may be one of the symptoms of some hormonal anomalies. Diabetes mellitus is the endocrine disease most frequently causing erectile dysfunction due to the frequent vascular and neurological complications associated. It is important to determine blood glucose in the initial evaluation of a male with erectile dysfunction, as well as to try an adequate control of blood glucose levels to avoid worsening. Diabetic male erectile dysfunction is multifactorial, more severe and has worse response to oral treatment. Hyperprolactinemia causes disorders of the sexual sphere because it produces a descent of testosterone. In these cases, sexual symptoms are treated by correcting the levels of prolactin. Routine determination of prolactin is not clear and it seems it should be determined when testosterone levels are diminished. Thyroid hormone disorders (both hyper and hypotyroidism) are associated with erectile dysfunction, which will subside in half the patients with thyroid hormone normalization. The role of adrenal hormones in erectile function is not clear and their routine determination is not considered in the diagnostic evaluation of erectile dysfunction. The role of estradiol in the regulation of the erection mechanism is not well known either, although it is known that high levels may cause erectile dysfunction. Among endocrine-metabolic disorders we point out dyslipemias, with hypercholesterolemia as an important risk factor for erectile dysfunction and, though its correction may prevent vascular system deterioration, the role of statins in erectile dysfunction is not clear.