The COVID-19 pandemic is an unprecedented global situation. As assisted reproductive technology (ART) specialists, we should be cautious, carefully monitoring the situation while contributing by sharing novel evidence to counsel our patients, both pregnant women and would-be mothers. Time to egg collection and drop-out rates are critical parameters for scheduling treatments once the curve of infections has peaked and plateaued in each country. In order to reduce the values for these two parameters, infertile patients now require even more support from their IVF team: urgent oocyte collection for oncology patients must be guaranteed, and oocyte retrievals for women of advanced maternal age and/or reduced ovarian reserve cannot be postponed indefinitely. This document represents the position of the Italian Society of Fertility and Sterility and Reproductive Medicine (SIFES-MR) in outlining ART priorities during and after this emergency.
In spite of the availability of abundant data about in vitro spermatogenesis in laboratory animals, studies on human in vitro spermatogenesis are scarce. This study employed a relatively simple culture system, involving all cell types of seminiferous tubules, to analyze the effects of FSH and testosterone (T) on different characteristics of human germ and Sertoli cells in culture. By using fluorescence in-situ hybridization, we show that in vitro reduction of germ cell ploidy can be stimulated by FSH but not by T. FSH, but not T, also induced unexpectedly rapid (24-48 h) morphological changes resembling spermiogenesis, although individual changes (spermatid nucleus condensation and protrusion, cell body elongation, and flagellar growth) proceeded in an uncoordinated way and mostly resulted in the development of abnormal forms of elongated spermatids. Though ineffective alone, T potentiated the effects of FSH on meiosis and spermiogenesis. These effects of T were probably caused by the prevention of Sertoli cell apoptosis, an effect that could not be mimicked by FSH. These data show that, in the presence of high concentrations of FSH and T, human spermatogenesis can proceed in vitro with an unusual speed, but the resulting gametes are morphologically abnormal. The potential practical relevance of these findings to assisted reproduction remains to be assessed.
The aim of the study was to evaluate the influence of insulin level on the ovarian response to FSH when inducing ovulation in patients affected by polycystic ovarian syndrome (PCOS). To evaluate the presence of hyperinsulinemia, 34 patients affected by PCOS were studied by an oral glucose tolerance test, then patients were stimulated for 52 cycles using FSH to induce ovulation. The ovarian response to therapy was evaluated by ultrasounds and as estradiol (E 2 ) and androstenedione (A) plasma level determinations. On the basis of the insulinemic response to the glucose challenge, 20 patients were considered to be hyperinsulinemic and 14 normoinsulinemic. The hormonal features of each group were similar. The ovulation rate was similar in hyperinsulinemic and normoinsulinemic subjects, whereas the incidence of ovarian hyperstimulation was significantly higher in the hyperinsulinemic group. The increase in ovarian dimensions observed in hyperinsulinemic subjects after gonadotropin stimulation was more marked than that observed in normoinsulinemic ones. This was caused by the development of a larger number of immature follicles. E 2 levels gradually increased after gonadotropin stimulation in both groups of subjects; however, higher levels were observed in hyperinsulinemic patients. During stimulation, the higher E 2 /A ratio suggests the presence of a greater aromatization activity in hyperinsulinemic patients. In conclusion, the present study suggests that, in PCOS, the insulinemic pattern may influence the ovarian response to gonadotropin administration; thus, hyperinsulinemic subjects may be at greater risk of ovarian hyperstimulation syndrome than normoinsulinemic subjects. (J Clin Endocrinol Metab 82: 644 -648, 1997) P OLYCYSTIC ovarian syndrome (PCOS) is a heterogeneous clinical condition characterized by irregular menstrual cycles, acne, hirsutism, and endocrine abnormalities such as hyperandrogenism and inappropriate LH secretion (1). Moreover, hyperinsulinemia and insulin resistance, independent of obesity, have been recognized recently in a large number of PCOS subjects (2, 3). This metabolic alteration may play a role in the pathophysiology of the syndrome (4). In vitro studies have shown that insulin increases basal and LH-mediated androgen production by ovarian thecal-stromal cells (5). On the other hand, several recent data demonstrated that insulin and other growth factors could modulate granulosa cell steroidogenesis and follicular development in human ovaries (6). The treatment of infertility caused by chronic anovulation in patients with PCOS is still an open issue. Exogenous gonadotropin administration for the induction of ovulation, although resulting in a pregnancy rate ranging from 20 -40%, involves an increased risk of ovarian hyperstimulation syndrome (OHSS) in such patients (7). In spite of the great number of papers published, the relationships between circulating insulin levels, follicular growth, and ovarian hormone secretion have not yet been clarified. The aim of this study was ...
In-vitro differentiation of spermatogenic cells is a potential approach to the treatment of male sterility due to spermatogenic arrest. This is a pilot study evaluating meiotic, morphogenetic and cytoplasmic maturation of spermatogenic cells from 18 patients with obstructive azoospermia, during in-vitro culture of partly disintegrated testicular biopsy samples in the presence or absence of recombinant follicle stimulating hormone (rFSH). Meiotic progression was detectable only in the presence of rFSH in culture medium. FSH-dependent condensation, peripheral migration and protrusion of spermatid nuclei, together with FSH-independent flagellar growth, were the main events indicating post-meiotic sperm cell differentiation. rFSH also promoted the progression of spermatid cytoplasmic maturation, reflected by acceleration of acrosomal development. These differentiation events appeared to be mediated by humoral activity of Sertoli cells, without the need for a direct Sertoli-sperm cell contact. These findings provide a background for similar studies in patients with non-obstructive azoospermia. If reproducible in the latter group, transmeiotic in-vitro differentiation of primary spermatocytes may be useful in cases of complete maturation arrest, whereas the development of culture-specific forms may help select viable spermatids in cases of complete spermiogenesis failure.
Our data confirm that the prevalence of SCH is increased in PCOS women. The presence of SCH is associated with endocrine and metabolic imbalances of PCOS, and the excessive body weight seems to promote this interplay.
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