Forensic Sciences ; Hormones ; pharmacology ; physiology ; Humans ; Sports

OBJECTIVESTo evaluate the effects of 19-nortestosterone (NT) on the growth and development of the ventral prostate (VP), epididymis, and seminal vesicles (SV) in hypogonadal (hpg) mice.

METHODSThe silastic tube filled with NT was implanted subdermally into mature hpg mice (n = 7) for five weeks. Similar silastic tubes without NT were implanted into both of hpg mouse control group (n = 7) and normal mouse group (n = 10) instead. The weights of sex accessory glands and the branch tip number of VP from all mice were evaluated.

RESULTSThe weights of VP, SV, and epididymis in NT treated hpg group were significantly higher than those of hpg control group (P < 0.005); and the branching morphology of the VP showed a tendency to be normal and the development of prostate ductal tip was improved significantly. Especially, the weight of SV in NT treated hpg mice was equal to that of normal mice, while the weights of VP, epididymis and branching tip number in NT treated hpg group was still significantly lower than that of normal mice (P < 0.005).

CONCLUSIONSThe NT treatment significantly stimulates the growth and development of the sex accessory gland in mature hpg mouse.

Animals ; Epididymis ; drug effects ; growth & development ; Genitalia, Male ; drug effects ; growth & development ; Hypogonadism ; drug therapy ; physiopathology ; Male ; Mice ; Nandrolone ; therapeutic use ; Prostate ; drug effects ; growth & development ; Seminal Vesicles ; drug effects ; growth & development

Androgens remain the most effective and widely abused ergogenic drugs in sport. Although androgen doping has been prohibited for over 3 decades with a ban enforced by mass spectrometric (MS)-based urine testing for synthetic and exogenous natural androgens, attempts continue to develop increasingly complex schemes to circumvent the ban. A prominent recent approach has been the development of designer androgens. Such never-marketed androgens evade detection because mass spectrometry relies on identifying characteristic chemical signatures requiring prior knowledge of chemical structure. Although once known, designer androgens are readily detected and added to the Prohibited List. However, until their structures are elucidated, designer androgens can circumvent the ban on androgen doping. To combat this, in vitro androgen bioassays offer powerful new possibilities for the generic detection of unidentified bioactive androgens, regardless of their chemical structure. Another approach to circumvent the ban on androgen doping has been the development of indirect androgen doping, the use of exogenous drugs to produce a sustained increase in endogenous testosterone (T) production. Apart from estrogen blockers, however, such neuroendocrine active drugs mostly provide only transient increases in blood T. Finally the ban on androgen doping must allow provision for rare athletes with incidental, proven androgen deficiency who require T replacement therapy. The Therapeutic Use Exemption mechanism makes provision for such necessary medical treatment, subject to rigorous criteria for demonstrating a genuine ongoing need for T and monitoring of T dosage. Effective deterrence of sports doping requires novel, increasingly sophisticated detection options calibrated to defeat these challenges, without which fairness in sport is tarnished and the social and health idealization of sporting champions devalued.
Androgens ; administration & dosage ; Biological Assay ; Designer Drugs ; Doping in Sports ; Humans

Puberty is a pivotal biological process that completes sexual maturation to achieve full reproductive capability. It is a major transformational period of life, whose timing is strongly affected by genetic makeup of the individual, along with various internal and external factors. Although the exact mechanism for initiation of the cascade of molecular events that culminate in puberty is not yet known, the process of pubertal onset involves interaction of numerous complex signaling pathways of hypothalamo-pituitary-testicular (HPT) axis. We developed a classification of the mechanisms involved in male puberty that allowed placing many genes into physiological context. These include (i) hypothalamic development during embryogenesis, (ii) synaptogenesis where gonadotropin releasing hormone (GnRH) neurons form neuronal connections with suprahypothalamic neurons, (iii) maintenance of neuron homeostasis, (iv) regulation of synthesis and secretion of GnRH, (v) appropriate receptors/proteins on neurons governing GnRH production and release, (vi) signaling molecules activated by the receptors, (vii) the synthesis and release of GnRH, (viii) the production and release of gonadotropins, (ix) testicular development, (x) synthesis and release of steroid hormones from testes, and (xi)the action of steroid hormones in downstream effector tissues. Defects in components of this system during embryonic development, childhood/adolescence, or adulthood may disrupt/nullify puberty, leading to long-term male infertility and/or hypogonadism. This review provides a list of 598 genes involved in the development of HPT axis and classified according to this schema. Furthermore, this review identifies a subset of 75 genes for which genetic mutations are reported to delay or disrupt male puberty.
Adolescent ; Male ; Humans ; Adult ; Child ; Gonadotropin-Releasing Hormone ; Gonadotropins/metabolism* ; Hypogonadism ; Testis/metabolism* ; Puberty/physiology* ; Sexual Maturation

Surgical sperm retrieval (SSR) is currently one of the most common procedures in in vitro fertilization (IVF). However, a gap between the guidelines and routine clinical practice regarding antibiotic use in SSR, which might lead to antibiotic resistance, is a challenging problem worldwide. A cross-sectional survey was conducted from May 1, 2021, to July 15, 2021, to investigate antibiotic usage by medical professionals when performing SSR in IVF centers in Vietnam. The confidential questionnaire comprised 12 items, including characteristics of the study population, awareness of antimicrobial resistance, attitude toward prescribing antibiotics, and current practice of prescribing antibiotics when performing SSR. Surveys were completed by 30 of 45 registered IVF centers (66.7%). Among 67 physicians working at those centers, the age and work-experience years (mean ± standard deviation [s.d.]) were 38.6 ± 6.6 years and 11.2 ± 7.0 years, respectively. Over 60% of them held a degree in Obstetrics and Gynecology, and over four-fifths were men. Most respondents "often/very often/always" raised awareness of antimicrobial resistance to their patients (83.3%), but only half of them "often/occasionally" prescribed antibiotics to patients with SSR in cases where the prescription would be optional. About one-tenth of respondents followed the recommendation from the American Urological Association using "prophylaxis only" for SSR patients. For more invasive SSR, physicians tended to prescribe more complicated and sometimes inappropriate regimens. In conclusion, antibiotic usage in SSR was not always appropriate among IVF centers. Further studies may define specific recommendations for regimens, intervention strategies, and programs to promote appropriate antibiotic use for SSR patients among IVF specialists.
Humans ; Male ; Female ; Anti-Bacterial Agents/therapeutic use* ; Sperm Retrieval ; Cross-Sectional Studies ; Semen ; Surveys and Questionnaires ; Fertilization in Vitro ; Practice Patterns, Physicians'