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1.
Testosterone in Males as Enhanced by Onion (Allium Cepa L.).
Banihani, SA
Biomolecules. 2019;(2)
Abstract
Testosterone (17β-Hydroxyandrost-4-en-3-one) is the main sex hormone in males. Maintaining and enhancing testosterone level in men is an incessant target for many researchers. Examples of such research approaches is to utilize specific types of food or dietary supplements as a safe and easily reached means. Here, specifically, since 1967 until now, many research studies have revealed the effect of onion on testosterone; however, this link has yet to be collectively reviewed or summarized. To accomplish this contribution, we searched the Scopus, Web of Science, and PubMed databases for full articles or abstracts (published in English language) from April 1967 through December 2018 using the keywords "onion" versus "testosterone". In addition, a number of related published articles from the same databases were included to improve the integrity of the discussion, and hence the edge of the future directions. In summary, there is an evidence that onions enhance testosterone level in males. The mechanisms by which this occurs is mainly by increasing the production of luteinizing hormone, enhancing the antioxidant defense mechanism in the tests, neutralizing the damaging effects of the generated free radicals, ameliorating insulin resistance, promoting nitric oxide production, and altering the activity of adenosine 5'-monophosphate -activated protein kinase. However, this effect requires further approval in humans, mainly by conducting clinical trials.
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2.
Measuring testosterone in women and men.
Kanakis, GA, Tsametis, CP, Goulis, DG
Maturitas. 2019;:41-44
Abstract
Measurement of serum testosterone (T) level is of utmost importance for the evaluation of hypogonadism in men and androgen excess in women. Despite the advances in steroid hormone assessment, substantial variability exists regarding measurement of T concentrations. Several factors affect T measurement in men, including circadian rhythms, intra-individual daily variability and transient stressors, while T concentrations in women vary mainly according to the phase of the menstrual cycle. Most of the available immunoassays lack the required accuracy when dealing with T concentrations at the lower end of the normal range for men and across the entire range for females. Consequently, there is no universally accepted lower T threshold for healthy adult men and most immunoassays fail to detect states of mild androgen excess in women. Mass spectrometry is considered the gold-standard method for T measurement; however, due to its complexity and cost, it has not been widely adopted. To increase accuracy, T in men should be measured with a fasting morning sample and repeated if the level is found to be low; in women, measurement must be performed at the follicular phase of the cycle. In both cases, borderline results may be clarified by the assessment of free testosterone (fT). Since most fT assays are unreliable, calculated surrogates should be used instead. Collaborative efforts have been undertaken, with rigorous internal and external quality controls and the establishment of reference methods, to harmonise the commercial assays.
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3.
Sarcopenia.
Keller, K
Wiener medizinische Wochenschrift (1946). 2019;(7-8):157-172
Abstract
Sarcopenia is a very common, but frequently overlooked and undertreated geriatric syndrome comprising pronounced muscle mass and strength/performance loss. Estimated prevalence is between 5 and 40% in the general population, accompanied by an exponential incline with increasing age. Sarcopenia is connected to atrophy and loss of muscle fibers and motor units, affecting primarily the fast-twitch muscle fibers und their motor units. Fast-twitch muscle fibers seem to be more prone to failure of function and loss over time. Main causes for the development of sarcopenia are hormonal changes (reduced release of testosterone, estrogen, and growth hormone), nutritional deficiencies, chronic inflammation, and particularly a decrease in physical activity due to sedentary lifestyle with advancing age. Treatment options for sarcopenia comprise an active lifestyle with physical activity and exercise training, modifications of nutritional intake, and pharmacological therapies. Strength training and an adequate nutritional intake form the basis of successful sarcopenia treatment.
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4.
Hepatic actions of androgens in the regulation of metabolism.
Birzniece, V
Current opinion in endocrinology, diabetes, and obesity. 2018;(3):201-208
Abstract
PURPOSE OF REVIEW The purpose of this review is to summarize recent findings on hepatic actions of androgens in the regulation of protein, lipid and glucose metabolism. The rationale for liver-targeted testosterone use will be provided. RECENT FINDINGS Liver-targeted testosterone administration, via the oral route, induces protein anabolic effect by reducing the rate of protein oxidation to a similar extent to that of systemic testosterone administration. Recent evidence indicates that testosterone exerts whole-body anabolic effect through inhibition of nitrogen loss via the hepatic urea cycle. Several hepatic effects of androgens, particularly on glucose metabolism, are direct and take place before any changes in body composition occur. This includes an increase in insulin secretion and sensitivity, and reduction in hepatic glucose output by testosterone. Furthermore, lack of testosterone in the liver exacerbates diet-induced impairment in glucose metabolism. In the liver, androgens induce the full spectrum of metabolic changes through interaction with growth hormone or aromatization to estradiol. SUMMARY Liver-targeted testosterone therapy may open up a new approach to achieve whole-body anabolism without systemic side-effects. Aromatizable androgens may be superior to nonaromatizable androgens in inducing a complex spectrum of direct, estrogen-mediated and other hormone-mediated effects of androgens.
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5.
Metabolic Syndrome in Male Hypogonadism.
Rastrelli, G, Filippi, S, Sforza, A, Maggi, M, Corona, G
Frontiers of hormone research. 2018;:131-155
Abstract
Metabolic syndrome (MetS) and hypogonadism (HG) are frequently comorbid. In this review, we summarize interconnections between the construct of MetS and the presence of HG, as well as the effect of specific treatments for each condition on this association. Data from meta-analytic studies suggest a bidirectional pathogenic relationship. In fact, reduced T (-2.21 [-2.43 to -1.98] nmol/L) at baseline predicts incident MetS. On the other hand, MetS at study entry increases the risk of developing HG (OR 2.46 [1.77-3.42]). The bidirectional pathogenic link between MetS and HG is further confirmed by the fact that treating MetS with insulin sensitizer is associated with an increase in T. In addition, a huge effect on increasing T is found in obese men undergoing procedures for losing weight, with more dramatic results obtained after bariatric surgery than after low calorie diet (increase in T 8.73 [6.51-10.95] nmol/L and 2.87 [1.68-4.07] nmol/L, respectively, according to a recent meta-analysis). On the other hand, there is evidence of an improvement in several metabolic derangements characterizing MetS in subjects treated with T. However, the latter results are still not conclusive and need further evidence from randomized clinical trials.
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6.
Potential application of testosterone replacement therapy as treatment for obesity and type 2 diabetes in men.
Fink, J, Matsumoto, M, Tamura, Y
Steroids. 2018;:161-166
Abstract
Sedentary lifestyle and over-nutrition are the main causes of obesity and type 2 diabetes (T2D). However, the same causes are major triggers of hypogonadism. Many T2D patients show low testosterone levels while hypogonadal men seem to be prone to become diabetic. Testosterone plays a major role in the regulation of muscle mass, adipose tissue, inflammation and insulin sensitivity and is therefore indirectly regulating several metabolic pathways, while T2D is commonly triggered by insulin resistance, increased adipose tissue and inflammation, showing a negative correlation between testosterone levels and T2D. Testosterone replacement therapy (TRT) is widely used in patients with symptoms of hypogonadism, however it is not commonly used as preventive intervention or treatment for T2D patients even though hypogonadal patients share many common symptoms (obesity, insulin insensitivity, increased inflammation, decrease in muscle mass and strength) with T2D patients. Even though TRT is often associated with side effects such as prostatic hypertrophy or cancer, cardiovascular risks due to increase in the number of red blood cells and infertility, several studies have shown that TRT remains a potent intervention improving metabolic functions such as glycated haemoglobin, blood sugar, total cholesterol and visceral fat. The purpose of this review is to discuss the possible benefits and risks of TRT in the prevention and treatment of obesity and T2D and assess the health risks and benefits of common T2D medications and testosterone.
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7.
Practical Use of Pharmacotherapy for Obesity.
Igel, LI, Kumar, RB, Saunders, KH, Aronne, LJ
Gastroenterology. 2017;(7):1765-1779
Abstract
Obesity management requires a multidisciplinary approach, as there are many factors that contribute to the development of obesity, as well as the preservation of excess weight once it has been gained. Diet, exercise, and behavior modification are key components of treatment. In addition to lifestyle changes, weight gain secondary to medications is an important modifiable risk factor. Even after appropriate lifestyle modification, and medication adjustments (where possible) to avoid agents that can contribute to weight gain, many patients are still unable to achieve clinically meaningful weight loss. Pharmacotherapy for obesity management can fill an important role for these patients. This article will review medications that can lead to weight gain and potential alternatives, currently approved anti-obesity medications and best practices to individualize the selection process, and the use of testosterone in men with hypogonadism and obesity.
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8.
The role of cholesterol metabolism and various steroid abnormalities in autism spectrum disorders: A hypothesis paper.
Gillberg, C, Fernell, E, Kočovská, E, Minnis, H, Bourgeron, T, Thompson, L, Allely, CS
Autism research : official journal of the International Society for Autism Research. 2017;(6):1022-1044
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Abstract
Based on evidence from the relevant research literature, we present a hypothesis that there may be a link between cholesterol, vitamin D, and steroid hormones which subsequently impacts on the development of at least some of the "autisms" [Coleman & Gillberg]. Our hypothesis, driven by the peer reviewed literature, posits that there may be links between cholesterol metabolism, which we will refer to as "steroid metabolism" and findings of steroid abnormalities of various kinds (cortisol, testosterone, estrogens, progesterone, vitamin D) in autism spectrum disorder (ASD). Further research investigating these potential links is warranted to further our understanding of the biological mechanisms underlying ASD. Autism Res 2017. © 2017 The Authors Autism Research published by Wiley Periodicals, Inc. on behalf of International Society for Autism Research. Autism Res 2017, 10: 1022-1044. © 2017 International Society for Autism Research, Wiley Periodicals, Inc.
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9.
A Perspective on Middle-Aged and Older Men With Functional Hypogonadism: Focus on Holistic Management.
Grossmann, M, Matsumoto, AM
The Journal of clinical endocrinology and metabolism. 2017;(3):1067-1075
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Abstract
CONTEXT Middle-aged and older men (≥50 years), especially those who are obese and suffer from comorbidities, not uncommonly present with clinical features consistent with androgen deficiency and modestly reduced testosterone levels. Commonly, such men do not demonstrate anatomical hypothalamic-pituitary-testicular axis pathology but have functional hypogonadism that is potentially reversible. EVIDENCE ACQUISITION Literature review from 1970 to October 2016. EVIDENCE SYNTHESIS Although definitive randomized controlled trials are lacking, evidence suggests that in such men, lifestyle measures to achieve weight loss and optimization of comorbidities, including discontinuation of offending medications, lead to clinical improvement and a modest increase in testosterone. Also, androgen deficiency-like symptoms and end-organ deficits respond to targeted treatments (such as phosphodiesterase-5 inhibitors for erectile dysfunction) without evidence that hypogonadal men are refractory. Unfortunately, lifestyle interventions remain difficult and may be insufficient even if successful. Testosterone therapy should be considered primarily for men who have significant clinical features of androgen deficiency and unequivocally low testosterone levels. Testosterone should be initiated either concomitantly with a trial of lifestyle measures, or after such a trial fails, after a tailored diagnostic work-up, exclusion of contraindications, and appropriate counseling. CONCLUSIONS There is modest evidence that functional hypogonadism responds to lifestyle measures and optimization of comorbidities. If achievable, these interventions may have demonstrable health benefits beyond the potential for increasing testosterone levels. Therefore, treatment of underlying causes of functional hypogonadism and of symptoms should be used either as an initial or adjunctive approach to testosterone therapy.
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10.
Sport and male sexuality.
Sgrò, P, Di Luigi, L
Journal of endocrinological investigation. 2017;(9):911-923
Abstract
The relationships between sport and sexuality in males are of great social and clinical interest, because of sports and motor activities that highly promote social and sexual relationships. Even if few literature exist, two main questions should be taken into account: whether and how physical exercise and sport positively or negatively influence sexual health and behavior and/or whether and how sexual behavior may affect a sub-sequent sport performance. Physical exercise and sport per se can influence, positively or negatively, the hypothalamic-pituitary-testicular axis function and, consequently, the individual's reproductive and/or sexual health. This depends on individual factors such as genetic and epigenetic ones and on different variables involved in the practice of sport activities (type of sport, intensity and duration of training, doping and drug use and abuse, nutrition, supplements, psychological stress, allostatic load, etc.). If well conducted, motor and sport activities could have beneficial effects on sexual health in males. Among different lifestyle changes, influencing sexual health, regular physical activity is fundamental to antagonize the onset of erectile dysfunction (ED). However, competitive sport can lead both reproductive and/or sexual tract damages and dysfunctions, transient (genital pain, hypoesthesia of the genitalia, hypogonadism, DE, altered sexual drive, etc.) or permanent (hypogonadism, DE, etc.), by acting directly (traumas of the external genitalia, saddle-related disorders in cyclists, etc.) or indirectly (exercise-related hypogonadism, drug abuse, doping, stress, etc.). Sexual activities shortly performed before a sport competition could differently influence sport performance. Due to the few existing data, it is advisable to avoid an absolute pre-competition sexual abstinence.