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Hypogonadal men share a variety of signs and symptoms such as decreased muscle mass, osteopoenia, increased fat mass, fatigue, decreased libido and cognitive dysfunctions. Controlled trials have demonstrated favourable effects of androgen substitution therapy on these signs and symptoms in men with severe primary or secondary hypogonadism. Thus, androgen substitution therapy is warranted in men with true hypogonadism at all ages. Symptoms experienced by otherwise healthy ageing males are non-specific and vague, although some may be similar to symptoms of hypogonadism. Therefore, the term 'andropause' has been suggested. However, testosterone levels show no or only modest variation with age in men; with large prospective studies suggesting a maximal decline of total testosterone of 1.6% per year. Thus, in contrast to the sudden arrest of gonadal activity in females around menopause, men do not have an andropause. As large placebo-controlled studies of androgen treatment in elderly males are lacking, proper risk assessment of adverse effects such as prostate cancer following testosterone treatment in elderly males is completely lacking. In the future, testosterone therapy may prove beneficial in some elderly males with low-normal testosterone levels. However, at this point in time, widespread use of testosterone in an elderly male population outside controlled clinical trials seems inappropriate.
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PMID:Androgens and the ageing male. 1239 23

Iron overload in body tissues can cause complications such as cirrhosis, cardiomyopathy, diabetes, hypogonadism and arthritis. In populations of northern European descent, most iron overload is due to hereditary haemochromatosis (HHC), a genetic condition that causes increased iron absorption. HHC can be treated or prevented by regular phlebotomy treatments. Some experts have called for population screening for HHC, so that early phlebotomy treatment can be initiated. Two screening tests are available: measurement of the serum iron transferrin saturation (Tf%) and genetic testing for HFE mutations. However, both methods have low positive predictive values. Current data suggest that most people at risk are unlikely to develop clinical symptoms and that the population prevalence of clinical complications of HHC is low, arguing against population screening. Two other prevention strategies are available. (1) Health provider education, to heighten awareness of HHC as an explanation for symptoms and signs seen in early iron overload including unexplained fatigue, joint pain, palpitations, abdominal pain, elevated liver function tests, hepatomegaly and elevated serum ferritin. (2) Family-based testing after a diagnosis of HHC, to ensure that relatives are evaluated for evidence of iron overload. More research is also needed to identify the factors that increase risk for disease in persons with excess iron uptake, to determine whether moderate iron overload is a health risk and to evaluate the causes of iron overload other than HHC.
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PMID:Hereditary haemochromatosis: a realistic approach to prevention of iron overload disease in the population. 1240 10

We report the case of a 53 year old patient who was admitted with polyuria, polydipsia associated with fatigue, depression and sexual dysfunction. Central diabetes insipidus with hypogonadotrophic hypogonadism was diagnosed by a water restriction test and different static and dynamic hormonal dosages. Nodular thickening of the pituitary stalk was noted on the MRI and the biopsy permitted a histological diagnosis of infundibulitis.
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PMID:[Infundibulitis, an unusual case of central diabetes insipidus]. 1252 40

In contrast to women, men do not experience a sudden cessation of gonadal function comparable to menopause. However, there is a progressive reduction in hypothalamic-pituitary-gonadal (HPG) function in aging men: testosterone (T) levels decline through both central (pituitary) and peripheral (testicular) mechanisms and there is a loss of the circadian rhythm of T secretion. In cohorts of men 75 years of age, mean plasma T levels are 35% lower than comparable young men, and more than 25% of men over 75 appear to be T-deficient. Such age-associated T deficiency, which has been termed 'andropause', is thought to be responsible for a variety of symptoms experienced by elderly men, such as weakness, fatigue, reduced muscle and bone mass, impaired haematopoiesis, oligospermia, sexual dysfunction, depression, anxiety, irritability, insomnia and memory impairment. However, it has been difficult to establish correlations between these symptoms and plasma T levels. Nevertheless, there is some evidence that T replacement leads to symptom relief, particularly with respect to muscle strength, bone mineral density, and haematopoiesis. Studies to date on the specific association between psychiatric symptoms, such as depressed mood, and T levels have been methodologically flawed. Overall, data suggest that although hypogonadism is not central to major depressive disorder (MDD), HPG hypofunction may have aetiological importance in mild depressive conditions, such as dysthymia.
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PMID:Testosterone deficiency and mood in aging men: pathogenic and therapeutic interactions. 1258 72

In contrast to women, men do not experience a sudden cessation of gonadal function comparable to menopause. However, there is a progressive reduction in hypothalamic-pituitary-gonadal (HPG) axis activity in aging men: testosterone levels decline and there is a loss of the circadian rhythm of testosterone secretion. Such progressive HPG-axis hypofunctioning is thought to be responsible for some signs and symptoms that are common in elderly men such as fatigue, reduced muscle and bone mass, sexual dysfunction, and depression. Yet, such presumed hypogonadal sequelae have not been correlated with testosterone levels. Unlike the profound effects of replacement therapy in young men with frank hypogonadism, testosterone replacement in men with age-related mild hypogonadism is not apparently effective in reversing these symptoms. This article reviews the relationship between androgens, sexual function, and depression in aging men.
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PMID:The aging male: androgens, erectile dysfunction, and depression. 1297 14

Several epidemiological studies have demonstrated a gradual decrease of serum testosterone with aging in men. A considerable number of men will experience hypogonadal androgen levels, defined by the normal range for young men. Thus, in addition to the long-standing use of androgen replacement therapy in the classical forms of primary and secondary hypogonadism, age-associated testosterone deficiency has led to considerable developments in application modes for testosterone. Since oral preparations of testosterone are ineffective, due to the first-pass effect of the liver, or, in case of 17 alpha-alkylation, cause hepatotoxicity, intramuscular injection of long-acting esters, such as testosterone enanthate, have been the mainstay of testosterone therapy. However, the large fluctuations of serum testosterone levels cause unsatisfactory shifts of mood and sexual function in some men; combined with the frequent injections, this delivery mode is thus far from being ideal. In contrast, the transdermal testosterone patches are characterized by favorable pharmacokinetic behavior and have proven to be an effective mode of delivery. Safety data over 10 years indicate no negative effect on the prostate. Nevertheless, the scrotal testosterone patch system is hampered by the application site, which is not easily accepted by many subjects; the non-scrotal patch has a high rate of skin irritations. In view of the drawbacks of the currently available preparations, the most recent developments in testosterone supplementation appear to be highly promising agents. Androgen, which has been available in the United States since mid-2000, will be introduced this year in most European markets as Testogel, a hydroalcoholic gel containing 1% testosterone. Doses of 50-100 mg gel applied once daily on the skin deliver sufficient amounts of testosterone to restore normal hormonal values and to correct the signs and symptoms of hypogonadism. The gel has shown to be very effective and successful in American patients, who have benefited from its availability for almost 3 years. Furthermore, in phase II and III clinical studies, the intramuscular injection of 1000 mg testosterone undecanoate every 12-15 weeks has led to extremely stable serum testosterone levels for a prolonged period of time and has resulted in excellent efficacy. It is very likely in the future that these products will be the mainstay of testosterone supplementation. Whereas the indication for testosterone substitution for men with classical forms of hypogonadism is unequivocal, the use of testosterone in men with age-associated hypogonadism is less uniformly accepted. Yet, the few studies addressing this question indicate that men with testosterone serum levels below the lower normal limit for young adult men and with lack of energy, libido, depressed mood and osteoporosis may benefit from testosterone supplementation. However, it should be kept in mind that the experience documented in studies is limited. Nevertheless, serious side-effects, especially in regard to the prostate, did not occur, with the longest study extending over 3 years.
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PMID:Testosterone supplementation: what and how to give. 1462

Mitochondriopathies (MCPs) are either due to sporadic or inherited mutations in nuclear or mitochondrial DNA located genes (primary MCPs), or due to exogenous factors (secondary MCPs). MCPs usually show a chronic, slowly progressive course and present with multiorgan involvement with varying onset between birth and late adulthood. Although several proteins with signalling, assembling, transport, enzymatic function can be impaired in MCP, most frequently the activity of the respiratory chain (RC) protein complexes is primarily or secondarily affected, leading to impaired oxygen utilization and reduced energy production. MCPs represent a diagnostic challenge because of their wide variation in presentation and course. Systems frequently affected in MCP are the peripheral nervous system (myopathy, polyneuropathy, lactacidosis), brain (leucencephalopathy, calcifications, stroke-like episodes, atrophy with dementia, epilepsy, upper motor neuron signs, ataxia, extrapyramidal manifestations, fatigue), endocrinium (short stature, hyperhidrosis, diabetes, hyperlipidaemia, hypogonadism, amenorrhoea, delayed puberty), heart (impulse generation or conduction defects, cardiomyopathy, left ventricular non-compaction heart failure), eyes (cataract, glaucoma, pigmentary retinopathy, optic atrophy), ears (deafness, tinnitus, peripheral vertigo), guts (dysphagia, vomiting, diarrhoea, hepatopathy, pseudo-obstruction, pancreatitis, pancreas insufficiency), kidney (renal failure, cysts) and bone marrow (sideroblastic anaemia). Apart from well-recognized syndromes, MCP should be considered in any patient with unexplained progressive multisystem disorder. Although there is actually no specific therapy and cure for MCP, many secondary problems require specific treatment. The rapidly increasing understanding of the pathophysiological background of MCPs may further facilitate the diagnostic approach and open perspectives to future, possibly causative therapies.
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PMID:Mitochondriopathies. 1500 63

There are few systematic studies of the relationship between blood testosterone concentrations and the symptoms of overt androgen deficiency. Because most testosterone preparations are relatively short-term, the rapid changes in blood testosterone concentrations they cause make it difficult to define any testosterone threshold. By contrast, subdermal testosterone implants provide stable blood testosterone concentrations over days to weeks, while gradually declining to baseline over 5-7 months. Hence, this provides an opportunity to define a blood testosterone threshold for androgen deficiency symptoms by observing androgen-deficient men as their familiar androgen deficiency symptoms return as testosterone pellets slowly dissolve. Among 52 androgen-deficient men who underwent 260 implantations over 5 yr, at the time of return of androgen deficiency symptoms the blood total and free testosterone concentrations were highly reproducible within individuals (F = 0.8, P = 0.49 and F = 1.4, 0.24, respectively) but varied markedly between men (F = 167 and F = 138, both P < 0.001), indicating that each person had a consistent testosterone threshold for androgen deficiency symptoms that differed markedly between individuals. The most reported symptoms of androgen deficiency were lack of energy, lack of motivation, and reduced libido. The symptomatic threshold was significantly lower in men with secondary hypogonadism compared with men with primary or mixed hypogonadism (total, 9.7 +/- 0.5 nmol/liter vs. 11.7 +/- 0.4 nmol/liter and 10.2 +/- 0.3 nmol/liter, P = 0.006; free, 146 +/- 10 pmol/liter vs. 165 +/- 6 pmol/liter and 211 +/- 18 pmol/liter, P = 0.002) but was not affected by the underlying cause of hypogonadism or by specific symptoms of any severity. Despite a wide range in individual thresholds for androgen deficiency symptoms, the mean blood testosterone threshold corresponded to the lower end of the eugonadal reference range for young men. The implications of these observations for the development of more specific quality-of-life measures, as well as for other potential androgen deficiency states such as chronic diseases and aging, remain to be determined.
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PMID:Blood testosterone threshold for androgen deficiency symptoms. 1529 10

Late-onset hypogonadism (LOH) is defined by reduced serum testosterone levels (either total testosterone or free testosterone) and the careful exclusion of any form of classical hypogonadism. When the androgen decline associated with advancing age causes detrimental physiological and mental effects, the syndrome is known as symptomatic LOH (SLOH). A detailed medical history and physical examination are the bases of the diagnosis, and should always precede any biochemical investigations. A general screening of men above a certain age for testosterone deficiency is not feasible. Questionnaires may assist in identifying men who suffer from LOH. Common clinical symptoms of SLOH are lethargy, fatigue, decreased sense of well-being, reduced physical and mental activity, diminished libido, increased sweating, depressive mood, reduced muscle and bone mass or even osteoporosis, erectile dysfunction, and mild anemia. When clinical symptoms are present, the laboratory work-up should focus on total testosterone serum levels. Total testosterone levels <200 ng/dl indicate hypogonadism. In cases of testosterone levels between 200 and 400 ng/dl, measurement should be repeated and supplemented by determination of free testosterone, either by appropriate laboratory methods or the calculation of free testosterone index. In case of very low testosterone levels, classical secondary hypogonadism needs to be considered and excluded. For the safety reasons to exclude contraindications of therapy with androgens, and for follow-up investigations during therapy prostate-specific antigen (PSA), hemoglobin and hematocrit are of interest.
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PMID:Late-onset hypogonadism in the aging male (LOH): definition, diagnostic and clinical aspects. 1604 56

Hypogonadism (low serum testosterone) is commonly associated with erectile dysfunction (ED). However, many urologists may lack appreciation of the relative merits of treating hypogonadism compared with oral phosphodiesterase inhibitors for sexual dysfunction. Testosterone-replacement therapy (TRT) may be the best treatment for men with ED when the presentation includes diminished libido or other sexual symptoms or when non-sexual symptoms such as depressed mood, decreased sense of vitality, and increased fatigue also exist. The health benefits of TRT also include improvements in body composition, bone density, cognition, and sense of well-being. Thus, there may be good reasons to use TRT as first-line therapy for the man with ED. Concerns regarding prostatic and cardiovascular risks of TRT have not been supported by the literature. Nevertheless, men receiving TRT must be monitored at regular intervals with digital rectal examination and blood testing for prostate-specific antigen. Hematocrit or hemoglobin also should be obtained regularly due to the risk of erythrocytosis. Awareness of the benefits of TRT in the man with ED may improve clinical outcomes.
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PMID:Hypogonadism in the man with erectile dysfunction: what to look for and when to treat. 1623 23


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