Low Testosterone in Men: Recommendations on the diagnosis, treatment and monitoring

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ABSTRACT

The relative proportional increase of the elderly population within many countries will become one of the most significant social transformations of the twenty-first century and, for the first time in history, persons aged 65 or above outnumbered children under five years of age globally. One in four persons living in Europe and Northern America will be aged 65 or over. One of the goals of ISSAM is to raise awareness of the special health needs of older men. Since a significant number of aging men will eventually become testosterone deficient, the Hypogonadism panel of ISSAM updates its guidelines.




Introduction

The relative proportional increase of the elderly population within many countries will become one of the most significant social transformations of the twenty-first century and, for the first time in history, persons aged 65 or above outnumbered children under five years of age globally. One in four persons living in Europe and Northern America will be aged 65 or over. One of the goals of ISSAM is to raise awareness of the special health needs of older men. Since a significant number of aging men will eventually become testosterone deficient, the Hypogonadism panel of ISSAM updates its guidelines periodically.

The International Society for the Study of the Aging Male (ISSAM) Hypogonadism panel consists of a multidisciplinary group of experts, including urologists, endocrinologists, andrologists, and internists with various subspecialties.
The first recommendations were published in 2002 [1]. Due to the need for ongoing re-evaluation of the information presented in the recommendations they were revised in 2005 [2], 2009 [3], 2013 [4], and 2015 [5].

It must however be remembered that RECOMMENDATIONS CAN NEVER REPLACE CLINICAL EXPERTISE. Treatment decisions, selection of treatment protocols, or choice of products for individual patients must take into account patients’ personal needs and wishes. Hypogonadism or Testosterone Deficiency (TD) in adult men as defined by low levels of serum testosterone accompanied by symptoms and/or signs as detailed below. These symptoms are compiled from observations and recognized in clinical entities such as Klinefelter’s syndrome, Kallmann’s syndrome, pituitary or testicular disorders, as well as in men with idiopathic, metabolic, or iatrogenic conditions that result in testosterone deficiency. These recommendations do not encompass the full range of pathologies leading to hypogonadism (testosterone deficiency) but instead focus on the clinical spectrum of hypogonadism related to associated morbidities, metabolic disturbances, and idiopathic disorders that contribute to the majority of cases occurring in adult and elderly men. New data have accumulated since the last revision of the recommendations were published that adds to a better understanding of the benefits and limitations of testosterone therapy (TTh) in elderly men (i.e. 65þ) [6]





Recommendation 1: definition

Testosterone deficiency (TD) in adult men is a clinical and biochemical syndrome associated with a low level of testosterone, which may adversely affect multiple organ functions and quality of life. Although the clinical significance of TD in adult men is becoming increasingly recognized, the extent of its prevalence in the general population is still a matter of uncertainty and perhaps underappreciated. A large number of men with TD who would be expected to benefit from testosterone treatment, continue to remain undiagnosed and untreated due to deficient basic knowledge and postgraduate medical training in sexual medicine [7,8].




Recommendation 2: clinical diagnosis

*Check for TD in men with symptoms and signs of testosterone deficiency


-The diagnosis of TD requires the presence of characteristic symptoms and signs in combination with the decreased serum concentration of testosterone. Symptoms of TD may be categorized as sexual and non-sexual.

-The presence of symptoms alone does not constitute testosterone deficiency. Symptoms must be accompanied by decreased serum concentrations of total testosterone (TT) or free T level to support a diagnosis of symptomatic TD





Recommendation 3: pathogenesis

*Check for concurrent diseases and drug consumption as a reason for impaired testosterone production


-Metabolic disorders such as obesity, T2DM, inflammatory diseases, and other co-morbidities mentioned above modify the hypothalamic-pituitary-gonadal axis by suppressing one or more of its components (decreased hypothalamic-pituitary/ decreased Leydig cell function) but not in a constant fashion as in the permanent forms of TD was one of the components that have irrevocably decreased function

-The age-related decrease in testosterone production is related to an impairment of the hypothalamic-pituitary-gonadal axis [46], but in contrast, may not be reversible. The current opinion is that TD and the respective co-morbidity reinforce each other

-Risk factors for TD may include chronic illnesses, including T2DM, hyperprolactinemia, chronic obstructive lung disease, rheumatoid arthritis, renal and HIV-related diseases, obesity, metabolic syndrome [47], stress and hemochromatosis, vitamin D deficiency [48–50]. Severe vitamin D deficiency may contribute to lower TT levels [51], which is also confirmed by a recent meta-analysis [52] Such chronic diseases should be investigated and treated

-Though there is still a controversy in defining normal thyroid-stimulating hormone (TSH) levels in the elderly [53–56], thyroid gland function impairment should be considered in all patients with TD, as symptoms of hypothyroidism may overlap those of TD

-TT levels have been reported to be lower in depressed men compared with non-depressed men [57].
TT is particularly low in men with severe, treatment-resistant depression [58]

-Poor sleep habits, as identified by shift work sleep disorder may also contribute to the decrease of TT level [59]

-Drugs such as glucocorticoids, opioids, antipsychotics induce TD [60–62]. Glucocorticoids are widely used as anti-inflammatory drugs. However, prolonged use of glucocorticoids results in undesirable side effects, including TD [62]. It has also been reported that statins may reduce TT [63]. In addition, several other drugs can interfere with T production acting either at central or peripheral levels and/or influencing T bioactivity (Table 1)




Recommendation 4: laboratory diagnosis

*In patients at risk or suspected of TD, a thorough physical and biochemical workup is recommended


-Liquid chromatography-tandem mass spectrometry (LCMS/MS) assays are considered the gold standard for TT measurement provide consistently higher accuracy, specificity, and sensitivity than do most immunoassays [68]. LCMS is not universally available, and immunoassays are still much more frequently used around the world, with reasonable accuracy in most cases. The key laboratory tests to confirm the diagnosis of TD are serum total and free testosterone. Theoretically, free testosterone (FT) concentrations may have a better correlation with clinical symptoms of testosterone deficiency [69,70]. LCMS/MS should remain the gold standard method even for free T evaluation [68]. Free T assays based on analog displacement immunoassays are still widely available and used some positive results [71], but their reliability has been seriously questioned by some authors [72,73]. The use of formulae or algorithms based on the binding characteristics of sex hormone-binding globulin (SHBG) and albumin have been proposed as a method to calculated FT (Free & Bioavailable Testosterone calculator) [68]. Among the latter, the Vermeulen method [74] showed the most consistent results when compared to LCMS/MS. Regarding the best method for free T evaluation, no consensus among the experts composing this group has been reached

-Another promising method to define TD consists of salivary-free testosterone evaluation, but the lower testosterone limit is still disputable. Saliva contains only the non-SHBG bound fraction of T, which can freely diffuse across capillaries and salivary ducts [75]. It should be noted that some conditions affect interpretation such as hydration state, moreover, saliva collection devices may alter salivary concentrations of sex steroids

-No consensus has been reached regarding the lower TT threshold defining TD, and there are no generally accepted lower limits of normal TT [76].
This lack of consensus follows from the fact that no studies have shown a clear threshold for TT or free T that distinguishes men who will respond to treatment from those who will not. Data from EMAS studies proposed 11 nmol/L as a lower cut-off value for TT [9]. TD may be considered if the TT level is below 12.1 nmol/L based on LCMS/MS measurements in three large cohorts comprising more than 10000 men of various ages [76]. Similarly, data derived from meta-analyses suggest a lack of benefits of TTh in subjects with a total T > 12 nmol/L [77–79]

-The single greatest variable confounding the interpretation of total T is that SHBG concentrations vary enormously from one individual to another, among both younger and older men. Since SHBG concentrations greatly influence test results for hormones that bind to SHBG, recognition of this large interindividual variability should be considered in the clinical interpretation of these hormone results, particularly for T [80]. Routine SHBG testing should be considered for men suspected of T deficiency

-Note should be made that transient decreases of serum T levels can occur, due to acute illnesses [81], and this should be excluded by careful clinical evaluation and repeated hormone measurement

-Free T levels as low as 220–347 pmol/L (63.5–100 pg/mL) [69,71,82] have been recommended as a lower limit of the normal range and together with the presence of one or more hypogonadal symptoms can provide supportive evidence for TTh

-It is preferred to obtain a serum sample for TT determination between 07.00 and 11.00 h [83], although diurnal variation is substantially blunted in older men.
In a cross-sectional study of 3006 men with the mean age of 60.3 years presenting for prostate cancer screening, serum testosterone concentrations were unchanged from 6 am to 2 pm, and then decreased by only 13% between 2 pm and 6 pm [84]. However, other authors have reported that the diurnal circadian rhythm of free testosterone and bioavailable testosterone may persist in men younger than 75 years [85]

-A large body of evidence has documented that circulating T levels are substantially decreased (from 14 to more than 30%) if not measured in fasting conditions [86,87].
Hence blood testing for T should be performed in a fasting state which allows to adequately measure also glucose and lipids to detect comorbidities

-The number of cytosine–adenine–guanine triplet (CAG) repeats in androgen receptors differ in men and influences the androgen receptor activity [88,89,90,91] (Figure 1). Hence testosterone sensitivity may vary in different individuals. It has also been argued that the magnitude of the decrease in serum T concentrations might be a better predictor of TD than the actual concentrations of TT and BT [92]

-The same applies to androgen receptor gene CAG repeat lengths >24 in the presence of symptoms and normal testosterone levels may be considered as a state of preclinical TD [93]

-The prevalence of hypogonadal symptoms increases with TT levels below 12.1 nmol/L (350 ng/dL) [33]. However, Zitzmann et al. have shown that TD symptoms may also be seen with TT levels as high as 15 nmol/L.
This study showed that the prevalence of loss of libido or vigor increased at testosterone concentrations below 15 nmol/L (p < 0.001), whereas depression and T2DM (also in non-obese men) were significantly more prevalent in men with TT concentrations below 10 nmol/L (p < 0.001). ED has been identified as a composite pathology of metabolic risk factors, smoking, and depression, whereas only TT concentrations below 8 nmol/L contributed to that symptom (p ¼ 0.003). Behre et al. [21] demonstrated that 6 months of TTh improved body composition and quality of life in men aged 50–80 years with TT < 15 nmol/L and hypogonadal symptoms; these men showed further improvements in body composition and quality of life over the following 12 months of TTh. Lower TT levels have also been shown to be associated with sub-threshold symptoms of anxiety and depression [94]. There is also a recent study reporting increased hypogonadal symptoms in younger men 40 years with TT below 400 ng/dL (13.9 nmol/L) [95]. Free or bioavailable T should be considered when the TT concentration does not correspond with clinical presentation, since individual variation in SHBG concentrations may influence total testosterone results

-Measurements of serum luteinizing hormone (LH) will assist in differentiating between primary and secondary TD.
All cases of elevated LH level and testosterone below normal or in the lower quartile range would indicate testicular failure and TTh should be considered [96]. When elevated LH is present with normal TT without any signs of TD, a compensated TD should be considered, that is an early stage of (overt) TD, in that case, dynamic monitoring is recommended [97]. Measurement of serum prolactin level is indicated when TT is <5.2 nmol/L (150 ng/dL) [98,99] or when hypogonadotropic TD due to a pituitary tumor (like prolactinoma) is suspected [100–102]. Similar considerations should be applied for pituitary MRI scans

-In general, it is currently speculated that variable phenotypes of androgen insensitivity exist, mainly owing to mutated androgen receptors. More subtle modulation of androgen effects is related to the CAG repeat polymorphism in exon 1 of the androgen receptor gene: transcription of androgen-dependent target genes are attenuated with the increasing length of triplets. As a clinical entity, the CAG repeat polymorphism can relate to variations of androgenicity in men in various tissues and psychological traits: The longer the CAG repeat polymorphism, the less prominent is the androgen effect when individuals with similar testosterone concentrations are compared. A strictly defined threshold to TD is likely to be replaced by a continuum spanned by genetics as well as symptom specificity. In addition, the effects of externally applied testosterone can be markedly influenced by the CAG repeats and respective pharmacogenetic implications are likely to influence indications as well as modalities of testosterone treatment of hypogonadal men. Investigation of CAG repeat polymorphism in exon 1 of the androgen receptor gene may be useful in testosterone treatment regimens adjustment

-Animal and human studies suggested a direct and indirect stimulatory effect of androgens on erythropoiesis, as well as the fact that TD is a well-established cause for anemia, especially in a condition, known as «unexplained anemia in the elderly».
The current knowledge on this topic is summarized in 2019 in a systematic review by Al-Sharefi et al. [103] and demonstrated an increase in hemoglobin level in the TTh trials with men >65 years old with the known and unknown reasons for anemia. Taking into account the role of testosterone in pathogenesis and treatment of anemia in the elderly we recommend the investigation of total blood count and ferritin in men with suspected age-related TD and concomitant treatment of diagnosed anemia [6]

-We recommend 12.1 nmol/L as a lower limit of normal for serum TT level. However, due to individual SHBG concentration variation, TTh may be reasonably offered to symptomatic men with testosterone concentrations higher than 12 nmol/L if free T concentrations are reduced





Recommendation 5: assessment of treatment outcome and decisions on continued therapy

*Improvement in hypogonadal signs and symptoms occur at different times for different organ systems


-The only indication for TTh in men is confirmed TD. Improvement in hypogonadal signs and symptoms occur at different times for different organ systems [104].

-Reduction in fat mass and increased lean body mass and muscle strength occur within 12–16 weeks of starting TTh, data from available meta-analyses on observational studies indicate that the effects on the body weight can require up to 2 years [79].

-Significant improvement in libido is usually experienced within 3–6 weeks of commencing TTh whereas ED improvement can be observed after 12 weeks [78].
Up to 12 months of TTh may be required before significant improvement in ejaculatory function is observed [105]. Some publications show continued improvement of erectile function for up to 4-9 years [106,107]. Significant improvement in quality of life (QoL) usually occurs within 3–4 weeks of starting TTh; longer-term TTh is required to achieve maximum QoL benefit. Effects on depressive mood become detectable after 3–6 weeks of starting TTh, with maximum improvement occurring after 18–30 weeks. Improvements in bone are detectable after 6 months of TTh, while the full beneficial effect of TTh on bone mineral density may take 2–3 years [108,109] or even 6 years as suggested by Haider et al. [110].

-Effects of TTh on lipids appear after 4 weeks, with maximal effects being seen after 6–12 months of 124 B. LUNENFELD ET AL. treatment. Insulin sensitivity may improve within a few days of starting TTh, but effects on glycaemic control become evident only after 3–12 months. Failure to improve clinical symptoms within a reasonable period should result in a reevaluation of TTh with regard to dosage, compliance, and level of serum T achieved. Further investigation should be undertaken to determine other causes of the symptoms





Recommendation 6: body composition and mobility

*TTh lead to a reduction of fat mass as well as the consistent increase in lean mass


-In hypogonadal men, TTh improves body composition (decrease of fat mass, an increase of lean body mass). Meta-analyses of randomized trials in middle-aged and older men have demonstrated the beneficial effects of TTh in reducing fat mass [79,111,112] with a significant increase in lean body mass and grip strength.




Recommendation 7: bone density and fracture rate

*TD is a risk factor for secondary osteoporosis

*TTh significantly increases vertebral and hip bone density in hypogonadal men


-Assessment of bone density at 2-year intervals is recommended in aging, hypogonadal men with normal bone density. In men with lowered bone mineral density receiving TTh, stabilization or progress may be monitored with annual dual-energy X-ray absorptiometry (DXA). This should be performed using DXA as a gold standard method providing the largest amount of reliable data

-Meanwhile, there are no studies on TTh on fracture risk, TTh is not recommended as an approved osteoporosis treatment, though clinical experience shows that TTh may be efficient. We suggest TT measurement in all men with osteoporosis


-TTh should not be prescribed as a monotherapy in patients with TD and increased bone fracture risk




Recommendation 8: testosterone and sexual function

*TTh improves libido and erectile function in men with TD


-The initial assessment of men with ED and/or diminished libido or impaired morning erections should include determination of TT and free T level. These symptoms, with or without testosterone deficiency, might be related to co-morbidities (i.e. T2DM, hyperprolactinemia, obesity, bladder outlet obstruction, peripheral vascular disease, or medications).

-Men with poor morning erections, ED and/or diminished libido, and documented TD are candidates for TTh. Meta-analyses of randomized, placebo-controlled trials of TTh in men with sexual dysfunction and varying TT levels demonstrated benefits in some aspects of sexual desire, erectile function, and performance [77,78,132].


-In hypogonadal men with an inadequate response to phosphodiesterase type-5 inhibitors, TTh has been shown to be of benefit.

-In aging hypogonadal men presenting with one or more sexual dysfunction symptoms and low TT levels, a short (3–6 months) trial of TTh may be justified. Meanwhile, there is data that a 12- months period is necessary to see an improvement in sexual function in some men [105]. If no improvement in sexual function is noted after an adequate trial of treatment, further investigation should be undertaken to determine other causes of ED.

-An inadequate response to TTh requires a reassessment of the causal mechanisms responsible for the sexual dysfunction.





Recommendation 9: testosterone and obesity, metabolic syndrome, and type 2 diabetes mellitus

*We suggest measurement of serum T level in men with obesity and diabetes mellitus type 2, particularly in symptomatic subjects


-Many of the components of metabolic syndrome (MetS) such as obesity, hypertension, dyslipidemia, impaired glucose regulation, and insulin resistance are also present in hypogonadal men [139]. The MetS and T2DM are frequently associated with low TT levels and a majority of the patients with these conditions display symptoms of TD [34,140,141].

-In addition to improving TD symptoms, TTh may have other benefits on metabolic status in hypogonadal men with diabetes and/or MetS, that include improvement of surrogate parameters of cardiometabolic risk [144], such as significant reductions in fasting plasma glucose, homeostasis model assessment index (HOMA), triglycerides, and waist circumference





Recommendation 10: testosterone, cardiovascular disease, and all-cause mortality

*There is no evidence showing increased cardiovascular (CV) mortality or morbidity with TTh


-In conclusion, available data showed that when appropriately diagnosed and managed TTh in subjects with TD is not associated with increased CV mortality and morbidity. Possible preliminary positive results on CV outcomes should be confirmed through larger placebo-controlled RCT




Recommendation 11: depression and cognitive function

*TTh is associated with a mild reduction of depressive symptoms




Recommendation 12: benign prostatic hyperplasia (BPH) and lower urinary tract symptoms (LUTS)

*There is no evidence that TTh either increases the risk of BPH or contributes to the worsening of LUTS


-At present, there is no evidence that TTh either increases the risk of BPH or contributes to the worsening of LUTS [104,193]. Several studies, including long-term TTh data, reported improvement in LUTS in hypogonadal men with mild BPH [133,194–196]. Data derived from TTrials showed no difference in IPSS (International Prostate Symptom Score) score in T the treated group compared with placebo [6]




Recommendation 13: prostate cancer (PCa)

*There is no evidence of increased PCa risk in men on TTh


-Recent evidence fails to support the longstanding fear that T therapy will increase prostate cancer risk or cause rapid growth of occult cancer. Indeed, a recent meta-analysis including 608 testosterone-deficient PCa survivors, of whom 109 were high-risk, showed TTh may not increase biochemical recurrence risk [197], another meta-analysis did not observe a higher rate of biochemical recurrence risk after TTh for nonmetastatic PCa [198]. Furthermore, in a number of studies TTh was prescribed in hypogonadal men with untreated prostate cancer undergoing active surveillance with no signs of cancer progression [199–201] or nonsignificant compared to the controls [202]

-The relationship between testosterone and prostate cancer appears to follow a saturation curve, present in many biological systems, in which growth corresponds with a concentration of a key nutrient until a concentration is reached in which an excess of the nutrient is achieved [203] (Figure 2). Clinical data indicate the saturation point for serum T is approximately 250 ng/dL (8.68 nmol/L) [183,204,205]

-There is no evidence that TTh will convert sub-clinical prostatic lesions to clinically detectable PCa

-Nonetheless, in the absence of large-scale, long-term controlled studies, it is impossible to definitively assert the safety of TTh with regard to PCa. Therefore, prior to starting TTh, a patient’s risk of PCa must be assessed using, at a minimum measurement of serum prostate-specific antigen (PSA). Pretreatment assessment should include PCa risk predictors such as age, family history of PCa, and ethnicity/race. If suspicion of PCa exists, it may be reasonable to perform a prostate biopsy if warranted by clinical presentation. Testosterone therapy may be initiated in these men if a prostate biopsy is negative

-After initiation of TTh, patients should be monitored for prostate disease with measurement of serum PSA at 3–6 months, 12 months, and at least annually thereafter. In a subject with an increased risk of PCa urologist supervision is required

-An initial increase of prostate-specific antigen (PSA) and prostate volume with TTh is frequently seen over the first 2–6 months because the prostate is an androgen-dependent organ. The increase in PSA will be greatest in men with marked TD and least (or absent) in men with milder degrees of TD [204]. The PSA level at 6 months after initiation of TTh should be used as the new baseline.
Should a patient’s PCa risk be sufficiently high based on suspicious findings on digital rectal examination (DRE)/prostate ultrasound or PSA >4.0 ng/ml, transrectal ultrasound-guided biopsies of the prostate are recommended and the patient should be referred to a urologist for further clinical examination.

-Referral to a urologist for prostate evaluation and possible biopsy during TTh should be made with the development of a new palpable prostate abnormality on DRE or with a worrisome rise in PSA. Recommendations regarding what constitutes a concerning rise in PSA include an increase of 1.0 ng/ml over baseline PSA [213] or a PSA velocity greater than 0.35 ng/ml per year [214].





Recommendation 14: treatment and delivery systems

*T delivery systems should be prescribed according to patient preference and clinical conditions

*Preparations of aromatizable T should be used for TTh

-Preparations of native testosterone or its esters (aromatizable T) should be used for TTh. Currently available intramuscular, subdermal, transdermal, oral and buccal T preparations are safe and effective


-However, long-acting injectable T undecanoate and T gels have demonstrated the best safety profile when compared to older shorter-acting T esters such as propionate or enanthate. Similarly, older oral T preparations are no longer recommended since their absorption is unpredictable and tightly related to the type of meals [215]

-In the case of primary TD, testosterone preparations are the only option of TTh. In the case of secondary TD, testosterone monotherapy should be used if fertility is not required.
Conversely, when fatherhood is desired, the combination of hCG with menopausal/ recombinant FSH should be considered [216–218]

-The treating physician should have sufficient knowledge and adequate understanding of the pharmacokinetics as well as of the advantages and drawbacks of each TTh preparation

-There is some evidence that selective estrogen receptor modulators (SERMs) such as clomiphene citrate and tamoxifen citrate can be used in TD treatment in men. The main action of SERMs is the inhibition of the negative feedback of estrogen at the hypothalamus and pituitary level, which results in the release of LH and FSH, which in turn increases testosterone biosynthesis and “stimulates” spermatogenesis in responsive gonads. [219]

-Aromatase Inhibitors (AI) such as anastrozole and letrozole lowers estrogen levels by blocking the aromatase enzyme, which converts testosterone to estradiol

-However, the available data on the use of SERMS and AI for the treatment of TD is limited and of poor quality.
Estrogens are vitally important players in many physiologic functions in men including bone metabolism, cardiovascular health, spermatogenesis, cognition, and sexual function [220,221]. In addition, the use of these preparations for TD is off-label. Hence, we recommended against the use of these drugs in men with TD

-Some authors recommend that TTh be discontinued if hematocrit is >54%, which may be reasonable while baseline hematocrit level >50% is a relative contraindication for starting testosterone therapy. However, these recommendations are based on assumptions – the clinical significance of a hematocrit >54% is unknown. . The meta-analysis by FernandezBalsells [208] showed that, despite a higher incidence of elevated hematocrit, no clinical adverse effects were reported. Results of earlier studies (MEDLINE database search from 1966 to 2004) showed that, despite TTh-treated men being nearly four times as likely to have hematocrit >50% compared with placebo-treated men (OR ¼ 3.69, 95% CI, 1.82–7.51), the frequency of cardiovascular events, sleep apnea or death was not significantly different between the two groups. Hematocrit elevations were reported in 43.8% of patients administered intramuscular T enanthate injections and in 15.4% of patients administered transdermal T treatment [222]. The lack of increase in cardiovascular events with elevated hematocrit may be due to the fact that T acts as a vasodilator and has anti-atherosclerotic effects [223]. In addition, testosterone is able to decrease plasma concentrations of procoagulatory substances such as fibrinogen and PAI-1 as well as Factor XII [224] Isolated hematocrit elevations can be the result of insufficient fluid intake on a hot day. Only repeated measures of hematocrit >54% should be followed by concomitant administration of aspirin, bleeding, therapeutic phlebotomy, and/or discontinuation of TTh until hematocrit declines below 54%. After normalization of hematocrit levels, TTh can be continued with a reduced dosage

-Periodic hematological assessment is, however, indicated, i.e. before TTh, then 3–4 months and 12 months in the first year of treatment, and annually thereafter. Although it is not yet clear what upper limit of hematocrit level is clinically desirable, dose adjustments may be necessary to keep hematocrit below 52–54%

-It is recommended to clinically apply the various time-dependent effects of TTh. Each target symptom or tissue has a specific timeframe of expected response to normalization of TT level (Figure 3)

-Inadequate data are available to determine the optimal target serum T level for men with TD. For the present time, the treatment goal with TTh is to maintain serum T levels in the normal range. Sustained supra-physiological serum T levels should be avoided. No evidence exists for or against the need to maintain the physiological circadian rhythm of serum T levels

-Men with significant erythrocytosis (hematocrit >52%), severe untreated obstructive sleep apnea, or untreated severe congestive heart failure should not be started on treatment with TTh without prior resolution of the co-morbid condition.
 

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Table 1. Disorders and conditions most frequently associated with TD.
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Table 2. Medications that may be the reason for low testosterone level/decreased testosterone bioactivity.
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Laboratory Diagnosis

*It must however be remembered that RECOMMENDATIONS CAN NEVER REPLACE CLINICAL EXPERTISE

*A large number of men with TD who would be expected to benefit from testosterone treatment, continue to remain undiagnosed and untreated due to deficient basic knowledge and postgraduate medical training in sexual medicine

*Liquid chromatography-tandem mass spectrometry (LCMS/MS) assays are considered the gold standard for TT measurement provide consistently higher accuracy, specificity, and sensitivity than do most immunoassays

*LCMS/MS should remain the gold standard method even for free T evaluation


*No consensus has been reached regarding the lower TT threshold defining TD, and there is no generally accepted lower limits of normal TT. This lack of consensus follows from the fact that no studies have shown a clear threshold for TT or free T that distinguishes men who will respond to treatment from those who will not

*The single greatest variable confounding the interpretation of total T is that SHBG concentrations vary enormously from one individual to another, among both younger and older men

*Routine SHBG testing should be considered for men suspected of T deficiency

*It is preferred to obtain a serum sample for TT determination between 07.00 and 11.00 h, although diurnal variation is substantially blunted in older men

*However, other authors have reported that the diurnal circadian rhythm of free testosterone and bioavailable testosterone may persist in men younger than 75 years

*A large body of evidence has documented that circulating T levels are substantially decreased (from 14 to more than 30%) if not measured in fasting conditions

*Measurements of serum luteinizing hormone (LH) will assist in differentiating between primary and secondary TD

*Measurement of serum prolactin level is indicated when TT is <5.2 nmol/L (150 ng/dL) or when hypogonadotropic TD due to a pituitary tumor (like prolactinoma) is suspected. Similar considerations should be applied for pituitary MRI scans

*Men with significant erythrocytosis (hematocrit >52%), severe untreated obstructive sleep apnea, or untreated severe congestive heart failure should not be started on treatment with TTh without prior resolution of the co-morbid condition.
 
AR CAG repeat lengths (short/long)

*The number of cytosine–adenine–guanine triplet (CAG) repeats in androgen receptors differ in men and influences the androgen receptor activity [88,89,90,91] (Figure 1). Hence testosterone sensitivity may vary in different individuals.

*The same applies to androgen receptor gene CAG repeat lengths >24 in the presence of symptoms and normal testosterone levels may be considered as a state of preclinical TD [93]

*In general, it is currently speculated that variable phenotypes of androgen insensitivity exist, mainly owing to mutated androgen receptors. More subtle modulation of androgen effects is related to the CAG repeat polymorphism in exon 1 of the androgen receptor gene: transcription of androgen-dependent target genes are attenuated with the increasing length of triplets.

*As a clinical entity, the CAG repeat polymorphism can relate to variations of androgenicity in men in various tissues and psychological traits: The longer the CAG repeat polymorphism, the less prominent is the androgen effect when individuals with similar testosterone concentrations are compared.

*A strictly defined threshold to TD is likely to be replaced by a continuum spanned by genetics as well as symptom specificity. In addition, the effects of externally applied testosterone can be markedly influenced by the CAG repeats and respective pharmacogenetic implications are likely to influence indications as well as modalities of testosterone treatment of hypogonadal men. Investigation of CAG repeat polymorphism in exon 1 of the androgen receptor gene may be useful in testosterone treatment regimens adjustment
 
CVD

*There is no evidence showing increased cardiovascular (CV) mortality or morbidity with TTh


*In conclusion, available data showed that when appropriately diagnosed and managed TTh in subjects with TD is not associated with increased CV mortality and morbidity. Possible preliminary positive results on CV outcomes should be confirmed through larger placebo-controlled RCT

*Men with significant erythrocytosis (hematocrit >52%), severe untreated obstructive sleep apnea, or untreated severe congestive heart failure should not be started on treatment with TTh without prior resolution of the co-morbid condition.




 
BPH/LUTS

*There is no evidence that TTh either increases the risk of BPH or contributes to the worsening of LUTS


*At present, there is no evidence that TTh either increases the risk of BPH or contributes to the worsening of LUTS
 
PCa

*There is no evidence of increased PCa risk in men on TTh


*Recent evidence fails to support the longstanding fear that T therapy will increase prostate cancer risk or cause rapid growth of occult cancer

*The relationship between testosterone and prostate cancer appears to follow a saturation curve, present in many biological systems, in which growth corresponds with a concentration of a key nutrient until a concentration is reached in which an excess of the nutrient is achieved (Figure 2). Clinical data indicate the saturation point for serum T is approximately 250 ng/dL (8.68 nmol/L)

*There is no evidence that TTh will convert sub-clinical prostatic lesions to clinically detectable PCa

*Nonetheless, in the absence of large-scale, long-term controlled studies, it is impossible to definitively assert the safety of TTh with regard to PCa.

*Therefore, prior to starting TTh, a patient’s risk of PCa must be assessed using, at a minimum measurement of serum prostate-specific antigen (PSA). Pretreatment assessment should include PCa risk predictors such as age, family history of PCa, and ethnicity/race. If suspicion of PCa exists, it may be reasonable to perform a prostate biopsy if warranted by clinical presentation. Testosterone therapy may be initiated in these men if a prostate biopsy is negative

*After initiation of TTh, patients should be monitored for prostate disease with measurement of serum PSA at 3–6 months, 12 months, and at least annually thereafter. In a subject with an increased risk of PCa urologist supervision is required

*An initial increase of prostate-specific antigen (PSA) and prostate volume with TTh is frequently seen over the first 2–6 months because the prostate is an androgen-dependent organ. The increase in PSA will be greatest in men with marked TD and least (or absent) in men with milder degrees of TD. The PSA level at 6 months after initiation of TTh should be used as the new baseline

*Referral to a urologist for prostate evaluation and possible biopsy during TTh should be made with the development of a new palpable prostate abnormality on DRE or with a worrisome rise in PSA.
Recommendations regarding what constitutes a concerning rise in PSA include an increase of 1.0 ng/ml over baseline PSA or a PSA velocity greater than 0.35 ng/ml per year.
 
Hematocrit

*Some authors recommend that TTh be discontinued if hematocrit is >54%, which may be reasonable while baseline hematocrit level >50% is a relative contraindication for starting testosterone therapy. However, these recommendations are based on assumptions – the clinical significance of a hematocrit >54% is unknown

*The lack of increase in cardiovascular events with elevated hematocrit may be due to the fact that T acts as a vasodilator and has anti-atherosclerotic effects [223]. In addition, testosterone is able to decrease plasma concentrations of procoagulatory substances such as fibrinogen and PAI-1 as well as Factor XII [224] Isolated hematocrit elevations can be the result of insufficient fluid intake on a hot day. Only repeated measures of hematocrit >54% should be followed by concomitant administration of aspirin, bleeding, therapeutic phlebotomy, and/or discontinuation of TTh until hematocrit declines below 54%. After normalization of hematocrit levels, TTh can be continued with a reduced dosage

*Periodic hematological assessment is, however, indicated, i.e. before TTh, then 3–4 months and 12 months in the first year of treatment, and annually thereafter. Although it is not yet clear what upper limit of hematocrit level is clinically desirable, dose adjustments may be necessary to keep hematocrit below 52–54%

*Men with significant erythrocytosis (hematocrit >52%), severe untreated obstructive sleep apnea, or untreated severe congestive heart failure should not be started on treatment with TTh without prior resolution of the co-morbid condition.
 
I downloaded these two references to read them in detail:

"The lack of increase in cardiovascular events with elevated hematocrit may be due to the fact that T acts as a vasodilator and has anti-atherosclerotic effects [223]. In addition, testosterone is able to decrease plasma concentrations of procoagulatory substances such as fibrinogen and PAI-1 as well as Factor XII [224]"
 
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