Testosterone deficiency (hypoandrogenism)

• is a clinical syndrome that results from failure to
• produce physiological levels of testosterone (androgen deficiency) and abnormal number of spermatozoa due to organic pathology that disrupts one or more levels of the hypothalamicpituitary–testicular (HPT) axis
• prevalence : 1 in 500 men

Androgen physiology

• Testosterone is the predominant androgen in males with 95% being secreted by testicular Leydig cells under the influence of luteinising hormone (LH) from the pituitary gland.
  • When total testosterone is low, an elevated luteinising hormone concentration is a sensitive indicator of primary Leydig cell failure
  • Low testosterone with inappropriately low, normal or minimally elevated luteinising hormone may indicate hypothalamo-pituitary disease that demands investigation. 
• Testosterone in plasma is bound to sex hormone binding globulin, and weakly to albumin. Only non‑bound or free testosterone, representing 1–3% of the total concentration, is biologically available.
• additionally,of the 6 mg of testosterone produced daily the majority is inactivated in the liver and excreted by the kidneys.
• A small amount of testosterone is converted to bioactive metabolites:
  • 4% to Dihydrotestosterone via a 5a reductase enzyme
  • 0.2% to Oestradiol via the enzyme aromatase
• There is a diurnal variation in serum testosterone therefore sampling should be done between 8 and 10 am.

Aetiology of androgen deficiency

Postpubertal onset hypoandrogenism

• General
  • Lethargy, fatigue
  • Low mood
  • poor concentration
  • impaired short term memory
  • decreased energy and motivation
  • reduced muscle bulk and strength
• Organ specific
  • Bone: osteopaenia, osteoporosis
  • Muscle: loss of skeletal muscle especially pectoral girdle
  • Gynaecomastia
  • Sexual/reproductive
  • Decreased libido
  • Erectile dysfunction/decreased spontaneous erections (uncommon)
• SSx of pituitary mass effect
  • headache
  • visual field defect
  • eye movement disturbance
• features of hypopituitarism or of a hormone producing pituitary tumour
  • eg. Cushing’s syndrome

Endocrine laboratory assessment

• Routine screening for hypogonadism in asymptomatic men is not recommended
• Most circulating testosterone is bound to carrier proteins
  • 44% tightly to sex hormone binding globulin [SHBG]
  • 54% loosely to albumin
• Therefore this protein binding, evaluation of free testosterone levels (and thus the presumed biologically active fraction) has been proposed to correlate better with clinical features of hypoandrogenism.
• However, the clinical value of free testosterone estimates is unclear
• Best method in assessing androgenic status serum total testosterone.
• Measurements should be performed in the morning because of the circadian nature of testosterone production.
• levels:
  • 11.1 nmol/L is normal
  • below 6.9 nmol/L is diagnostic of hypogonadism
  • 6.9–11.1 nmol/L is equivocal

Clues to androgen abuse:

• muscular build
• low HDL level
• higher than expected haematocrit

Testosterone therapy

• Testosterone therapy should not be started without a thorough work-up to delineate the underlying aetiology and identify associated pathologies.
• Older obese men with chronic comorbidities commonly present with non-specific symptoms and modestly low testosterone. In such men emphasis should be on weight loss and optimisation of comorbidities.
  • The risk–benefit ratio of testosterone therapy in such men is less favourable than in men with organic androgen deficiency.
• Testosterone replacement is recommended for symptomatic classical androgen deficiency syndromes after excluding contraindications in the initial work up
• Men with organic hypogonadism respond very well
  • marked improvement in sexual function
  • sense of well being and energy levels
  • maintenance of secondary sexual characteristics.
• Rx does not improve fertility
  • testosterone therapy may cause gonadotropin suppression and supress spermatogenesis.
• erectile dysfunction
  • Androgen deficiency and erectile dysfunction are two overlapping conditions with distinct pathophysiology.
  • A randomised, placebo-controlled trial studied the effect of testosterone therapy added to sildenafil in erectile dysfunction.
  • The results showed that sildenafil plus testosterone was not superior to sildenafil plus placebo, although pre-treatment testosterone levels in such men were not unequivocally low
• PBS subsidises Testosterone ‘on authority’ for males with
  • Established pituitary or testicular disease
  • Men over 40 years old without such disorders if:
    • serum total testosterone must be below 8 nmol/L, or
    • below 15 nmol/L in association with concentrations of serum luteinising hormone more than 1.5 times the upper limit of normal.
    • To qualify for subsidised treatment, the patient must have a low testosterone on at least two occasions
• Contraindications to testosterone therapy
  • Breast or prostate cancer
  • A palpable prostate nodule or induration without further urological evaluation
  • PSA >4 ng/mL (or >3 ng/mL in men at high risk of prostate cancer) without further urological evaluation
  • Severe lower urinary tract symptoms (International prostate symptom score >19)
  • Haematocrit >50%
  • Untreated severe obstructive sleep apnoea
  • Uncontrolled or poorly controlled heart failure
  • When fertility is desired
• Adverse effects of testosterone therapy
  • More common
    • Erythrocytosis –> can increase the risk of cardiovascular events, so haematocrit should be checked before initiation and annually during therapy
    • Acne and oily skin
    • Detection of subclinical prostate cancer
    • Growth of metastatic prostate cancer
    • Reduced sperm production and fertility
  • Uncommon
    • Gynaecomastia
    • Male pattern balding (familial)
    • Growth of breast cancer
    • Induction or worsening of obstructive sleep apnoea