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Free testosterone is the biologically active fraction of total testosterone that circulates unbound to carrier proteins and is therefore available to enter cells and exert androgenic effects. Testosterone circulates in three fractions: sex hormone-binding globulin (SHBG)-bound testosterone (approximately 60-80%), which is tightly bound and biologically inactive; albumin-bound testosterone (approximately 19-38%), which is loosely bound and biologically available; and free (unbound) testosterone (approximately 1-3% in men, 0.5-2% in women), which is directly available to target tissues. Bioavailable testosterone is the sum of free and albumin-bound fractions. In clinical practice, total testosterone is often measured first, but it can be misleading when SHBG levels are abnormally high or low. SHBG rises with ageing, hepatic disease, hyperthyroidism, oestrogen therapy, and certain medications, causing total testosterone to appear adequate while free and bioavailable testosterone are actually low. SHBG falls with obesity, hypothyroidism, insulin resistance, and androgen excess, causing total testosterone to underestimate the true androgenic exposure. The Vermeulen formula (1999) estimates free testosterone using the Law of Mass Action, taking into account SHBG, albumin, and total testosterone concentrations. Direct free testosterone measurement by equilibrium dialysis is the gold standard but is expensive and not routinely available. The calculated free testosterone using the Vermeulen formula correlates well (r > 0.9) with dialysis-measured free testosterone across most populations.
Vermeulen formula: Free T = Total T x [1 - (SHBG x Total T) / ((SHBG + Total T) x Kd_SHBG) - (Alb / (Alb + Kd_Alb))]; simplified approximation: Free T (pg/mL) ~ Total T (ng/dL) x 10 / (1 + 0.0001 x SHBG nmol/L); Normal free T men: 9-30 pg/mL; women: 0.3-1.9 pg/mL
- 1Measure total testosterone, SHBG, and albumin from a morning fasting blood sample (testosterone peaks in the morning).
- 2Enter values into the Vermeulen calculator, using appropriate units (total T in nmol/L or ng/dL; SHBG in nmol/L; albumin in g/dL).
- 3The calculator applies the Law of Mass Action equations to distribute testosterone between its three fractions according to binding affinities.
- 4The free testosterone output (typically in pmol/L or pg/mL) is compared against age-specific and sex-specific reference ranges.
- 5Bioavailable testosterone (free + albumin-bound) is calculated simultaneously and may be reported alongside free testosterone.
- 6Interpret low free testosterone in men (below 9 pg/mL) in the context of symptoms of hypogonadism (fatigue, low libido, erectile dysfunction, loss of muscle mass, mood changes).
- 7In women, elevated free testosterone (above 1.9 pg/mL) in the context of hirsutism, acne, irregular periods, or polycystic ovaries supports a diagnosis of androgen excess or PCOS.
Age-related SHBG rise causing functional hypogonadism despite normal total T
This 72-year-old man's total testosterone appears normal, but very high SHBG binds most of it, leaving insufficient free testosterone. Symptoms of hypogonadism in this setting reflect biochemical androgen deficiency that total testosterone alone would have missed.
Low SHBG means more of total T is free — not truly hypogonadal
Obesity suppresses SHBG, which may cause total testosterone to appear lower than it functionally is. This young man's free testosterone is in the normal range, suggesting he does not have true androgen deficiency despite a low-normal total testosterone. Weight loss will typically raise both total T and SHBG.
Low SHBG from insulin resistance amplifies androgen exposure
In this woman with PCOS, insulin resistance has suppressed SHBG, making more testosterone biologically available. Although total testosterone is within the 'normal' female range, the calculated free testosterone is elevated, confirming biochemical hyperandrogenism. This supports the PCOS diagnosis and justifies treatment of insulin resistance.
Oestrogen raises SHBG, achieving castrate-range free testosterone
Oestrogen therapy for prostate cancer markedly raises SHBG, sequestering circulating testosterone and achieving castrate-level free testosterone despite a normal total testosterone. Free testosterone measurement confirms adequate androgen suppression for tumour control.
Diagnosing biochemical hypogonadism in older men with high SHBG and symptoms despite normal total testosterone, representing an important application area for the Testosterone Free in professional and analytical contexts where accurate testosterone free calculations directly support informed decision-making, strategic planning, and performance optimization
Confirming biochemical hyperandrogenism in PCOS when total testosterone is borderline and SHBG is low due to insulin resistance, representing an important application area for the Testosterone Free in professional and analytical contexts where accurate testosterone free calculations directly support informed decision-making, strategic planning, and performance optimization
Monitoring androgen suppression in transgender women on feminising hormone therapy, representing an important application area for the Testosterone Free in professional and analytical contexts where accurate testosterone free calculations directly support informed decision-making, strategic planning, and performance optimization
Assessing testosterone replacement therapy adequacy in men with hypogonadism, representing an important application area for the Testosterone Free in professional and analytical contexts where accurate testosterone free calculations directly support informed decision-making, strategic planning, and performance optimization
Evaluating androgen excess in women with hirsutism, acne, or menstrual irregularity when total testosterone is within the reference range, representing an important application area for the Testosterone Free in professional and analytical contexts where accurate testosterone free calculations directly support informed decision-making, strategic planning, and performance optimization
Transgender women (male-to-female) on oestrogen
{'title': 'Transgender women (male-to-female) on oestrogen', 'body': 'Oestrogen therapy in transgender women markedly raises SHBG, reducing free testosterone even when total testosterone is not fully suppressed. Free testosterone targets for gender-affirming therapy aim to achieve female reference range values. Measuring free testosterone alongside SHBG and total testosterone is important for optimising hormonal treatment.'}
Athletes and anabolic steroid users
{'title': 'Athletes and anabolic steroid users', 'body': 'Exogenous androgen use suppresses endogenous LH and FSH, causing testicular atrophy and very low endogenous testosterone production. When exogenous androgens are stopped, a prolonged recovery period with low free testosterone (hypogonadotropic hypogonadism) occurs. SHBG may be very low during exogenous androgen use but rebounds markedly on cessation.'}
Congenital adrenal hyperplasia (CAH)
In the Testosterone Free, this scenario requires additional caution when interpreting testosterone free results. The standard formula may not fully account for all factors present in this edge case, and supplementary analysis or expert consultation may be warranted. Professional best practice involves documenting assumptions, running sensitivity analyses, and cross-referencing results with alternative methods when testosterone free calculations fall into non-standard territory.
Hypothyroidism and SHBG
In the Testosterone Free, this scenario requires additional caution when interpreting testosterone free results. The standard formula may not fully account for all factors present in this edge case, and supplementary analysis or expert consultation may be warranted. Professional best practice involves documenting assumptions, running sensitivity analyses, and cross-referencing results with alternative methods when testosterone free calculations fall into non-standard territory.
| Population | Free Testosterone (pg/mL) | Clinical Interpretation |
|---|---|---|
| Men 20-40 years | 9.0 - 30.0 | Normal adult male range |
| Men 41-60 years | 7.0 - 26.0 | Normal; decline with age expected |
| Men >60 years | 6.0 - 22.0 | Reduced; interpret with symptoms |
| Women (reproductive age) | 0.3 - 1.9 | Normal female range |
| Women (postmenopausal) | 0.1 - 1.2 | Reduced after menopause |
| Men — hypogonadism threshold | < 6.0 - 9.0 | Biochemical androgen deficiency if symptomatic |
Why is free testosterone more informative than total testosterone?
Total testosterone measures all testosterone in the blood, including tightly SHBG-bound fractions that cannot enter cells or exert effects. Free testosterone measures only the biologically active fraction. When SHBG is abnormal — common with ageing, obesity, thyroid disease, and liver disease — total testosterone can be profoundly misleading about the actual androgenic status of the patient.
What is the Vermeulen formula?
The Vermeulen formula (Vermeulen A, Verdonck L, Kaufman JM, 1999) uses the Law of Mass Action to calculate free testosterone from total testosterone, SHBG, and albumin concentrations, incorporating published binding constants for each protein-testosterone interaction. It is the most widely validated and commonly used calculated free testosterone method. This is particularly important in the context of testosterone free calculations, where accuracy directly impacts decision-making. Professionals across multiple industries rely on precise testosterone free computations to validate assumptions, optimize processes, and ensure compliance with applicable standards. Understanding the underlying methodology helps users interpret results correctly and identify when additional analysis may be warranted.
Can I calculate free testosterone without SHBG?
Simplified estimates exist but are substantially less accurate without SHBG. For example, the free androgen index (FAI = Total T / SHBG x 100) is used in women as a rough surrogate, but it is not equivalent to calculated free testosterone. Accurate free testosterone estimation requires SHBG. This is particularly important in the context of testosterone free calculations, where accuracy directly impacts decision-making. Professionals across multiple industries rely on precise testosterone free computations to validate assumptions, optimize processes, and ensure compliance with applicable standards. Understanding the underlying methodology helps users interpret results correctly and identify when additional analysis may be warranted.
What is bioavailable testosterone?
Bioavailable testosterone includes both free testosterone and albumin-bound testosterone (which dissociates readily at the tissue level). It is sometimes considered a better measure of androgenic bioavailability than free testosterone alone, particularly in research settings. Reference values for bioavailable testosterone differ from free testosterone values. This is particularly important in the context of testosterone free calculations, where accuracy directly impacts decision-making. Professionals across multiple industries rely on precise testosterone free computations to validate assumptions, optimize processes, and ensure compliance with applicable standards. Understanding the underlying methodology helps users interpret results correctly and identify when additional analysis may be warranted.
What is the normal range for free testosterone in men?
Reference ranges vary by assay and laboratory, but typical values are: young men (20-40 years) 9-30 pg/mL (or 174-729 pmol/L); middle-aged men 7-26 pg/mL; older men (>60 years) 6-22 pg/mL. Values below 6-9 pg/mL in the presence of hypogonadism symptoms are generally considered diagnostic of biochemical androgen deficiency. This is particularly important in the context of testosterone free calculations, where accuracy directly impacts decision-making. Professionals across multiple industries rely on precise testosterone free computations to validate assumptions, optimize processes, and ensure compliance with applicable standards. Understanding the underlying methodology helps users interpret results correctly and identify when additional analysis may be warranted.
Does free testosterone change throughout the day?
Yes. Total testosterone and free testosterone show a diurnal variation with a peak between 6-10 AM and nadir in the afternoon-evening. For diagnostic purposes, testosterone (total and free) should be measured before 10-11 AM. Averaging two or more morning measurements is recommended before making a diagnosis of hypogonadism. This is particularly important in the context of testosterone free calculations, where accuracy directly impacts decision-making. Professionals across multiple industries rely on precise testosterone free computations to validate assumptions, optimize processes, and ensure compliance with applicable standards. Understanding the underlying methodology helps users interpret results correctly and identify when additional analysis may be warranted.
How accurate is calculated free testosterone?
The Vermeulen calculated free testosterone correlates strongly with gold-standard equilibrium dialysis (r > 0.9 in most studies). However, it may underperform in patients with abnormal albumin, albumin variants, very high or very low SHBG, or in certain ethnic groups where binding constants may differ. For clinical decisions with significant consequences, equilibrium dialysis measurement is preferred.
Can women with PCOS have normal total testosterone but abnormal free testosterone?
Yes, frequently. Insulin resistance in PCOS suppresses SHBG, amplifying the proportion of testosterone that is free and biologically active. A woman may have total testosterone in the 'normal' female range yet have elevated free testosterone due to the low SHBG. This is biochemical hyperandrogenism even when total testosterone is not frankly elevated, and it supports the hyperandrogenism criterion of PCOS.
专业提示
In any patient where you suspect the SHBG may be abnormal — obese patients (low SHBG), elderly patients (high SHBG), those on oestrogens or liver disease — always measure SHBG alongside total testosterone. Without SHBG, calculated free testosterone cannot be computed and the total testosterone result can be profoundly misleading in either direction.
你知道吗?
The sex hormone-binding globulin (SHBG) molecule evolved from a protein ancestrally related to the same family as androgen-binding protein (ABP) found in the Sertoli cells of the testis. SHBG and ABP are encoded by the same gene — their tissue-specific expression patterns are regulated by different promoters, reflecting evolution's elegant solution to creating two tissue-specific hormone transport systems from a single genetic blueprint.
参考资料
- ›Vermeulen A, Verdonck L, Kaufman JM. A critical evaluation of simple methods for the estimation of free testosterone in serum. J Clin Endocrinol Metab 1999
- ›Bhasin S et al. Testosterone Therapy in Men With Hypogonadism (Endocrine Society 2018)
- ›Rosner W et al. Position Statement: Utility, limitations and pitfalls in measuring testosterone. J Clin Endocrinol Metab 2007
- ›NICE CG156 — Fertility Problems: Assessment and Treatment 2013 (updated 2023)