Summary

Free T4 is the primary hormone secreted by the thyroid gland and the key indicator of thyroid output. Unlike total T4, Free T4 measures only the biologically active, unbound fraction — giving a true picture of how much thyroid hormone is actually available to your cells and tissues.

Free T4 is most informative interpreted alongside TSH. Raised TSH with low Free T4 confirms overt hypothyroidism. Suppressed TSH with elevated Free T4 confirms hyperthyroidism. Normal Free T4 with an abnormal TSH may indicate subclinical thyroid disease where early intervention can prevent progression.

For people on levothyroxine, Free T4 monitoring helps confirm replacement doses are achieving adequate circulating levels. Some individuals need Free T4 in the upper half of the reference range to feel well.

What It Is

T4 is synthesised in the thyroid gland using iodine and tyrosine. About 99% circulates bound to carrier proteins (thyroxine-binding globulin, albumin, transthyretin). Only the unbound fraction — Free T4 — is biologically active and can enter cells.

Once inside cells, T4 is converted to the more potent hormone Free T3 by enzymes called deiodinases. T4 therefore acts primarily as a circulating reservoir and prohormone for T3. This conversion occurs mainly in the liver, kidneys, and muscle.

Free T4 is more reliable than total T4 because it is not affected by changes in binding proteins caused by pregnancy, oral contraceptives, or liver disease.

Free T4 is preferred over total T4 because total T4 is affected by oestrogen levels and other factors that alter binding protein concentrations without changing thyroid function itself.

Functions

Metabolic rate regulation

Drives basal metabolic rate by stimulating oxygen consumption and heat production across virtually all body cells.

Cardiovascular function

Regulates heart rate, cardiac output, and vascular tone. Low Free T4 is associated with bradycardia and elevated cholesterol.

Neurological development and cognition

Essential for foetal brain development; supports cognitive speed, mood, and neurological function in adults.

Prohormone for Free T3

Serves as the primary substrate converted to biologically active Free T3 by deiodinase enzymes in peripheral tissues.

Reference Ranges

Low < 12

Borderline 12–15

Normal 15–22

Elevated > 22

Status	Range (pmol/L)	What it means
Low	< 12	Indicates reduced thyroid output — consistent with hypothyroidism when TSH is also elevated.
Borderline	12–15	Below mid-range; may not provide symptom relief for some individuals on treatment.
Normal	15–22	Adequate thyroid output — thyroid and pituitary functioning in balance.
Elevated	> 22	Excess thyroid hormone — investigate for hyperthyroidism or over-treatment.

Free T4 ranges differ between laboratory assays and should always be interpreted alongside TSH and clinical symptoms.

Symptoms of Imbalance

Free T4 symptoms mirror hypo- and hyperthyroidism depending on whether levels are low or elevated.

Low — Deficiency

Extreme fatigue and persistent low energy
Unexplained weight gain despite normal diet
Cold intolerance and low body temperature
Constipation
Dry skin, hair loss, and brittle nails
Slow heart rate
Brain fog and difficulty concentrating

High — Excess

Palpitations and rapid or irregular heartbeat
Unintentional weight loss
Anxiety, nervousness, and irritability
Heat intolerance and excessive sweating
Loose stools or diarrhoea
Tremor and muscle weakness
Insomnia

Causes of Imbalance

Causes of Low

Primary hypothyroidism — Hashimoto’s thyroiditis
Thyroid surgery or radioiodine treatment
Pituitary dysfunction (secondary hypothyroidism)
Iodine deficiency
Certain medications (amiodarone, lithium, carbamazepine)

Causes of High

Graves’ disease
Toxic multinodular goitre
Thyroid adenoma
Over-replacement with levothyroxine
Subacute or postpartum thyroiditis

Related Biomarkers

TSH

The pituitary signal that drives Free T4 — always interpreted alongside FT4.

Free T3

The active hormone produced from T4; low FT3 despite normal FT4 can explain residual symptoms.

TPO Antibodies

Autoimmune marker for Hashimoto’s — the most common cause of low Free T4.

Reverse T3

Elevated in chronic illness and stress; competes with FT3 at receptors, blunting T4 effectiveness.

Related Symptoms

Fatigue

Reduced T4 slows cellular metabolism, causing persistent exhaustion.

Weight gain

Low T4 reduces metabolic rate, making weight management very difficult.

Palpitations

Elevated Free T4 increases cardiac sensitivity, driving rapid or irregular heartbeat.

Cold intolerance

Low T4 impairs thermogenesis — patients feel cold regardless of ambient temperature.

Related Conditions

Hypothyroidism Hormonal

The most common cause of low Free T4, particularly Hashimoto’s thyroiditis.

Hyperthyroidism Hormonal

Elevated Free T4 drives the classical symptoms of thyrotoxicosis.

Graves’ Disease Immune

Autoimmune thyroid stimulation causing sustained high Free T4 and suppressed TSH.

Secondary Hypothyroidism Hormonal

Low Free T4 from pituitary failure rather than primary thyroid disease.

Related Tests

Essential Thyroid Check

TSH + FT4 + FT3 — the complete first-line thyroid panel.

Thyroid Function Plus

Adds TPO and TG antibodies to identify an autoimmune cause.

Comprehensive Thyroid Health Panel

Full thyroid plus nutritional markers affecting T4 conversion.

Thyroid and Metabolic Insight Panel

Adds Reverse T3 for persistent symptoms despite normal TSH and FT4.

FAQs

Why test Free T4 instead of total T4?

Total T4 includes protein-bound hormone that cannot enter cells and is inactive. Free T4 measures only the unbound, biologically available fraction. This makes Free T4 more accurate in people who are pregnant, taking oestrogen, or have liver disease — conditions that alter binding proteins without changing thyroid function.

Can I have normal TSH but low Free T4?

Yes, this can occur in secondary (central) hypothyroidism, where pituitary failure means insufficient TSH is produced to stimulate the thyroid. Without adequate TSH, the thyroid makes less T4 despite the pituitary signal appearing normal or low. This is why both TSH and Free T4 are measured together.

How long does Free T4 take to change after starting levothyroxine?

Free T4 typically rises within 2–4 weeks of starting or adjusting levothyroxine. TSH takes longer — 6–8 weeks — to fully reflect a dose change. Repeat testing is recommended 6–8 weeks after any adjustment.

Does Free T4 vary throughout the day?

Free T4 shows modest diurnal variation, peaking in the morning. The variation is small enough that it rarely affects clinical decisions, but testing at a consistent time of day is advisable when monitoring thyroid replacement therapy.

What if both Free T4 and TSH are low?

Low Free T4 alongside low TSH suggests secondary or central hypothyroidism — a problem with the pituitary rather than the thyroid itself. This is uncommon and requires investigation for pituitary causes such as a tumour, inflammation, or infiltration.

References

Garber JR, et al. Clinical practice guidelines for hypothyroidism in adults. Thyroid. 2012;22(12):1200–1235. View source
Spencer CA. Thyroid function tests — Free T4. Thyroid. 2004;14(Suppl 1):S31–S39. View source
Peeters RP. Subclinical hypothyroidism. N Engl J Med. 2017;376(26):2556–2565. View source

Last medically reviewed: June 2026 · Reviewed by the Trupoint Health Clinical Team.

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Free Thyroxine (Free T4) (FT4)

Summary

What It Is

Functions

Metabolic rate regulation

Cardiovascular function

Neurological development and cognition

Prohormone for Free T3

Reference Ranges

Serum Free T4

Symptoms of Imbalance

Causes of Imbalance

FAQs

References

Test your Free Thyroxine (Free T4)

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