What is Total T4?
Total T4 measures ALL thyroxine in the blood - both protein-bound (99.97%) and free (0.03%) forms. The vast majority of circulating T4 is bound to carrier proteins and metabolically inactive.
Protein Binding of T4
Understanding T4 protein binding is essential for interpreting Total T4:
- Total T4 = Bound T4 (99.97%) + Free T4 (0.03%)
- Thyroid-binding globulin (TBG): Binds ~75% of T4; high affinity, low capacity
- Transthyretin (TBPA): Binds ~15% of T4; lower affinity, higher capacity
- Albumin: Binds ~10% of T4; lowest affinity, highest capacity
- Only Free T4 is metabolically active: Bound T4 serves as reservoir; only free T4 enters cells
Why Total T4 Can Be Misleading: Total T4 reflects both free (active) and bound (inactive) hormone. Changes in TBG levels alter Total T4 WITHOUT changing Free T4 or thyroid function:
- High TBG: Pregnancy, estrogen therapy - Total T4 high, Free T4 normal (NOT hyperthyroid)
- Low TBG: Nephrotic syndrome, cirrhosis, androgens - Total T4 low, Free T4 normal (NOT hypothyroid)
Conditions Affecting TBG Levels
Increased TBG (Raises Total T4, Free T4 Normal)
- Pregnancy: Estrogen increases TBG synthesis; Total T4 rises 50% by mid-pregnancy
- Oral contraceptives/estrogen therapy: Similar mechanism to pregnancy
- Hepatitis (acute): Transiently increased TBG production
- Inherited TBG excess: X-linked; rare genetic variant
- Tamoxifen: Estrogen-like effects increase TBG
- Methadone, heroin: Increase TBG levels
Decreased TBG (Lowers Total T4, Free T4 Normal)
- Nephrotic syndrome: Urinary TBG loss; Total T4 low despite euthyroid state
- Cirrhosis: Decreased hepatic TBG synthesis
- Severe illness: Decreased TBG synthesis and increased degradation
- Androgens/anabolic steroids: Suppress TBG production
- Glucocorticoids (high dose): Decrease TBG synthesis
- Inherited TBG deficiency: X-linked; affects males more severely
When Total T4 is Still Useful
Despite being largely replaced by Free T4, Total T4 has limited specific uses:
- Suspected TBG abnormality: If Total T4 and Free T4 are discordant, helps identify TBG issues
- Monitoring levothyroxine in pregnancy: Some guidelines suggest Total T4 + Free T4 during pregnancy
- Calculating T3 resin uptake (T3RU): Historical test for Free Thyroxine Index (FTI); rarely used now
- Resource-limited settings: Total T4 is cheaper than Free T4; acceptable if TBG status known
Free Thyroxine Index (FTI) - Historical Context: Before Free T4 assays, FTI was calculated using Total T4 × T3 Resin Uptake (T3RU). FTI corrected Total T4 for TBG variations. Now obsolete - modern Free T4 immunoassays are direct and more accurate.
Total T4 reference ranges vary by age and physiological state, particularly pregnancy.
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| Population | Total T4 (μg/dL) | SI Units (nmol/L) |
|---|---|---|
| Adults (non-pregnant) | 4.5-12.0 | 58-154 |
| Pregnancy - 1st trimester | 6.5-15.0 | 84-193 |
| Pregnancy - 2nd/3rd trimester | 7.5-16.0 | 97-206 |
| Elderly | 4.5-12.0 | 58-154 |
| Children | 5.0-13.0 | 64-167 |
| Newborns (1-4 days) | 11.0-22.0 | 142-284 |
Pregnancy Total T4 Increase: Total T4 rises by ~50% during pregnancy due to estrogen-induced TBG increase. This is physiologically normal, NOT hyperthyroidism. Free T4 remains normal or slightly low. Always use Free T4 (with trimester-specific ranges) for thyroid assessment in pregnancy.
Important Considerations:
- Conversion factor: μg/dL × 12.87 = nmol/L
- TBG effects: Total T4 only meaningful if TBG status known
- Free T4 preferred: Modern practice uses Free T4, not Total T4, for thyroid assessment
- Discordant results: If Total T4 high but Free T4 normal, think increased TBG (pregnancy, estrogen)
Elevated Total T4
True Hyperthyroidism (Total T4 High, Free T4 High, TSH Low)
- Graves' disease: Most common cause of hyperthyroidism
- Toxic multinodular goiter: Autonomous thyroid nodules
- Toxic adenoma: Single hyperfunctioning nodule
- Thyroiditis: Subacute, postpartum, silent thyroiditis (transient)
- Excessive levothyroxine: Over-replacement or factitious hyperthyroidism
Increased TBG (Total T4 High, Free T4 Normal, TSH Normal) - Euthyroid!
- Pregnancy: Most common cause; estrogen increases TBG
- Oral contraceptives/estrogen therapy: Similar mechanism
- Acute hepatitis: Transiently increased TBG synthesis
- Inherited TBG excess: Rare X-linked disorder
- Medications: Tamoxifen, methadone, heroin
CRITICAL: Don't Treat High Total T4 + Normal Free T4: Pregnant women and those on estrogen therapy have elevated Total T4 (up to 15-16 μg/dL) with NORMAL Free T4 and TSH. This is physiologic, NOT hyperthyroidism. Treatment causes maternal hypothyroidism and fetal harm. Always check TSH and Free T4.
Low Total T4
True Hypothyroidism (Total T4 Low, Free T4 Low, TSH High)
- Hashimoto's thyroiditis: Most common cause of primary hypothyroidism
- Post-radioactive iodine: Iatrogenic hypothyroidism
- Post-thyroidectomy: Surgical removal of thyroid
- Medications: Lithium, amiodarone, tyrosine kinase inhibitors
- Iodine deficiency: Common worldwide; rare in US
Decreased TBG (Total T4 Low, Free T4 Normal, TSH Normal) - Euthyroid!
- Nephrotic syndrome: Urinary TBG loss causes low Total T4 despite normal thyroid function
- Cirrhosis: Decreased hepatic TBG synthesis
- Severe illness: Non-thyroidal illness syndrome with low TBG
- Androgens/anabolic steroids: Suppress TBG production
- Glucocorticoids (high dose): Decrease TBG synthesis
- Inherited TBG deficiency: X-linked; males more affected
Nephrotic Syndrome Pattern: Patients with nephrotic syndrome lose TBG in urine, causing Total T4 to be low (often 2-4 μg/dL) despite normal Free T4 and TSH. They are euthyroid. This is a classic example of why Total T4 is unreliable without knowing TBG status.
Total T4 Interpretation Patterns
Always interpret Total T4 alongside TSH and Free T4:
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| Total T4 | Free T4 | TSH | Interpretation |
|---|---|---|---|
| High | High | Low | True Hyperthyroidism |
| High | Normal | Normal | Increased TBG (pregnancy, estrogen, euthyroid) |
| Low | Low | High | True Hypothyroidism |
| Low | Normal | Normal | Decreased TBG (nephrotic syndrome, cirrhosis, euthyroid) |
| Normal | Normal | Normal | Euthyroid (Normal) |
Interpretation Rule: If Total T4 and Free T4 are discordant (one high, one normal OR one low, one normal), suspect TBG abnormality. TSH will be normal if euthyroid, confirming TBG issue rather than thyroid disease.
Specific Clinical Scenarios
Pregnancy - Expected Pattern
Normal Pregnancy Thyroid Function:
- Total T4: Elevated (7.5-16.0 μg/dL in 2nd/3rd trimester)
- Free T4: Normal or slightly low (use trimester-specific ranges)
- TSH: Slightly low in 1st trimester (hCG effect), then normalizes
- Conclusion: Euthyroid; high Total T4 is physiologic, not pathologic
Nephrotic Syndrome - Expected Pattern
Nephrotic Syndrome Thyroid Function:
- Total T4: Low (often 2-4 μg/dL)
- Free T4: Normal
- TSH: Normal
- Mechanism: Urinary loss of TBG reduces carrier protein
- Conclusion: Euthyroid; low Total T4 is artifact, not hypothyroidism
Oral Contraceptive Use - Expected Pattern
Women on Oral Contraceptives:
- Total T4: Elevated (may reach 13-15 μg/dL)
- Free T4: Normal
- TSH: Normal
- Mechanism: Estrogen increases TBG synthesis
- Clinical note: If on levothyroxine, dose may need 25-30% increase due to increased protein binding
Factors That Increase Total T4
Increased TBG (Total T4 High, Free T4 Normal):
- Pregnancy: Estrogen increases TBG; Total T4 rises 50% by mid-pregnancy
- Oral contraceptives/estrogen therapy: Similar mechanism
- Acute hepatitis: Transiently increased TBG synthesis
- Tamoxifen: Estrogen-like effects
- Methadone, heroin: Increase TBG levels
- Inherited TBG excess: X-linked genetic variant
True Hyperthyroidism (Total T4 High, Free T4 High):
- Graves' disease, toxic nodular goiter, thyroiditis, excessive levothyroxine
Factors That Decrease Total T4
Decreased TBG (Total T4 Low, Free T4 Normal):
- Nephrotic syndrome: Urinary TBG loss; most common acquired cause
- Cirrhosis: Decreased hepatic synthesis
- Severe illness: Decreased TBG synthesis and increased degradation
- Androgens/anabolic steroids: Suppress TBG production
- Glucocorticoids (high dose): Decrease TBG synthesis
- Inherited TBG deficiency: X-linked; males more severely affected
True Hypothyroidism (Total T4 Low, Free T4 Low):
- Hashimoto's thyroiditis, post-RAI, post-thyroidectomy, medications (lithium, amiodarone)
Medications Affecting TBG
Increase TBG:
- Estrogen, oral contraceptives, tamoxifen, selective estrogen receptor modulators (SERMs)
- Methadone, heroin, clofibrate
- 5-fluorouracil, perphenazine
Decrease TBG:
- Androgens (testosterone, danazol), anabolic steroids
- Glucocorticoids (high dose prednisone >60 mg/day)
- L-asparaginase (chemotherapy agent)
- Slow-release nicotinic acid (niacin)
Assay Interference
- Familial dysalbuminemic hyperthyroxinemia (FDH): Genetic albumin variant with high T4 affinity; Total T4 elevated, Free T4 normal (by equilibrium dialysis), TSH normal
- Anti-T4 antibodies: Rare autoantibodies cause falsely elevated Total T4
- Severe hypertriglyceridemia: May interfere with some Total T4 assays
"Free T4 is preferred over Total T4": Total T4 is affected by binding protein changes (pregnancy, estrogen, liver disease, nephrotic syndrome). Free T4 accurately reflects thyroid function regardless of TBG levels. Always order Free T4, not Total T4, for thyroid assessment.
Clinical Pearl
"High Total T4 + Normal Free T4 = Increased TBG (NOT hyperthyroidism)": Pregnancy and estrogen therapy raise TBG, increasing Total T4 by 50% while Free T4 remains normal. Patient is euthyroid. TSH will be normal, confirming no thyroid disease. Never treat based on Total T4 alone.
Clinical Pearl
"Low Total T4 + Normal Free T4 = Decreased TBG (NOT hypothyroidism)": Nephrotic syndrome causes urinary TBG loss, lowering Total T4 to 2-4 μg/dL despite normal thyroid function. Free T4 and TSH are normal. Don't start levothyroxine based on Total T4 alone.
Pregnancy Total T4 rises 50%: Estrogen increases TBG starting in first trimester. Total T4 reaches 13-16 μg/dL (up to 200 nmol/L) by second trimester. This is physiologic. Free T4 remains normal or slightly low. Use Free T4 with trimester-specific ranges for pregnancy thyroid assessment.
Clinical Pearl
Oral contraceptives increase levothyroxine needs: Estrogen in oral contraceptives increases TBG, raising Total T4. While Free T4 may remain normal initially, increased protein binding reduces bioavailable T4. Levothyroxine dose typically needs 25-30% increase. Monitor TSH 8-12 weeks after starting contraceptives.
Clinical Pearl
"99.97% bound, 0.03% free": Only 0.03% of T4 is free and metabolically active. TBG changes shift this equilibrium - increased TBG raises Total T4 but Free T4 remains the same (more carrier protein, same amount of active hormone). This is why Free T4 is a better test.
Free Thyroxine Index (FTI) is obsolete: Before direct Free T4 assays, FTI was calculated as Total T4 × T3 Resin Uptake (T3RU) to correct for TBG. Now replaced by direct Free T4 immunoassays. If you see FTI on old labs, it attempted to estimate Free T4.
Clinical Pearl
When Total T4 is still useful: If Total T4 and Free T4 are discordant (one abnormal, one normal), helps identify TBG abnormalities. Also useful in pregnancy monitoring (some guidelines suggest Total T4 1.5× pre-pregnancy baseline as target). Otherwise, stick with Free T4.
Don't diagnose thyroid disease on Total T4 alone: ALWAYS check TSH and Free T4 alongside Total T4. Isolated Total T4 elevation or reduction is often TBG-related, not true thyroid dysfunction. TSH is the screening test; Free T4 confirms dysfunction; Total T4 adds minimal information.
Clinical Pearl
Nephrotic syndrome = low Total T4, normal Free T4: Classic teaching case. Patients lose TBG in urine along with albumin. Total T4 drops dramatically (2-4 μg/dL) but Free T4 and TSH remain normal. Patient is euthyroid - do NOT treat.
Clinical Pearl
Familial dysalbuminemic hyperthyroxinemia (FDH): Rare genetic variant with albumin that binds T4 strongly. Total T4 elevated (often 15-20 μg/dL), Free T4 normal (by equilibrium dialysis), TSH normal. Euthyroid - do NOT treat. Free T4 by immunoassay may be falsely elevated; use equilibrium dialysis.
TBG is X-linked: Inherited TBG deficiency and excess are X-linked. Males are more severely affected (hemizygous). Complete TBG deficiency causes Total T4 <2 μg/dL but Free T4 and TSH are normal. No treatment needed - euthyroid state.
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