Tests Regarding the Thyroid Gland Functioning

Plasma total thyroxine (T4)

 * Normal plasma concentration: 60 - 150 nmol/l
 * Was widely used in the past as a test of thyroid function
 * Disadvantage: dependent on concentration of binding protein (TBG), therefore increased e.g. in pregnancy and on anticonceptive drugs.

Plasma total triiodothyronine (T3)

 * Normal plasma concentration 1.0 - 2.9nmol/l
 * Concentration nearly always raised in hyperthyroidism (to greater extent than t4)
 * May be normal in hypothyroidism due to preference in production of T3 in thyroid and then peripherally converted to T4
 * Disadvantage: dependent on concentration of binding protein ((TBG)

Free T4 test

 * Normal plasma concentration 10 - 2 5 pmol/l
 * Measure only unbound, active thyroxine
 * Rountine clinical use in laboratories
 * Measures thyroxine-binding globulin (TBG) too

Free T3 test

 * Normal plasma concentration 3.5 - 7.5 pmol/l

Thyroid Stimulating Hormone (TSH) measurement

 * Normal plasma concentration 0.3 - 3.5 mU/L (reducing the upper limit to 2.5 mU/L is currently subject of discussion).
 * Levels of TSH can differentiate between hypothyroidism, hyperthyroidism, and euthyroidism.
 * Eg. In case suspicion of primary thyroid disease; but if plasma TSH concentration is normal, patient is euthyroid. To diagnose primary hypothyroidism, TSH concentrations should be greatly increased
 * TSH measurement is most sensitive as they increase above normal range before T4 fall below
 * Accurate diagnosis however requires at least 2 tests, eg. TSH with free T4 / T3
 * For diagnosis of secondary thyroid dysfunctions simultaneous determinations of TSH and FT4 are required.

Thyrotrophin-Releasing Hormone (TRH) test

 * Obsolete as modern sensitive basal TSH immunoassays preferred, except for investigation of hypothalamic-pituitary dysfunction.
 * To test: plasma TSH measured before, 20 min, and 60 min after giving the patient 200 µg of TRH i.v. Normally, TSH concentration increases by 2 - 20 mu/l in 20 min, then reverts to basal level at 60 min.
 * Delayed (higher concentration at 60 min than at 20 min) TSH response to TRH is characteristic for hypothalamic disease.

Sick euthyroid syndrome in patients with non-thyroidal illness but other systemic diseases (eg infections, malignancy, myocardial infarction, post-surgery) can have an apparently low total and free T4 and T3 with a normal or low basal TSH. Levels are usually only mildly below normal and are thought to be mediated by interleukins IL-1 and IL-6.

They are caused by:


 * reduced concentration and affinity of binding proteins.
 * decreased peripheral conversion of T4 to T3 with more rT3 (reverse T3 blocks action of normal T3).
 * non-thyroidal influences on the hypothalamic-pituitary-thyroid axis (eg by cortisol) to inhibit TSH production.
 * increased plasma free fatty acids displacing thyroid hormones from their binding sites.

Today, structure parameters have advantages also in diagnosing non-thyroidal illness syndrome (see below).

Structure parameters
For special purposes, e.g. in diagnosis of nonthyroidal illness syndrome or central hypothyroidism, derived structure parameters that describe constant properties of the overall feedback control system, may add useful information. Compared with TRH test, calculating these parameters is fast and easily performed and it may reduce patient strain.

Secretory capacity (GT)
Thyroid's secretory capacity (GT) is the maximum stimulated amount of thyroxine the thyroid can produce in one second. GT is elevated in hyperthyroidism and reduced in hypothyroidism.

GT is calculated with

$$\hat G_T = {{\beta _T (D_T  + [TSH])(1 + K_{41} [TBG] + K_{42} [TBPA])[FT_4 ]} \over {\alpha _T [TSH]}}$$

or

$$\hat G_T = {{\beta _T (D_T  + [TSH])[TT_4 ]} \over {\alpha _T [TSH]}}$$

$$\alpha _T$$: Dilution factor for T4 (reciprocal of apparent volume of distribution, 0.1 l-1)

$$\beta _T$$: Clearance exponent for T4 (1.1e-6 sec-1)

K41: Dissociation constant T4-TBG (2e10 l/mol)

K42: Dissociation constant T4-TBPA (2e8 l/mol)

DT: EC50 for TSH (2.75 mU/l)

Reference range:

Sum activity of peripheral deiodinases (GD)
The sum activity of peripheral deiodinases (GD) is reduced in nonthyroidal illness with hypodeiodination and increased in rare states of hyperdeiodination.

GD is obtained with

$$\hat G_D = {{\beta _{31} (K_{M1}  + [FT_4 ])(1 + K_{30} [TBG])[FT_3 ]} \over {\alpha _{31} [FT_4 ]}}$$

or

$$\hat G_D = {{\beta _{31} (K_{M1}  + [FT_4 ])[TT_3 ]} \over {\alpha _{31} [FT_4 ]}}$$

$$\alpha _{31}$$: Dilution factor for T3 (reciprocal of apparent volume of distribution, 0.026 l-1)

$$\beta _{31}$$: Clearance exponent for T3 (8e-6 sec-1)

KM1: Dissociation constant of type-1-deiodinase (5e-7 mol/l)

K30: Dissociation constant T3-TBG (2e9 l/mol)

Reference range:

TSH index
TSH index (TSHI) helps to determine thyrotropic function of anterior pituitary on a quantitative level.

It is calculated with

$$TSHI = LN(TSH) + 0.1345 * FT4$$.

Additionally, a standardized form of TSH index may be calculated with

$$sTSHI = (TSHI - 2.7)/0.676$$.

Reference ranges:

Thyroxine-binding globulin
Increased levels of thyroxine-binding globulin result in increased total thyroxine and total triiodothyronine concentrations without an actual increase in hormonal activity of biologically active thyroid hormones.

Reference range:

Reasons for abnormal concentrations of thyroxine-binding globulin (TBG)

Thyroglobulin
Reference ranges:

Other binding hormones

 * Transthyretin (prealbumin)
 * Albumin

Additional references

 * 1) Clinical Chemistry 6th Edition by William J Marshall and Stephen K Bangert, Mosby Elsevier
 * 2) Dietrich, J. W. (2002), Der Hypophysen-Schilddrüsen-Regelkreis, Berlin, Germany: Logos-Verlag Berlin, ISBN 978-3-89722-850-4, OCLC 50451543, 3897228505
 * 3) Dietrich, J. W., A. Stachon, B. Antic, H. H. Klein, and S. Hering (2008). "The AQUA-FONTIS Study: Protocol of a multidisciplinary, cross-sectional and prospective longitudinal study for developing standardized diagnostics and classification of non-thyroidal illness syndrome." BMC Endocrine Disorders 8 (13). PMID 18851740
 * 4) Rosolowska-Huszcz D, Kozlowska L, Rydzewski A (2005). Influence of low protein diet on nonthyroidal illness syndrome in chronic renal failure. Endocrine. 27(3):283-8. PMID 16230785
 * 5) Student Consult, Kumar & Clark: Clinical Medicine 6E
 * 6)