Free Triiodothyronine Has a Distinct Circadian Rhythm That Is Delayed but Parallels Thyrotropin Levels
Context: TSH is known to have a circadian rhythm, but the relationship between this and any rhythm in T4 and T3 has not been clearly demonstrated. Objective: With a view to optimizing thyroid hormone replacement therapy, we have used modern assays for free T4 (FT4) and free T3 (FT3) to investigate c...
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| Published in | The journal of clinical endocrinology and metabolism Vol. 93; no. 6; pp. 2300 - 2306 |
|---|---|
| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Bethesda, MD
Oxford University Press
01.06.2008
Copyright by The Endocrine Society Endocrine Society |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0021-972X 1945-7197 |
| DOI | 10.1210/jc.2007-2674 |
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| Abstract | Context: TSH is known to have a circadian rhythm, but the relationship between this and any rhythm in T4 and T3 has not been clearly demonstrated.
Objective: With a view to optimizing thyroid hormone replacement therapy, we have used modern assays for free T4 (FT4) and free T3 (FT3) to investigate circadian rhythmicity.
Setting: The study was performed at a university hospital.
Design and Subjects: This was a cross-sectional study in 33 healthy individuals with 24-h blood sampling (TSH in 33 and FT4 and FT3 in 29 individuals) and cosinor analysis.
Results: Of the individuals, 100% showed a sinusoidal signal in TSH, for FT4 76%, and for FT3 86% (P < 0.05). For FT4 and FT3, the amplitude was low. For TSH the acrophase occurred at a clock time of 0240 h, and for FT3 approximately 90 minutes later at 0404 h. The group cosinor model predicts that TSH hormone levels remain above the mesor between 2020 and 0820 h, and for FT3 from 2200–1000 h. Cross correlation of FT3 with TSH showed that the peak correlation occurred with a delay of 0.5–2.5 h. When time-adjusted profiles of TSH and FT3 were compared, there was a strong correlation between FT3 and TSH levels (ρ = 0.80; P < 0.0001). In contrast, cross correlation revealed no temporal relationship between FT4 and TSH.
Conclusions: FT3 shows a circadian rhythm with a periodicity that lags behind TSH, suggesting that the periodic rhythm of FT3 is due to the proportion of T3 derived from the thyroid. Optimizing thyroid hormone replacement may need to take these rhythms into account. |
|---|---|
| AbstractList | Context: TSH is known to have a circadian rhythm, but the relationship between this and any rhythm in T4 and T3 has not been clearly demonstrated.
Objective: With a view to optimizing thyroid hormone replacement therapy, we have used modern assays for free T4 (FT4) and free T3 (FT3) to investigate circadian rhythmicity.
Setting: The study was performed at a university hospital.
Design and Subjects: This was a cross-sectional study in 33 healthy individuals with 24-h blood sampling (TSH in 33 and FT4 and FT3 in 29 individuals) and cosinor analysis.
Results: Of the individuals, 100% showed a sinusoidal signal in TSH, for FT4 76%, and for FT3 86% (P < 0.05). For FT4 and FT3, the amplitude was low. For TSH the acrophase occurred at a clock time of 0240 h, and for FT3 approximately 90 minutes later at 0404 h. The group cosinor model predicts that TSH hormone levels remain above the mesor between 2020 and 0820 h, and for FT3 from 2200–1000 h. Cross correlation of FT3 with TSH showed that the peak correlation occurred with a delay of 0.5–2.5 h. When time-adjusted profiles of TSH and FT3 were compared, there was a strong correlation between FT3 and TSH levels (ρ = 0.80; P < 0.0001). In contrast, cross correlation revealed no temporal relationship between FT4 and TSH.
Conclusions: FT3 shows a circadian rhythm with a periodicity that lags behind TSH, suggesting that the periodic rhythm of FT3 is due to the proportion of T3 derived from the thyroid. Optimizing thyroid hormone replacement may need to take these rhythms into account. TSH is known to have a circadian rhythm, but the relationship between this and any rhythm in T(4) and T(3) has not been clearly demonstrated.CONTEXTTSH is known to have a circadian rhythm, but the relationship between this and any rhythm in T(4) and T(3) has not been clearly demonstrated.With a view to optimizing thyroid hormone replacement therapy, we have used modern assays for free T(4) (FT4) and free T(3) (FT3) to investigate circadian rhythmicity.OBJECTIVEWith a view to optimizing thyroid hormone replacement therapy, we have used modern assays for free T(4) (FT4) and free T(3) (FT3) to investigate circadian rhythmicity.The study was performed at a university hospital.SETTINGThe study was performed at a university hospital.This was a cross-sectional study in 33 healthy individuals with 24-h blood sampling (TSH in 33 and FT4 and FT3 in 29 individuals) and cosinor analysis.DESIGN AND SUBJECTSThis was a cross-sectional study in 33 healthy individuals with 24-h blood sampling (TSH in 33 and FT4 and FT3 in 29 individuals) and cosinor analysis.Of the individuals, 100% showed a sinusoidal signal in TSH, for FT4 76%, and for FT3 86% (P < 0.05). For FT4 and FT3, the amplitude was low. For TSH the acrophase occurred at a clock time of 0240 h, and for FT3 approximately 90 minutes later at 0404 h. The group cosinor model predicts that TSH hormone levels remain above the mesor between 2020 and 0820 h, and for FT3 from 2200-1000 h. Cross correlation of FT3 with TSH showed that the peak correlation occurred with a delay of 0.5-2.5 h. When time-adjusted profiles of TSH and FT3 were compared, there was a strong correlation between FT3 and TSH levels (rho = 0.80; P < 0.0001). In contrast, cross correlation revealed no temporal relationship between FT4 and TSH.RESULTSOf the individuals, 100% showed a sinusoidal signal in TSH, for FT4 76%, and for FT3 86% (P < 0.05). For FT4 and FT3, the amplitude was low. For TSH the acrophase occurred at a clock time of 0240 h, and for FT3 approximately 90 minutes later at 0404 h. The group cosinor model predicts that TSH hormone levels remain above the mesor between 2020 and 0820 h, and for FT3 from 2200-1000 h. Cross correlation of FT3 with TSH showed that the peak correlation occurred with a delay of 0.5-2.5 h. When time-adjusted profiles of TSH and FT3 were compared, there was a strong correlation between FT3 and TSH levels (rho = 0.80; P < 0.0001). In contrast, cross correlation revealed no temporal relationship between FT4 and TSH.FT3 shows a circadian rhythm with a periodicity that lags behind TSH, suggesting that the periodic rhythm of FT3 is due to the proportion of T(3) derived from the thyroid. Optimizing thyroid hormone replacement may need to take these rhythms into account.CONCLUSIONSFT3 shows a circadian rhythm with a periodicity that lags behind TSH, suggesting that the periodic rhythm of FT3 is due to the proportion of T(3) derived from the thyroid. Optimizing thyroid hormone replacement may need to take these rhythms into account. Context: TSH is known to have a circadian rhythm, but the relationship between this and any rhythm in T4 and T3 has not been clearly demonstrated. Objective: With a view to optimizing thyroid hormone replacement therapy, we have used modern assays for free T4 (FT4) and free T3 (FT3) to investigate circadian rhythmicity. Setting: The study was performed at a university hospital. Design and Subjects: This was a cross-sectional study in 33 healthy individuals with 24-h blood sampling (TSH in 33 and FT4 and FT3 in 29 individuals) and cosinor analysis. Results: Of the individuals, 100% showed a sinusoidal signal in TSH, for FT4 76%, and for FT3 86% (P < 0.05). For FT4 and FT3, the amplitude was low. For TSH the acrophase occurred at a clock time of 0240 h, and for FT3 approximately 90 minutes later at 0404 h. The group cosinor model predicts that TSH hormone levels remain above the mesor between 2020 and 0820 h, and for FT3 from 2200–1000 h. Cross correlation of FT3 with TSH showed that the peak correlation occurred with a delay of 0.5–2.5 h. When time-adjusted profiles of TSH and FT3 were compared, there was a strong correlation between FT3 and TSH levels (ρ = 0.80; P < 0.0001). In contrast, cross correlation revealed no temporal relationship between FT4 and TSH. Conclusions: FT3 shows a circadian rhythm with a periodicity that lags behind TSH, suggesting that the periodic rhythm of FT3 is due to the proportion of T3 derived from the thyroid. Optimizing thyroid hormone replacement may need to take these rhythms into account. TSH is known to have a circadian rhythm, but the relationship between this and any rhythm in T(4) and T(3) has not been clearly demonstrated. With a view to optimizing thyroid hormone replacement therapy, we have used modern assays for free T(4) (FT4) and free T(3) (FT3) to investigate circadian rhythmicity. The study was performed at a university hospital. This was a cross-sectional study in 33 healthy individuals with 24-h blood sampling (TSH in 33 and FT4 and FT3 in 29 individuals) and cosinor analysis. Of the individuals, 100% showed a sinusoidal signal in TSH, for FT4 76%, and for FT3 86% (P < 0.05). For FT4 and FT3, the amplitude was low. For TSH the acrophase occurred at a clock time of 0240 h, and for FT3 approximately 90 minutes later at 0404 h. The group cosinor model predicts that TSH hormone levels remain above the mesor between 2020 and 0820 h, and for FT3 from 2200-1000 h. Cross correlation of FT3 with TSH showed that the peak correlation occurred with a delay of 0.5-2.5 h. When time-adjusted profiles of TSH and FT3 were compared, there was a strong correlation between FT3 and TSH levels (rho = 0.80; P < 0.0001). In contrast, cross correlation revealed no temporal relationship between FT4 and TSH. FT3 shows a circadian rhythm with a periodicity that lags behind TSH, suggesting that the periodic rhythm of FT3 is due to the proportion of T(3) derived from the thyroid. Optimizing thyroid hormone replacement may need to take these rhythms into account. |
| Author | Russell, W. Weetman, A. P. Ross, R. J. Harrison, R. F. Smith, N. Darzy, K. Shalet, S. |
| AuthorAffiliation | Academic Unit of Diabetes (W.R., A.P.W., R.J.R.), Endocrinology & Metabolism, and Department of Automatic Control and Systems Engineering (R.F.H.), The University of Sheffield, Sheffield S1 3JD, United Kingdom; Chemical Pathology (N.S.), Royal Hallamshire Hospital, Sheffield S10 2JF, United Kingdom; and Department of Endocrinology (K.D., S.S.), Christie Hospital, Manchester M20 4BX, United Kingdom |
| AuthorAffiliation_xml | – name: Academic Unit of Diabetes (W.R., A.P.W., R.J.R.), Endocrinology & Metabolism, and Department of Automatic Control and Systems Engineering (R.F.H.), The University of Sheffield, Sheffield S1 3JD, United Kingdom; Chemical Pathology (N.S.), Royal Hallamshire Hospital, Sheffield S10 2JF, United Kingdom; and Department of Endocrinology (K.D., S.S.), Christie Hospital, Manchester M20 4BX, United Kingdom |
| Author_xml | – sequence: 1 givenname: W. surname: Russell fullname: Russell, W. organization: 1Academic Unit of Diabetes (W.R., A.P.W., R.J.R.), The University of Sheffield, Sheffield S1 3JD, United Kingdom – sequence: 2 givenname: R. F. surname: Harrison fullname: Harrison, R. F. organization: 2Endocrinology & Metabolism, and Department of Automatic Control and Systems Engineering (R.F.H.), The University of Sheffield, Sheffield S1 3JD, United Kingdom – sequence: 3 givenname: N. surname: Smith fullname: Smith, N. organization: 3Department of Chemical Pathology (N.S.), Royal Hallamshire Hospital, Sheffield S10 2JF, United Kingdom – sequence: 4 givenname: K. surname: Darzy fullname: Darzy, K. organization: 4Department of Endocrinology (K.D., S.S.), Christie Hospital, Manchester M20 4BX, United Kingdom – sequence: 5 givenname: S. surname: Shalet fullname: Shalet, S. organization: 4Department of Endocrinology (K.D., S.S.), Christie Hospital, Manchester M20 4BX, United Kingdom – sequence: 6 givenname: A. P. surname: Weetman fullname: Weetman, A. P. organization: 1Academic Unit of Diabetes (W.R., A.P.W., R.J.R.), The University of Sheffield, Sheffield S1 3JD, United Kingdom – sequence: 7 givenname: R. J. surname: Ross fullname: Ross, R. J. email: r.j.ross@sheffield.ac.uk organization: 1Academic Unit of Diabetes (W.R., A.P.W., R.J.R.), The University of Sheffield, Sheffield S1 3JD, United Kingdom |
| BackLink | http://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=20405759$$DView record in Pascal Francis https://www.ncbi.nlm.nih.gov/pubmed/18364382$$D View this record in MEDLINE/PubMed |
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| Issue | 6 |
| Keywords | Endocrinopathy Obesity Nutrition Nutrition disorder Thyroid diseases Metabolic diseases Thyroid stimulating hormone Biological rhythm Circadian rhythm Delay Adenohypophyseal hormone Thyroid hormone Triiodothyronine Hormonal investigation Endocrinology Nutritional status |
| Language | English |
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| PublicationTitle | The journal of clinical endocrinology and metabolism |
| PublicationTitleAlternate | J Clin Endocrinol Metab |
| PublicationYear | 2008 |
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| References | Roti (2020071613380716500_R15) 1993; 14 Weeke (2020071613380716500_R11) 1980; 94 Soutto (2020071613380716500_R10) 1998; 30 Andersen (2020071613380716500_R21) 2002; 87 Saravanan (2020071613380716500_R4) 2007; 115 Scanlon (2020071613380716500_R12) 1980; 51 Persani (2020071613380716500_R9) 1995; 80 Newell-Price (2020071613380716500_R24) 2008; 68 Keenan (2020071613380716500_R20) 2003; 285 Azukizawa (2020071613380716500_R8) 1976; 43 Nelson (2020071613380716500_R18) 1979; 6 Bolk (2020071613380716500_R25) 2007; 66 Mantzoros (2020071613380716500_R19) 2001; 86 Lucke (2020071613380716500_R2) 1977; 86 Bunevicius (2020071613380716500_R13) 1999; 340 Darzy (2020071613380716500_R17) 2005; 90 Weeke (2020071613380716500_R3) 1978; 89 Hennemann (2020071613380716500_R16) 2004; 14 Azukizawa (2020071613380716500_R7) 1979; 26 Krieger (2020071613380716500_R22) 1971; 32 Balsam (2020071613380716500_R5) 1975; 39 Patel (2020071613380716500_R1) 1972; 43 Chan (2020071613380716500_R6) 1978; 9 Weetman (2020071613380716500_R14) 2006; 64 Merza (2020071613380716500_R23) 2006; 65 |
| References_xml | – volume: 115 start-page: 261 year: 2007 ident: 2020071613380716500_R4 article-title: Twenty-four hour hormone profiles of TSH, Free T3 and free T4 in hypothyroid patients on combined T3/T4 therapy. publication-title: Exp Clin Endocrinol Diabetes doi: 10.1055/s-2007-973071 – volume: 14 start-page: 401 year: 1993 ident: 2020071613380716500_R15 article-title: The use and misuse of thyroid hormone. publication-title: Endocr Rev – volume: 30 start-page: 235 year: 1998 ident: 2020071613380716500_R10 article-title: Nocturnal increases in the triiodothyronine/thyroxine ratio in the rat thymus and pineal gland follow increases of type II 5′-deiodinase activity. publication-title: Int J Biochem Cell Biol doi: 10.1016/S1357-2725(97)00116-7 – volume: 32 start-page: 266 year: 1971 ident: 2020071613380716500_R22 article-title: Characterization of the normal temporal pattern of plasma corticosteroid levels. publication-title: J Clin Endocrinol Metab doi: 10.1210/jcem-32-2-266 – volume: 26 start-page: 719 year: 1979 ident: 2020071613380716500_R7 article-title: Effect of a single dose of glucocorticoid on the diurnal variations of TSH, thyroxine, 3,5,3′-triiodothyronine, 3,3′5′-triiodothyronine and cortisol in normal men. publication-title: Endocrinol Jpn doi: 10.1507/endocrj1954.26.719 – volume: 43 start-page: 71 year: 1972 ident: 2020071613380716500_R1 article-title: The 24-hour plasma thyrotrophin profile. publication-title: Clin Sci doi: 10.1042/cs0430071 – volume: 51 start-page: 1251 year: 1980 ident: 2020071613380716500_R12 article-title: Dopaminergic modulation of circadian thyrotropin rhythms and thyroid hormone levels in euthyroid subjects. publication-title: J Clin Endocrinol Metab doi: 10.1210/jcem-51-6-1251 – volume: 9 start-page: 337 year: 1978 ident: 2020071613380716500_R6 article-title: The relationship between circadian variations in circulating thyrotrophin, thyroid hormones and prolactin. publication-title: Clin Endocrinol (Oxf) doi: 10.1111/j.1365-2265.1978.tb02219.x – volume: 68 start-page: 130 year: 2008 ident: 2020071613380716500_R24 article-title: Modified-release hydrocortisone for circadian therapy: a proof-of-principle study in dexamethasone-suppressed normal volunteers. publication-title: Clin Endocrinol (Oxf) doi: 10.1111/j.1365-2265.2007.03011.x – volume: 66 start-page: 43 year: 2007 ident: 2020071613380716500_R25 article-title: Effects of evening vs morning thyroxine ingestion on serum thyroid hormone profiles in hypothyroid patients. publication-title: Clin Endocrinol (Oxf) doi: 10.1111/j.1365-2265.2006.02681.x – volume: 86 start-page: 81 year: 1977 ident: 2020071613380716500_R2 article-title: Studies on circadian variations of plasma TSH, thyroxine and triiodothyronine in man. publication-title: Acta Endocrinol (Copenh) doi: 10.1530/acta.0.0860081 – volume: 86 start-page: 3284 year: 2001 ident: 2020071613380716500_R19 article-title: Synchronicity of frequently sampled thyrotropin (TSH) and leptin concentrations in healthy adults and leptin-deficient subjects: evidence for possible partial TSH regulation by leptin in humans. publication-title: J Clin Endocrinol Metab doi: 10.1210/jcem.86.7.7644 – volume: 87 start-page: 1068 year: 2002 ident: 2020071613380716500_R21 article-title: Narrow individual variations in serum T(4) and T(3) in normal subjects: a clue to the understanding of subclinical thyroid disease. publication-title: J Clin Endocrinol Metab doi: 10.1210/jcem.87.3.8165 – volume: 94 start-page: 503 year: 1980 ident: 2020071613380716500_R11 article-title: 24-h profile of serum rT3 and serum 3,3′-T2 in normal man. publication-title: Acta Endocrinol (Copenh) doi: 10.1530/acta.0.0940503 – volume: 90 start-page: 6490 year: 2005 ident: 2020071613380716500_R17 article-title: Circadian and stimulated thyrotropin secretion in cranially irradiated adult cancer survivors. publication-title: J Clin Endocrinol Metab doi: 10.1210/jc.2005-1593 – volume: 39 start-page: 297 year: 1975 ident: 2020071613380716500_R5 article-title: Circadian variations in concentrations of plasma thyroxine and triiodothyronine in man. publication-title: J Appl Physiol doi: 10.1152/jappl.1975.39.2.297 – volume: 14 start-page: 271 year: 2004 ident: 2020071613380716500_R16 article-title: Thyroxine plus low-dose, slow-release triiodothyronine replacement in hypothyroidism: proof of principle. publication-title: Thyroid doi: 10.1089/105072504323030924 – volume: 6 start-page: 305 year: 1979 ident: 2020071613380716500_R18 article-title: Methods for cosinor-rhythmometry. publication-title: Chronobiologia – volume: 43 start-page: 533 year: 1976 ident: 2020071613380716500_R8 article-title: Plasma thyrotropin, thyroxine, and triiodothyronine relationships in man. publication-title: J Clin Endocrinol Metab doi: 10.1210/jcem-43-3-533 – volume: 80 start-page: 2722 year: 1995 ident: 2020071613380716500_R9 article-title: Circadian variations of thyrotropin bioactivity in normal subjects and patients with primary hypothyroidism. publication-title: J Clin Endocrinol Metab – volume: 89 start-page: 659 year: 1978 ident: 2020071613380716500_R3 article-title: Circadian and 30 minutes variations in serum TSH and thyroid hormones in normal subjects. publication-title: Acta Endocrinol (Copenh) doi: 10.1530/acta.0.0890659 – volume: 65 start-page: 45 year: 2006 ident: 2020071613380716500_R23 article-title: Circadian hydrocortisone infusions in patients with adrenal insufficiency and congenital adrenal hyperplasia. publication-title: Clin Endocrinol (Oxf) doi: 10.1111/j.1365-2265.2006.02544.x – volume: 64 start-page: 231 year: 2006 ident: 2020071613380716500_R14 article-title: Whose thyroid hormone replacement is it anyway? publication-title: Clin Endocrinol (Oxf) doi: 10.1111/j.1365-2265.2006.02478.x – volume: 285 start-page: R664 year: 2003 ident: 2020071613380716500_R20 article-title: Physiological control of pituitary hormone secretory-burst mass, frequency, and waveform: a statistical formulation and analysis publication-title: Am J Physiol Regul Integr Comp Physiol doi: 10.1152/ajpregu.00195.2003 – volume: 340 start-page: 424 year: 1999 ident: 2020071613380716500_R13 article-title: Effects of thyroxine as compared with thyroxine plus triiodothyronine in patients with hypothyroidism. publication-title: N Engl J Med doi: 10.1056/NEJM199902113400603 |
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Objective:... CONTEXT:TSH is known to have a circadian rhythm, but the relationship between this and any rhythm in T4 and T3 has not been clearly demonstrated.... TSH is known to have a circadian rhythm, but the relationship between this and any rhythm in T(4) and T(3) has not been clearly demonstrated. With a view to... Context: TSH is known to have a circadian rhythm, but the relationship between this and any rhythm in T4 and T3 has not been clearly demonstrated. Objective:... TSH is known to have a circadian rhythm, but the relationship between this and any rhythm in T(4) and T(3) has not been clearly demonstrated.CONTEXTTSH is... |
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| SubjectTerms | Adolescent Adult Analysis of Variance Biological and medical sciences Circadian rhythm Circadian Rhythm - physiology Circadian rhythms Cross-Sectional Studies Endocrinopathies Feeding. Feeding behavior Female Fundamental and applied biological sciences. Psychology Hormone replacement therapy Humans Male Medical sciences Middle Aged Models, Statistical Non tumoral diseases. Target tissue resistance. Benign neoplasms Periodicity Pulsatile Flow - physiology Thyroid gland Thyroid hormones Thyroid-stimulating hormone Thyroid. Thyroid axis (diseases) Thyrotropin - blood Thyroxine Thyroxine - blood Time Factors Triiodothyronine Triiodothyronine - blood Vertebrates: anatomy and physiology, studies on body, several organs or systems Vertebrates: endocrinology |
| Title | Free Triiodothyronine Has a Distinct Circadian Rhythm That Is Delayed but Parallels Thyrotropin Levels |
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