Subscribe to RSS
DOI: 10.1055/s-0042-107350
Maternal First Trimester TSH Concentrations: Do They Affect Perinatal and Endocrine Outcomes?
Publication History
received 22 December 2015
accepted 21 April 2016
Publication Date:
28 June 2016 (online)
Abstract
We aimed to examine the distribution of 1st trimester TSH and evaluate its association with perinatal outcomes and future development of maternal thyrotoxicosis. This retrospective cohort study included data of all women without prior thyroid disease who delivered a singleton at our medical center from 1/2001 to 12/2011 and had a 1st trimester TSH<4.0 mU/l. Women were divided according to 1st trimester TSH concentrations into quartiles and by predefined TSH values (mU/l): 1) TSH<0.1; 2) TSH 0.11–0.2; 3) TSH 0.21–0.4; and 4) TSH 0.4–4. Obstetrical outcomes, hCG concentrations, and future thyroid status were collected from electronic medical records. A total of 13 841 women fulfilled the inclusion criteria. Mean maternal TSH concentration at 5 weeks of gestation was 2.09±0.83 mU/l and decreased to 1.29±0.87 mU/l in weeks 8–9 with an increase towards the end of the 1st trimester. Odds ratio for future thyrotoxicosis was 3.64 in the lowest compared to the highest TSH quartile and 10.03 in those with TSH<0.1 compared to TSH 0.41–4 mU/l. Rates of female fetuses were higher in the low TSH quartiles and in the lower TSH groups, however baby gender was not associated with increased risk of future thyrotoxicosis. Low maternal 1st trimester TSH quartiles or concentrations were not associated with adverse pregnancy outcome. Only a minor fraction of pregnant women with a low first tirmester TSH subsequently developed future thyrotoxicosis.
-
References
- 1 De Groot L, Abalovich M, Alexander EK, Amino N, Barbour L, Cobin RH, Eastman CJ, Lazarus JH, Luton D, Mandel SJ, Mestman J, Rovet J, Sullivan S. Management of thyroid dysfunction during pregnancy and postpartum: an Endocrine Society clinical practice guideline. J Clin Endocrinol Metab 2012; 97: 2543-2565
- 2 Allan WC, Haddow JE, Palomaki GE, Williams JR, Mitchell ML, Hermos RJ, Faix JD, Klein RZ. Maternal thyroid deficiency and pregnancy complications: implications for population screening. J Med Screen 2000; 7: 127-130
- 3 Vaidya B, Anthony S, Bilous M, Shields B, Drury J, Hutchison S, Bilous R. Detection of thyroid dysfunction in early pregnancy: Universal screening or targeted high-risk case finding?. J Clin Endocrinol Metab 2007; 92: 203-207
- 4 Glinoer D, Spencer CA, Serum TSH. determinations in pregnancy: how, when and why? Nat Rev Endocrinol 2010; 6: 526-529
- 5 Stagnaro-Green A, Abalovich M, Alexander E, Azizi F, Mestman J, Negro R, Nixon A, Pearce EN, Soldin OP, Sullivan S, Wiersinga W. Guidelines of the American Thyroid Association for the diagnosis and management of thyroid disease during pregnancy and postpartum. Thyroid 2011; 21: 1081-1125
- 6 Glinoer D, de Nayer P, Bourdoux P, Lemone M, Robyn C, van Steirteghem A, Kinthaert J, Lejeune B. Regulation of maternal thyroid during pregnancy. J Clin Endocrinol Metab 1990; 71: 276-287
- 7 Krassas GE, Poppe K, Glinoer D. Thyroid function and human reproductive health. Endocr Rev 2010; 31: 702-755
- 8 Lazarus JH, Kaklamanou M. Significance of low thyroid-stimulating hormone in pregnancy. Curr Opin Endocrinol Diabetes Obes 2007; 14: 389-392
- 9 Casey BM, Dashe JS, Wells CE, McIntire DD, Leveno KJ, Cunningham FG. Subclinical hyperthyroidism and pregnancy outcomes. Obstet Gynecol 2006; 107: 337-341
- 10 Bocos-Terraz JP, Izquierdo-Alvarez S, Bancalero-Flores JL, Alvarez-Lahuerta R, Aznar-Sauca A, Real-Lopez E, Ibanez-Marco R, Bocanegra-Garcia V, Rivera-Sanchez G. Thyroid hormones according to gestational age in pregnant Spanish women. BMC Res Notes 2009; 2: 237
- 11 Haddow JE, Knight GJ, Palomaki GE, McClain MR, Pulkkinen AJ. The reference range and within-person variability of thyroid stimulating hormone during the first and second trimesters of pregnancy. J Med Screen 2004; 11: 170-174
- 12 Dashe JS, Casey BM, Wells CE, McIntire DD, Byrd EW, Leveno KJ, Cunningham FG. Thyroid-stimulating hormone in singleton and twin pregnancy: importance of gestational age-specific reference ranges. Obstet Gynecol 2005; 106: 753-757
- 13 Soldin OP, Soldin D, Sastoque M. Gestation-specific thyroxine and thyroid stimulating hormone levels in the United States and worldwide. Ther Drug Monit 2007; 29: 553-559
- 14 Gilbert RM, Hadlow NC, Walsh JP, Fletcher SJ, Brown SJ, Stuckey BG, Lim EM. Assessment of thyroid function during pregnancy: first-trimester (weeks 9–13) reference intervals derived from Western Australian women. Med J Aust 2008; 189: 250-253
- 15 Stricker R, Echenard M, Eberhart R, Chevailler MC, Perez V, Quinn FA. Evaluation of maternal thyroid function during pregnancy: the importance of using gestational age-specific reference intervals. Eur J Endocrinol 2007; 157: 509-514
- 16 Goodwin TM, Montoro M, Mestman JH, Pekary AE, Hershman JM. The role of chorionic gonadotropin in transient hyperthyroidism of hyperemesis gravidarum. J Clin Endocrinol Metab 1992; 75: 1333-1337
- 17 Aggarawal N, Suri V, Singla R, Chopra S, Sikka P, Shah VN, Bhansali A. Pregnancy outcome in hyperthyroidism: a case control study. Gynecol Obstet Invest 2014; 77: 94-99
- 18 Pillar N, Levy A, Holcberg G, Sheiner E. Pregnancy and perinatal outcome in women with hyperthyroidism. Int J Gynaecol Obstet 2010; 108: 61-64
- 19 Cooper DS, Laurberg P. Hyperthyroidism in pregnancy. Lancet Diabetes Endocrinol 2013; 1: 238-249
- 20 Mannisto T, Mendola P, Grewal J, Xie Y, Chen Z, Laughon SK. Thyroid diseases and adverse pregnancy outcomes in a contemporary US cohort. J Clin Endocrinol Metab 2013; 98: 2725-2733
- 21 Tan JY, Loh KC, Yeo GS, Chee YC. Transient hyperthyroidism of hyperemesis gravidarum. BJOG 2002; 109: 683-688
- 22 del Mar Melero-Montes M, Jick H. Hyperemesis gravidarum and the sex of the offspring. Epidemiology 2001; 12: 123-124