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SUBCLINICAL HYPERTHYROIDISM. Won Bae Kim, M.D., Ph.D. Department of Internal Medicine Asan Medical Center University of Ulsan College of Medicine Seoul, Korea. Subclinical hyperthyroidism (SH). Definition Patient having normal free thyroxine (FT4) and
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SUBCLINICAL HYPERTHYROIDISM Won Bae Kim, M.D., Ph.D. Department of Internal Medicine Asan Medical Center University of Ulsan College of Medicine Seoul, Korea
Subclinical hyperthyroidism (SH) • Definition Patient having normal free thyroxine (FT4) and total triiodothyronine (T3) levels in conjunction with a thyrotropin (TSH) level persistently below the normal range in the absence of factors known to suppress TSH √ Factors known to suppress TSH - Medications : corticosteroids and dopamine - Hypothalamic or pituitary hypo-function - Non-thyroidal illness
Prevalence of SH • Varies with the TSH cut-off, iodine intake • Endogenous : 0.5-6.3% Exogenous (on T4) : 14-23.5% • NHANES III: 3.2% (<0.4 mU/L) 0.7% (<0.1 mU/L)
Prevalence of SH JCEM 87:489, 2002
Prevalence of SH : Increase with aging NHANES III, JCEM 87:489, 2002
Etiology of SH • Exogenous - Overzealous thyroid hormone replacement Tx. - Thyroid hormone suppressive Tx. • Endogenous - Thyroid gland autonomy √ autonomously functioning adenoma √ toxic multi-nodular goiter - Graves’ disease
Etiology of SH (in iodine rich area)Kasagi K, J Endocrinol Invest 20:183, 1997 Of 186 patients with suppressed TSH √ Undergoing Tx. for hyper- / hypothyroidism 150 √ Graves’ disease (mild) 16 √ Remission after Tx. of Graves’ disease 12 √ Subacute - or painless thyroiditis 4 √ Autonomous nodular goiter 4
Natural course of SH ※ No data on long-term F/U study
Natural course of SH : A retrospective study (Endogenous SH) No treatment Change in clinical status between non-nodular and nodular patients, median follow-up period of 3.2 years (Poola R, WMJ 110:277, 2011)
Natural course of SH : A retrospective study (Endogenous SH) √ Retrospective study √ in Spain √ 75 pts (68 F / 7 M) √ 62 ± 14 yrs √ Ex : Graves = 4 Nodular ds = 68 Unknown = 3 Time of follow-up without developing overt hyperthyroidism in patients classified according to 4 risk factors (Diez JJ, Am J Med Sci 337:225, 2009)
Natural course of SH : A retrospective study (Endogenous SH) Non-adjusted and adjusted hazard ratios (with 95% CI) for the development of overt hyperthyroidism (Cox models) in several variables √ Retrospective study √ in Spain √ 75 pts (68 F / 7 M) √ 62 ± 14 yrs √ Ex : Graves = 4 Nodular ds = 68 Unknown = 3 Diez JJ, Am J Med Sci 337:225, 2009
Clinical consequences of SH • Cardiovascular effects √ arrhythmia (AF, tachycardia..) √ reducing exercise capacity ? √ increasing LV mass ? • Coronary heart disease mortality • Bone & mineral metabolism √ decrease in BMD √ increased fracture risk ? • Symptoms & quality of life ? • Mood and cognitive function ?
Clinical consequences of SH : A source of controversies The definitions of subclinical hyperthyroidism and the follow up of patients vary between studies and might explain some of the differences. Vadiveloo T, JCEM 87:489, 2011
Clinical consequences of SH : TEARS • Objective : to investigate the long-term outcomes for patients with endogenous subclinical hyperthyroidism (SH) • Design : Population record-linkage technology was used retrospectively to identify patients with SH and hospital admissions from January 1, 1993, to December 31, 2009. • Patients : All Tayside residents over 18 yr old with at least two serum TSH measurements below the reference range for at least 4 months apart and normal free T4/total T4 and normal total T3 concentrations at baseline were included as potential cases. Using a unique patient identifier, data linkage enabled a cohort of SH cases to be identified from biochemistry, prescription, admission, and radioactive iodine treatment records matched to five comparators from the general population. • Outcome measure : The association between endogenous SH and cardiovascular disease, fracture, dysrhythmia, dementia, and cancer was assessed. Vadiveloo T, JCEM 87:489, 2011
Clinical consequences of SH : TEARS Vadiveloo T, JCEM 87:489, 2011
Clinical consequences of SH : TEARS Vadiveloo T, JCEM 87:489, 2011
Clinical consequences of SH : TEARS Vadiveloo T, JCEM 87:489, 2011
Clinical consequences of SH : TEARS • There was an association between subclinical hyperthyroidism and increased risk of cardiovascular diseaseand dysrhythmia, and possibly fracture and dementia, but not with cancer. • After excluding patients who developed hyperthyroidism and those who reverted to normal during the follow-up period, subclinical hyperthyroidism was still associated with an increased risk of cardiovascular disease and dysrhythmia, and possibly dementia, but not with osteoporotic fracture or cancer. • For fracture and dementia, when the patients were divided into two groups based on their TSH measurement, there was no dose-response effect, suggesting that the association is less likely to be causal. Vadiveloo T, JCEM 87:489, 2011
Clinical consequences of SH : Thyroid Study Collaboration • Objective : to assess the risks of total and coronary heart disease (CHD) mortality, CHD events, and atrial fibrillation (AF) associated with endogenous subclinical hyperthyroidism among all available large prospective cohorts from 1950 to 2011 • Design : A meta-analysis • Patients : Individual data on 52,674 participants were pooled from 10 cohorts. Coronary heart disease events were analyzed in 22,437 participants from 6 cohorts with available data, and incident AF was analyzed in 8711 participants from 5 cohorts. Endogenous subclinical hyperthyroidism was defined as thyrotropin level lower than 0.45 mIU/L with normal free thyroxine levels. Collet TH, Arch Intern Med 172:799, 2012
Clinical consequences of SH : Thyroid Study Collaboration Collet TH, Arch Intern Med 172:799, 2012
Clinical consequences of SH : Thyroid Study Collaboration Collet TH, Arch Intern Med 172:799, 2012
Clinical consequences of SH : Thyroid Study Collaboration • In this analysis of all available prospective cohorts, endogenous subclinical hyperthyroidism was associated with an increased risk of total mortality, CHD mortality, and incident AF. • Coronary heart disease mortality and incident AF (but not other outcomes) were significantly greater in participants with thyrotropin levels lower than 0.10 mIU/L than those with thyrotropin levels between 0.10 and 0.44 mIU/L (for both, p value for trend < 0.03). • Risks did not differ significantly by age, sex, or preexisting CVD and were similar after further adjustment for cardiovascular risk factors. Collet TH, Arch Intern Med 172:799, 2012
Clinical consequences of SH • Cardiovascular effects √ arrhythmia (AF, tachycardia..) √ reducing exercise capacity ? √ increasing LV mass ? • Coronary heart disease mortality • Bone & mineral metabolism √ decrease in BMD √ increased fracture risk ? • Symptoms & quality of life ? • Mood and cognitive function ?
Treatment of patients with SH • Few data are available to guide clinical decisions regarding the treatment of SH. • Quality of evidence on the benefits of treatment Surks MI, JAMA 291:228, 2004
Treatment of patients with SH • Review of guidelines promulgated by various professional groups Cooper DS, JCEM 92:3, 2007
Algorithm for Treatment of SH Subclinical hyperthyroidism Postmenopausal or >60yr, or history of heart disease, osteoporosis, or symptoms Premenopausal or <60yr or no history of heart disease, osteoporosis, or symptoms TSH <0.1mU/L Radioiodine uptake and scan, BMD (women) -> Therapy TSH 0.1-0.4mU/L Consider radioiodine uptake and scan -> No therapy TSH 0.1-0.4mU/L Consider radioiodine uptake and scan, BMD (women) -> Consider therapy TSH <0.1mU/L Radioiodine uptake and scan, BMD (women) ->Therapy optional Cooper DS, JCEM 92:3, 2007