Abstract
ObjectivesDiagnosis of thyroid disease among individuals dwelling at high altitude remains a challenge. Reference intervals (RIs) for thyroid-associated hormones among Tibetans living at various high altitudes were established to improve diagnosis.MethodsOne thousand two hundred eighty-one subjects were randomly recruited from Nyingchi, Shigatse/Lhasa, and Ali of Tibet. Thyroid-stimulating hormone (TSH), free triiodothyronine (FT3), and free thyroxine (FT4) were measured by the Cobas e601 electrochemiluminescence analyzer. We used multiple linear regression and variance component analysis to assess the effect of sex, age, and altitude on hormones. RIs were established by refineR algorithm and compared with those provided by the manufacturer.ResultsSerum TSH was significantly lower in males than in females, while FT3 and FT4 were higher in males. Both FT3 and FT4 decreased with increasing age. FT3 increased with altitude, while TSH and FT4 were less influenced by altitude. The RI for TSH was 0.764–5.784 μIU/ml, while for FT4, the RIs were 12.36–19.38 pmol/L in females and 14.84–20.18 pmol/L in males. The RIs for FT3 at Nyingchi, Shigatse/Lhasa, and Ali in females were 4.09–4.98, 4.31–5.45, and 4.82–5.58 pmol/L, while in males, the values were 4.82–5.41, 4.88–5.95, and 5.26–6.06 pmol/L, respectively. The obtained RIs for TSH and FT4 were generally higher, while that for FT3 was narrower than the RIs provided by Cobas.ConclusionsSpecific RIs were established for thyroid-associated hormones among Tibetans, which were significantly different from those provided by the manufacturer.
Highlights
Thyroid disease is a prevalent health problem which may lead to potentially devastating healthy consequences [1]
Serum thyroid-stimulating hormone (TSH) was significantly lower in males than in females, while FT3 and FT4 were higher in males
FT3 increased with altitude, while TSH and FT4 were less influenced by altitude
Summary
Thyroid disease is a prevalent health problem which may lead to potentially devastating healthy consequences [1]. The diagnosis of thyroid disease is predominantly based on laboratory measurements, of which the accuracy is mainly related to the applicability of reference interval (RIs). Similarity, habitants in the Tibet Plateau with an average altitude of more than 4,000 m may have their hypothalamic–pituitary–thyroid (HPT) axis altered for adaptation to severe cold, hypobaric hypoxia, sleep disorder, and other unfavorable conditions. This long-term adaptation may lead to thyroid-related hormone levels in Tibetans different from those in the plain [9–11]. Even if the effects of sex, age [12– 14], region, sampling time [15], and pregnancy status [16] on thyroid-related hormones are well discussed, only few articles [10, 11, 17] have assessed the influence of altitude on thyroid-associated hormones, let alone establishing altitudespecific RIs
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