1.Investigation and analysis of iodine nutritional statusin healthy adults in Urumqi of Xinjiang Uyghur Autonomous Region
Xinling WANG ; Aihemai TUHUTI ; Fuhui MA ; Yanying GUO ; Hongli ZHAO ; Reziwan OSIMAN ; Munila ABUDUNAIYIMU ; Xiaoping JIN ; Huili WANG ; Shuqing XING
Chinese Journal of Health Management 2015;(4):297-300
Objective To investigate iodine nutrition status in healthy adults in Xinjiang Urumqi city and their relationship to ethnicity, gender and age. Method A cross-sectional survey was performed in 2 100 residents of Xinjiang Urumqi 2 communities in May 2013, of which 1 835 healthy adults aged 18-84 years, mean age 46.3 ± 14.2 years were enrolled. Urine iodine with arsenic-cerium catalytic spectrophotometry and salt iodine and water iodine of the residents were measured. Result The water iodine content was 3.14 μg/L, salt iodine was 27.75 mg/kg, 1 835 urine samples were collected, the urinary iodine median(MUI) was133.4 μg/L, iodine deficiency accounted for 32.37% (595 cases), iodine sufficient 42.94% (788 cases), iodine super-sufficient 14.44%(265 cases), iodine excess 10.19%(187 cases). The urine iodine level in Han ethnic group was higher than those in Uygur adults, no significant difference was observed between men and women (P>0.05). Urinary iodine levels among different age groups had no statistical difference, but in the older groups the level was lower than that in young or middle age adults. The urinary iodine level decreased gradually with the age increasing. Conclusion There was a sufficient pattern of iodine nutrition levels in healthy adults in Xinjiang Urumqi; there was a correlation between the level of iodine nutrition and the ethnicity but not with gender;iodine nutrition level in older age group was lower than those in younger age groups. Monitoring the urinary iodine continually and decreasing iodine intake may be necessary for part of iodine excess population.
2.Establishment of reference range for specific thyroid function during pregnancy and analysis of influencing factors of hypothyroxinemia
Aikebaier RENAGULI ; Shuqing XING ; Yunzhi LUO ; Liang XING ; Yuyuan ZHANG ; Julaiti GUZAILINUER ; Wulamu MUYESHAER ; Yimamu DILIDAER ; Xinling WANG ; Yanying GUO
Chinese Journal of Endocrinology and Metabolism 2019;35(3):219-225
Objective To establish a reference range for specific thyroid function during pregnancy and to explore the influencing factors of hypothyroxinemia during pregnancy.Methods A retrospective analysis of 2 996 cases of thyroid function in the pregnant women who were with single pregnancy and without thyroid diseases and family history of those diseases.Results (1) Establish a unified reference range for specific thyroid function during pregnancy;the early,middle,and late trimesters thyrotropin (TSH) ranges were 0.02-6.39,0.16-6.23,0.64-6.59 mU/L,respectively,while free thyroxine (FT4) ranges were 11.32-23.00,9.39-18.92,8.54-16.73 pmol/L respectively.The specific reference ranges of Han and Uygur pregnant women were established separately.There was no difference in the detection rates of various thyroid diseases when using their respective reference ranges and the unified reference range of the hospital (P > 0.05).(2) The detection rate of various thyroid diseases (except subclinical hyperthyroidism) of our subjects with China guideline reference range was significantly higher than the reference range with the hospital (P<0.05).(3) The detection rates of hypothyroxinemia in all pregnant women with FT4 cut points of P2.5 and P5 were 4.3% and 7.4%,respectively,of which the Han population was 4.3% and 7.1%,respectively,and the Uygur population was 4.3% and 7.9%,respectively.(4) Comparing the mean age,gestational age,median urine iodine,and thyroid antibody positive rate between the hypothyroxinemia group and the control group,only the mean age and gestational age were different (P<0.05);Logistic binary regression analysis showed that age was the risk factor for hypothyroxinemia during pregnancy (OR =1.035,95% CI 1.006-1.066,P < 0.05).Conclusions The Han and Uygur pregnant women in this area both can use the thyroid reference range of our hospital during pregnancy.The establishment of thyroid reference range may avoid over-diagnosis of thyroid disease during pregnancy.Age is a possible influencing factor of hypothyroxinemia during pregnancy.
3.A 5-year epidemiological follow-up study on hyperparathyroxinemia in Urumqi community residents
Maimaiti NURONGGULI ; Kaidi ZHANG ; Shuqing XING ; Yan HENG ; Hui LI ; Atawula MUNIRE ; Xinling WANG ; Yanying GUO
Journal of Chinese Physician 2021;23(12):1810-1813
Objective:Based on the previous epidemiological investigation of hyperparathyroxinemia in Urumqi community, a follow-up study was conducted to understand the changes of serum parathyroid hormone (PTH) level and clinical characteristics of residents with PTH.Methods:In the previous study (2013), an epidemiological cross-sectional study of hyperparathyroxinemia was conducted on 1 473 residents of the resident community, and 180 people with hyperparathyroxinemia were found. The serum PTH, parathyroid related laboratory indexes and vitamin D were observed in high PTH population of different genders.Results:According to the inclusion criteria, 159 patients with high PTH were included in the study. The total follow-up rate was 88.3% (159/180), including 24 males (15.09%) and 135 females (84.91%). The serum PTH level in the follow-up population was 68.60 (47.85-98.80)pg/ml, which was significantly different from that in the first visit ( P<0.01). There was no significant difference in serum PTH levels between men and women ( P>0.05). The levels of serum 25(OH)D, calcium, phosphorus, magnesium, creatinine, albumin and alkaline phosphatase in the follow-up population had no significant changes compared with the first visit population (all P>0.05); After stratified by sex, the serum creatinine level of men with high PTH was significantly higher than that of women ( P<0.01), and there was no significant difference in other PTH related laboratory indexes ( P>0.05); Although the vitamin D level was still deficient (<20 ng/ml), the proportion of people with sufficient vitamin D was significantly higher than that at the first visit. Conclusions:25(OH) D deficiency was still common in the follow-up population, but the vitamin D level of the residents with PTH was significantly improved and the serum PTH level was significantly lower than that in the first visit.
4.Dynamic changes of thyroid hormone levels in pregnant women in previous iodine deficiency regions of Xinjiang Uygur Autonomous Region
Xinling WANG ; Aikebaier RENAGULI ; Yunzhi LUO ; Yusufu MAYINU ; Yuan CHEN ; Shuqing XING ; Yimamu DILIDAER ; Wulamu MUYESHAER ; Yuyuan ZHANG ; Yanying GUO
Chinese Journal of Endemiology 2020;39(5):367-372
Objective:To observe the dynamic changes of thyroid hormone levels and thyroid autoimmune antibodies in pregnant women in Xinjiang Uygur Autonomous Region during pregnancy, and to investigate the significance of repeated screening of thyroid function in different gestational ages.Methods:A retrospective study was carried out of pregnant women who completed thyroid function screening in Clinic, People's Hospital of Xinjiang Uygur Autonomous Region from January 2015 to December 2017, and the test results of thyroid stimulating hormone (TSH), free thyroxine (FT 4), free triiodothyronine (FT 3), thyroid peroxidase antibody (TPOAb), and anti-thyroglobulin antibody (TGAb) were collected and analyzed of their changes during pregnancy. Pregnant women were divided into 2 different gestational age groups by the age limit of 30, the changes of thyroid dysfunction rate with pregnancy were analyzed, and the clinical significance of repeated screening in different pregnancy stages was discussed. Results:Changes of thyroid-related indicators with pregnancy: first, second, and third trimesters were 404,725, and 767 cases, respectively; TSH level in the third trimester (2.76 mU/L) was significantly higher than those in the first and second trimesters (2.55, 2.36 mU/L, P < 0.05), there was no significant difference between the first trimester and the second trimester ( P > 0.05); the FT 4 and FT 3 levels decreased gradually with pregnancy ( P < 0.05); the positive rate of TPOAb was significantly higher in the first and second trimesters than that in the third trimester ( P < 0.05), there was no significant difference between the first trimester and the second trimester ( P > 0.05); the positive rate of TGAb decreased gradually with pregnancy ( P < 0.05). Comparison of abnormal rate of TSH in different gestational ages: the first, second, and third trimesters were 352, 664, 735 cases, respectively; the abnormal rate of TSH in the overall study was statistically significant at different stages of pregnancy (χ 2=31.627, P < 0.05), the first trimester was significantly higher those in the second and third trimesters ( P < 0.05). In pregnant women aged ≥30 years old, the abnormal rate of TSH in the first trimester was significantly higher than those in the second and third trimesters ( P < 0.05); in pregnant women aged < 30 years old, the abnormal rate of TSH in the first trimester was significantly higher than that in the third trimester ( P < 0.05). There were no significant differences in the abnormal rate of TSH in the first, second, and third trimesters between the < 30 years old group and ≥30 years old group ( P > 0.05). Comparison of abnormal rate of FT 4 in different gestational ages: there were no significant differences in the FT 4 abnormal rate among different pregnancy groups in the overall, < 30, ≥30 years old groups (P > 0.05). In early pregnancy, the abnormal rate of FT 4 in the ≥30 years old group was higher than that in the < 30 years old group ( P < 0.05); in second and third trimesters, there were no significant differences between the two age groups ( P > 0.05). Conclusions:Screening for thyroid function in the first trimester of pregnancy is important for women of different ages. Except for women with abnormal thyroid function who have not been treated during the first trimester, the rest may not need to be screened again. Pregnant women aged ≥30 years old may have a higher risk of thyroid dysfunction than those < 30 years old.
5.Changes of thyroid function, thyroid antibodies and urinary iodine among permanent residents of Urumqi in Xinjiang.
Xinling WANG ; Reziwan OSIMAN ; Fuhui MA ; Yanying GUO ; Email: GUOZEYANG@126.COM. ; Hemai TUHUTI ; Hongli ZHAO ; Munila ABUDUNAIYIMU ; Xiaoping JIN ; Huili WANG ; Shuqing XING
Chinese Journal of Epidemiology 2015;36(8):811-814
OBJECTIVETo understand the rates of diagnosis on thyroid disease and the differences in the distribution of age groups among those permanent residents, to analyze the relationships among thyroid function, thyroid antibodies and urinary iodine.
METHODSA cross-sectional survey was performed in 1 995 permanent residents in Urumqi, Xinjiang in May, 2013, Among them, 1 906 were healthy adults aged 18-84 age, with mean age as (46.3 ± 14.2) years and 30.4% of them were men. One time 10 ml random urine and blood samples were drown to examine urinary iodine (UI) thyroid stimulating hormone (TSH), free thyroxine (FT4), free triiodothyronine (FT3), anti-thyroglobulin (TgAb) and anti-thyroid peroxidase (TPOAb).
RESULTS1) 213 residents were newly diagnosed as having thyroid dysfunction (11.2%, including 78.4% women), hyperthyroidism (clinical and subclinical hyperthyroidism) that accounted for 2.7%, hypothyroidism (clinical and subclinical hypothyroidism) was accounted for 8.5%. Positive rates of TgAb (23.2%), TPOAb (16.6%) were noticed. The median urinary iodine was 134.5 µg/L, with 32% of the subjects were having iodine deficiency, 58% having adequate iodine and another 10% as under excessive iodine. No differences were observed on urine iodine between thyroid dysfunction and euthyroidism or between subjects with positive and negative antibodies. 2) TSH appeared different among age-groups of 18-, 45- and over 60. TSH showed higher in women than in men, with P value as < 0.001. For people with euthyroidism, TSH level in the antibody positive group was significantly higher than the antibody negative group (P < 0.000 1). 3) For people over 60 of age, morbidity of hypothyroidism was significantly higher than those under 60 but with no differences related to hyperthyroidism or the antibody positive rate.
CONCLUSIONUI levels were not significantly related with thyroid function and thyroid antibodies among residents of Urumqi, women showed higher on thyroid dysfunction or the rate of positive antibody. In the antibody positive group, TSH levels were significantly higher than in the antibody negative group. Hypothyroidism was seen higher in the over 60-years-of-age population. Monitoring programs on thyroid function, thyroid antibodies and urinary iodine among people over 60-years-of-age, should be strengthened.
Adolescent ; Adult ; Aged ; Aged, 80 and over ; Autoantibodies ; blood ; Autoantigens ; blood ; China ; epidemiology ; Cross-Sectional Studies ; Female ; Humans ; Hypothyroidism ; epidemiology ; Immunologic Tests ; Iodide Peroxidase ; blood ; Iodine ; urine ; Iron-Binding Proteins ; blood ; Male ; Middle Aged ; Thyroid Diseases ; epidemiology ; Thyroid Function Tests ; Thyroid Gland ; physiology ; Thyrotropin ; blood ; Thyroxine ; blood ; Triiodothyronine ; blood ; Young Adult