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Vitamin D and iodine status was associated with the risk and complication of type 2 diabetes mellitus in China

  • Yafen Zhuo , Lin Ling , Zhichun Sun , Wensen Huang , Zhenzhen Hong , Yaping Zhang , Xuefeng Peng , Xiaoyu Liu , Weilan Yuan , Wang-Yang Xu EMAIL logo and Yi Zhang EMAIL logo
Published/Copyright: February 18, 2021
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Open Life Sciences
From the journal Open Life Sciences Volume 16 Issue 1

Abstract

The purpose of this study was to assess the relationship between 25-hydroxyvitamin D (25(OH)D), urinary iodine concentration (UIC), and type 2 diabetes mellitus (T2DM) risk and complications and to establish a model to predict T2DM in the general population. A total of 567 adults (389 T2DM patients and 178 controls) were enrolled, and the levels of 25(OH)D, iodine, and blood biochemical parameters were measured. Pearson’s correlation analysis showed an inverse correlation between 25(OH)D level, UIC, and T2DM risk. Low 25(OH)D level was a risk factor for developing T2DM (OR, 0.81; 95% CI, 1.90–2.63; P = 0.043) after adjustment for multiple risk factors. 25(OH)D level and UIC were inversely correlated with short-term and long-term glucose levels. 25(OH)D deficiency was also associated with a high incidence of T2DM complicated with thyroid dysfunction. A prediction model based on 25(OH)D, iodine status, and other risk factors was established and recommended to screen high-risk T2DM in the general population and provide early screening and timely treatment for them.

Keywords: 25(OH)D level; vitamin D; urinary iodine concentration; type 2 diabetes mellitus; T2DM risk; a prediction model

1 Introduction

Diabetes mellitus is a widespread metabolic disorder. In China, approximately 11% of the population has diabetes according to the latest reports [1,2]. The pathogenesis of type 2 diabetes mellitus (T2DM) includes relatively insufficient insulin secretion and insulin resistance [3,4]. The effects of nutritional risk factors on islet β-cell physiology, especially insulin secretion, have attracted great attention [5]. Avoiding β-cell dysfunction by regulating nutrients becomes an effective way to prevent diabetes. The immune system is an important defense mechanism to maintain health. The effect of diet on various aspects of the immune system has always been studied. It has been reported that different types of proteins in diet directly affect the innate response of B lymphocytes to immunogenic stimulation [6]. In particular, high fat or high carbohydrate daily diet would decrease B lymphocytes, while the number of pancreatic CD20 + B cells was related to the loss of β cells, indicating an important role of diet regulation of B cells and islet β cells in the occurrence and development of diabetes mellitus [7,8].

Vitamin D, a secosteroid hormone, contributes to calcium homeostasis and works primarily in the musculoskeletal system [9]. In addition, vitamin D plays a major role in physiological processes associated with multiple chronic diseases such as diabetes mellitus [10,11]. Recent evidence from human and animal research have shown the relationship between vitamin D status and glucose homeostasis as well as impaired insulin sensitivity [12,13,14,15,16]. Many epidemiological studies showed that vitamin D deficiency was common in diabetes subjects [17,18,19], while some trials indicated that 25-hydroxyvitamin D (25(OH)D) levels had no influence on the incidence of diabetes [20,21].

Iodine is a major component of the thyroid hormone [22]. For T2DM, thyroid hormones are determinants of glucose homeostasis [23,24]. It is reported that thyroid disease occurs more frequently in diabetic patients than in the general population [25]. Both thyroid disorders and DM would mutually affect and interconnect with each other [26,27]. Thyroid hormones could influence glucose metabolism and hyperthyroidism, which has been proved to act as an important factor contributing to hyperglycemia [28]. About one-third of the population is at risk of iodine deficiency-related diseases because of iodine-deficient diet and environment. The adoption of universal salt iodization (USI) has been widespread since the 1990s in the world. Located in China, Quanzhou is a southern coastal city with abundant sunshine almost throughout the year, and the local diet is rich in iodine because people mainly consume seafood and milk. However, little is known about whether vitamin D and iodine status plays an important role in the incidence and process of T2DM.

In the present study, we sought to assess the relationship between vitamin D and iodine status and T2DM in Chinese population living in Quanzhou and then provided a prediction model to screen high risk of T2DM among individuals.

2 Materials and methods

2.1 Study population

From November 2017 to February 2019, a total of 389 newly diagnosed T2DM patients were enrolled from First Hospital of Quanzhou City, Fujian Province, China. The diagnosis of T2DM followed the World Health Organization definition. Participants were selected based on the following criteria: negative to (1) history of neoplasm, (2) history of any mental disorder, (3) history of diabetes, (4) history of thyroid cancer or thyroidectomy, (5) history of drug abuse, and (6) history of taking the drug to treat diabetes or thyroid diseases. The number of subjects (178) who passed a medical evaluation including a complete physical examination to exclude the existence of T2DM and thyroid diseases was considered as the control group. All samples were collected in summer and autumn. Clinical information including age, gender, body mass index (BMI), familiar history of T2DM or thyroid diseases, dietary habits, and taking iodized salt in diet were filled in. Influence of diet, including seafood (three groups: no seafood consumption; occasional: one to two meal containing seafood per week on average; frequent: at least three meal containing seafood per week) and cow’s milk (three groups: no consumption; occasional: 1–500 mL per week on average; frequent: at least 500 mL per week), was recorded according to the above classification.

  1. Informed consent: Informed consent has been obtained from all individuals included in this study.

  2. Ethical approval: The research related to human use has been complied with all the relevant national regulations and institutional policies, and in accordance with the tenets of the Helsinki Declaration and has been approved by the Ethics Committee of Fujian Medical University.

2.2 Laboratory examinations

Fasting blood sample (8 h overnight) was drawn into a serum separator tube which was centrifuged (3,000 rpm, 15 min, 4°C) to separate serum (used for measuring fasting glucose, fructosamine, C peptide, lipid profiles, serum creatinine, thyroid hormones, and thyroid antibodies). Detection values of serum glucose, glycosylated hemoglobin (HbA1c), fructosamine, C peptide, lipid profiles, serum creatinine, thyroid hormones including serum-free thyroxine (FT4), free triiodothyronine (FT3), and thyroid-stimulating hormone (TSH) were determined using an automatic biochemical analyzer (Beckman Coulter, Inc., CA, USA). The measurement of antibodies, including thyroid peroxidase antibodies (TPOAb), thyroglobulin antibodies (TGAb) and thyroid-stimulating hormone receptor antibodies (TRAb), and thyroglobulin was determined using an automatic biochemical analyzer (Roche Ltd, Switzerland). Thyroid antibodies were deemed as positive when they were above the normal range. C-reactive protein (CRP) was detected using an automatic detector (Lifotronic, China). HbA1c was measured by a glycosylated hemoglobin analyzer (Arkray Inc., Japan). Reference ranges are reported in Table A1. The diagnosis of thyroid dysfunction was made according to the following definitions:

  1. Clinical hyperthyroidism (any one of the below criteria): decreased TSH with elevated FT4 and/or elevated FT3; patients with a history of hyperthyroidism who were receiving anti-thyroid agents.

  2. Clinical hypothyroidism: elevated TSH with decreased FT4; patients with a history of hypothyroidism who were receiving levothyroxine.

  3. Subclinical hyperthyroidism: decreased TSH with normal FT4

  4. Subclinical hypothyroidism: elevated TSH with normal FT4

2.3 Serum 25(OH)D level and UIC measurement

The serum 25(OH)D levels were measured by an automatic biochemical analyzer (Roche Ltd, Switzerland). According to the National standard, a serum 25(OH)D level of <10 ng/mL was defined as a severe deficiency; <20 ng/mL as a deficiency; from 20 to 30 ng/mL insufficiency; and >30 ng/mL as 25(OH)D sufficiency. The urine specimen was collected from all participants. UIC was detected by inductively coupled plasma mass spectrometry (Agilent Technologies, Inc., Tokyo, Japan) as described in a previous study [29]. According to the National standard, UIC < 100 μg/L was defined as a deficiency, from 100 to 300 μg/L adequate, and >300 μg/L as excess.

2.4 Logistic regression model

Several typical and recent artificial intelligence algorithms were established in the context of T2DM, and the logistic regression model became our base model. Logistic scores to predict T2DM risk probability in the Chinese population were obtained according to the following equation:

T 2 DM risk probability = e β 0 + β i X i 1 + e β 0 + β i X i ,

where β 0 is the constant, while β i is the coefficient of variable X i . X i = 1 means a categorical risk factor is present and 0 means a categorical risk factor is absent. Data are shown as area under the curve (AUC) and receiver operating characteristic curve.

2.5 Statistical analysis

Statistical analysis was done using Python software (Version 3.6). Categorical variables were shown as numbers with percentages (%). Continuous variables were presented as mean ± standard deviation. Correlation analyses were performed using the Pearson’s correlation method. Multivariate logistic regression analysis was conducted to assess the risk factors for T2DM. Kruskal–Wallis H test was used to analyze intra-group or inter-group differences. The level of significance was set at P < 0.05.

3 Results

3.1 General characteristics of participants

Age, fasting glucose, fructosamine, HbA1c, total cholesterol (TC), triglyceride (TG), low-density lipoprotein cholesterol (LDL-C), TSH, and thyroglobulin were markedly increased in T2DM patients compared to the controls (P < 0.001). The levels of 25(OH)D, iodine, high-density lipoprotein cholesterol (HDL-C), creatinine, FT4, and FT3 were significantly decreased in the T2DM group than those in the controls (P < 0.05). The positive rates of TPOAb, TRAb, and TGAb were significantly higher in the diabetic patients than those in the control group (P < 0.05). According to the questionnaire responses, the number of T2DM patients who ate seafood frequently was lower than that of the control group, and the number of people who never ate seafood was higher than that of the controls. The numbers of T2DM patients who consumed milk frequently and who never drink milk were both higher than the controls. Of the T2DM patients, 43.70 and 41.57% of the controls consumed iodized salt (Table 1).

Table 1

General characteristics of T2DM and the controls

T2DM (n = 389) Control (n = 178) P-value
Age (years)* 51.83 ± 12.70 47.03 ± 11.47 <0.001
Gender (male/female) 245/144 (62.98/37.02) 103/75 (57.87/42.13) 0.196
BMI (kg/m2)* 24.23 ± 4.38 23.86 ± 2.99 0.241
25(OH)D (ng/mL)* 20.53 ± 5.46 24.85 ± 5.97 <0.001
UIC (μg/L)* 158.6 ± 92.46 212.15 ± 86.65 <0.001
Glucose (mmol/L)* 10.87 ± 3.69 5.54 ± 0.87 <0.001
Fructoseamine (mmol/L)* 3.27 ± 0.74 2.21 ± 0.34 <0.001
HbA1c (%)* 9.61 ± 2.61 5.3 ± 0.66 <0.001
C peptide (μg/L)* 2.19 ± 1.13 2.19 ± 0.7 0.977
TC (mmol/L)* 5.31 ± 1.33 4.73 ± 0.9 <0.001
TG (mmol/L)* 2.06 ± 1.44 1.47 ± 0.6 <0.001
LDL-C (mmol/L)* 3.38 ± 1.08 3.03 ± 0.71 <0.001
HDL-C (mmol/L)* 1.12 ± 0.28 1.32 ± 0.24 <0.001
Creatinine (μmol/L)* 75.89 ± 30.95 85.99 ± 18.82 <0.001
CRP (mg/L)* 3.59 ± 1.57 3.29 ± 2.68 0.106
FT4 (ng/mL)* 0.98 ± 0.47 1.22 ± 0.69 <0.001
FT3 (μg/dL)* 5.04 ± 1.00 5.22 ± 0.98 0.039
TSH (uIU/mL)* 2.22 ± 1.74 1.29 ± 0.85 <0.001
TPO-antibody positivity 36 (11.69) 6 (4.48) 0.028
TR-antibody positivity 40 (12.99) 1 (0.75) <0.001
TG-antibody positivity 19 (6.17) 0 (0.0) 0.007
Thyroglobulin (μg/L)* 15.39 ± 18.57 9.49 ± 5.92 <0.001
Sea food (fish, crab, and shrimp)
Frequent 68 (17.48) 48 (26.96) 0.006
Occasional 288 (74.04) 130 (73.04)
Never 33 (8.48) 0 (0.00)
Cow’s milk
Frequent 23 (5.91) 1 (0.56) <0.001
Occasional 148 (38.05) 148 (83.15)
Never 218 (56.04) 29 (16.29)
Iodized salt
Yes 170 (43.70) 74 (41.57) 0.635
No 219 (56.30) 104 (58.43)
Sampling season
Summer 205 (52.70) 79 (44.38) 0.066
Fall 184 (47.30) 99 (55.62)

Categorical variables are presented as numbers and percentage (%). Continuous variables presented as mean ± standard deviation (SD) are marked with asterisk (*).

3.2 Correlation between clinical variables and T2DM risk

Pearson’s correlation analysis was conducted to find the correlation of clinical risk factors and the presence of T2DM (Figure 1). There is a positive and significant correlation between T2DM risk and the levels of HbA1c (r = 0.67, P < 0.001), fasting glucose (r = 0.62, P < 0.001), fructosamine (r = 0.61, P < 0.001), age (r = 0.36, P < 0.001), TC (r = 0.22, P < 0.001), gender (r = 0.19, P < 0.001), LDL-C (r = 0.16, P < 0.001), and TG (r = 0.13, P = 0.04). Significant inverse correlations between T2DM risk and 25(OH)D (r = −0.34, P < 0.001), HDL-C (r = −0.33, P < 0.001), UIC (r = −0.26, P < 0.001), and creatinine (r = −0.17, P < 0.001) were found in the study.

Figure 1 Pearson’s correlation between clinical factors and T2DM risk.
Figure 1

Pearson’s correlation between clinical factors and T2DM risk.

3.3 Low 25(OH)D level was a risk factor for developing T2DM

The etiology of T2DM is complex. Clinical factors such as HbA1c, fructosamine, and dyslipidemia are considered traditional risk factors for T2DM. In this study, T2DM was used as a variable response and risk factors as explanatory variables in the multivariate logistic regression. We found that low 25(OH)D level was deemed as a risk factor after additional adjustment for other risk factors. Elevated fasting glucose and HbA1c were risk factors for T2DM (Table 2).

Table 2

Multivariable logistic regression analysis of risk factors for T2DM

Variables β SE Wald χ 2 OR value 95.0% CI for β P-value
Age 0.06 0.04 1.53 1.06 0.99–1.16 0.127
25(OH)D −0.21 0.10 −2.02 0.81 0.64–0.97 0.043
UIC 0.01 0.01 2.62 1.01 1.00–1.03 0.009
Glucose 1.80 0.48 3.77 6.05 2.85–19.70 <0.001
Fructoseamine 2.00 1.14 1.76 7.38 0.96–98.81 0.079
HbA1c 2.98 0.86 3.45 19.60 5.27–171.45 <0.001
TC 0.78 0.50 1.53 2.15 0.82–6.55 0.126
TG 1.10 0.82 1.34 3.01 0.62–15.77 0.181
Creatinine −0.04 0.02 −2.39 0.96 0.90–0.99 0.017

OR, odds ratio; CI, confidence interval.

3.4 Effects of 25(OH)D level and UIC on short-term and long-term glucose level

Inverse correlations between 25(OH)D level, UIC and fasting glucose, fructosamine and even HbA1c were observed (P < 0.0001). 25(OH)D level was negatively associated with TC, TG, and LDL-C, while positively associated with HDL-C (Table A2).

3.5 25(OH)D deficiency contributed to the incidence of TD in T2DM

As shown in Table 3, serum 25(OH)D deficiency was not only associated with the incidence of T2DM (no TD) (45.26 vs 24.16%, P = 0.002) but also significantly associated with the incidence of TD in T2DM (62.90 vs 45.26%, P = 0.012). Hypothyroidism and subclinical hypothyroidism were more common in the 25(OH)D-deficient group (Table A3). In accordance with these, a significant inverse correlation between 25(OH)D level and TSH in T2DM group was observed (Table A2). Iodine deficiency was significantly associated with the incidence of T2DM (35.17 vs 9.27%, P < 0.001), but it had no correlation with the prevalence of TD in T2DM (27.42 vs 35.17%, P = 0.843). Iodine excess was not associated with the risk of T2DM (8.56 vs 15.95%, P = 0.628), but it contributed to the incidence of TD (25.81 vs 8.56%, P = 0.003). Hypothyroidism was the most common disorder of thyroid dysfunctions in the UIC excess group, whereas subclinical hypothyroidism was most common in the UIC-deficient group (Table A4). UIC was found to have a significant positive correlation with TSH (Table A2).

Table 3

Incidence of TD according to 25(OH)D and iodine levels

T2DM with TD T2DM without TD Controls P-value P-value
(1) (2) (3) (1) vs (2) (2) vs (3)
25(OH)D level
Deficiency 39 (62.90) 148 (45.26) 43 (24.16) 0.012 0.002
Non-deficiency 23 (37.10) 179 (54.74) 135 (75.84)
UIC
Deficiency 17 (27.42) 115 (35.17) 14 (9.27) 0.843 <0.001
Adequate 29 (46.77) 184 (56.27) 137 (90.73)
UIC
Excess 16 (25.81) 28 (8.56) 26 (15.95) 0.003 0.628
Adequate 29 (46.77) 184 (56.27) 137 (84.05)

Categorical variables are presented as numbers and percentage (%).

Chi-square test was used to calculate the difference between groups.

3.6 A model for predicting the T2DM risk

A logistic regression model based on multiple clinical variables for assessing the risk of T2DM was built. Conventional risk factors, such as HbA1c, glucose, fructosamine, UIC, creatinine, TC, BMI, 25(OH)D level, age, TG, LDL-C, and C peptide, were incorporated into the model (ranking by the feature importance of variables in the model). As shown in Figure 2, the AUC was 0.95 for the test set. It was superior to the model without 25(OH)D level (AUC = 0.92) (Figure A1a) and the model without UIC (AUC = 0.86) (Figure A1b). When both 25(OH)D and UIC were not included, the AUC of the model was 0.83 (Figure A1c). Model score output was positively correlated with the risk of T2DM in the general population.

Figure 2 A prediction model for screening the high-risk T2DM in the population.
Figure 2

A prediction model for screening the high-risk T2DM in the population.

4 Discussion

In this study, we found that vitamin D and iodine levels were much lower in T2DM patients than that in control subjects. The prevalence of vitamin D deficiency in T2DM patients was 48% but the control was 24%. This study also showed an iodine deficiency in 34% of the T2DM cases and about 8% in the controls. Quanzhou is a southern coastal city with abundant sunshine almost throughout the year, and the diet rich in vitamin D and iodine, due to local people’s preference of seafood and milk. Besides moreover, China has greatly improved iodine consumption levels resulting from the government implementation of the USI policy in 1996 [30]. However, this finding showed that vitamin D and iodine levels were still deficient in coastal cities of China, despite inherent environmental advantages.

This study reported a reduction in 25(OH)D and iodine level in a Chinese population before the onset of T2DM. Significant inverse correlations between 25(OH)D, UIC, and T2DM risk were found. Multivariate logistic regression models further revealed that low 25(OH)D level was a risk factor for the onset of T2DM in the Chinese population, suggesting that 25(OH)D contributed to the pathophysiology of T2DM. Similar to our results, several observational studies have shown that 25(OH)D status was significantly lower in T2DM or people with impaired glucose tolerance [31,32,33,34]. The effect of decreased vitamin D levels on increasing T2DM risks was because of an increase in insulin resistance [35,36]. 1,25-Dihydroxyvitamin D can induce pancreatic β cell to secrete insulin and also elevate the expression of the insulin receptors, so as to increase the response to glucose [37,38]. Therefore, early correction of vitamin D levels in the high-risk population has a positive effect on the prevention of T2DM.

Besides, low 25(OH)D level was related to a high risk of diabetic complications including peripheral neuropathy, nephropathy, and thyroid diseases. The prevalence of TD was significantly higher in the serum 25(OH)D-deficiency group (20.86%) than that in the 25(OH)D insufficiency and sufficiency groups (11.48 and 10.53%, respectively). Therefore, the prevention of vitamin D deficiency is of great significance for preventing diabetes and for clinical monitoring of thyroid gland function. Further studies are required to focus on the effects of vitamin D levels on the pathogenesis of thyroid dysfunction and whether the occurrence and progression of thyroid diseases would be modulated by vitamin D supplementation in subjects with excessive iodine intake.

Another nutrient, iodine, was negatively correlated with T2DM risk. Although iodine plays great roles in multiple diseases, the role of iodine in T2DM risk was less studied. In this study, we showed that UIC was decreased in T2DM when compared to the controls. A recent study conducted in a Chinese population demonstrated that TSH had a positive correlation with the iodine/creatinine ratio, and a positive correlation between TSH and insulin resistance was observed. It is known that thyroid hormones regulate lipid metabolism and cause increased weight gain and insulin resistance, but this speculation has also been questioned due to the reports of alterations in thyroid hormones having the possible consequence of increased weight gain [39]. In this study, although UIC was negatively correlated with T2DM risk through Pearson’s correlation analysis, we found that low UIC was not a risk factor for T2DM in multivariate logistic regression analysis. In addition, iodine deficiency was associated with an increased incidence of T2DM but not with TD. Iodine excess was only associated with a high prevalence of TD in T2DM patients but not with the incidence of T2DM.

Considering the joint evaluated values of clinical parameters in predicting T2DM, a clinical model was constructed to predict the risk of T2DM. 25(OH)D, UIC, glucose, HbA1c, and other variables were input in the model as variables, and the corresponding probability of risk can be output. An AUC = 0.95 of the model exhibited its advantage, and this digital model can help clinicians to provide prevention and early intervention measures for T2DM patients. Because T2DM is associated with a combination of multiple risk factors, we believe that multiple risk factors together could predict the risk more effectively than single risk factors such as glucose or HbA1c. Compared with the model without 25(OH)D and/or UIC, this model was superior, which indicated that the serum 25(OH)D level and UIC had great significance for the detection of T2DM. We thereby suggest that nutrition modulation, including vitamin D, iodine, and other elements related to glucose homeostasis and insulin sensitivity, plays a vital and objective role in the occurrence and development of prediabetes or T2DM in Chinese individuals.

Significant inverse correlations between 25(OH)D, UIC, and short- and long-term glucose levels suggested a critical role of 25(OH)D and iodine in the development of impaired glucose homeostasis. HbA1c which represents the blood glucose status of 2–3 months is the “gold standard” for evaluating long-term blood glucose control. Thus, the early detection and correction of vitamin D levels in high-risk people may play a beneficial role in the occurrence and development of prediabetic blood glucose abnormalities. There are some limitations in this study. First, insulin sensitivity, resistance, and β-cell function were not detected in this study. Second, although all blood samples were collected in summer and autumn, there was no significant difference in 25(OH)D level between summer and autumn. There was no in-depth analysis of the impact of seasons on the results. Third, the effect of sunshine duration and sunscreen use on 25(OH)D level was not analyzed. Fourth, this is a single-center study involving almost the same Han population in the same region and the sample size was relatively small.

5 Conclusion

This study illustrated inverse associations between 25(OH)D level, UIC, and the risk of T2DM. In addition, low 25(OH)D level was a risk factor for T2DM and 25(OH)D deficiency was associated with the incidence of TD in T2DM. A prediction model was constructed to help clinicians better prevent T2DM. Thus, monitoring 25(OH)D and iodine levels is of great significance for maintaining glucose metabolism and preventing T2DM progression.

These authors contributed equally.

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Acknowledgments

The authors are particularly grateful to all the participants in this research.

Appendix

Figure A1 Established models for the prediction of T2DM risk. (a) The prediction model without 25(OH)D level. (b) The prediction model without UIC. (c) The prediction model without 25(OH)D level and UIC.
Figure A1

Established models for the prediction of T2DM risk. (a) The prediction model without 25(OH)D level. (b) The prediction model without UIC. (c) The prediction model without 25(OH)D level and UIC.

Table A1

Biochemical indicators and reference range

Indexes Reference range
Glucose (mmol/L) 3.89–6.11
Fructoseamine (mmol/L) 1.7–2.5
HbA1c (%) 4–6
C peptide (μg/L) 1.1–4.4
TC (mmol/L) 3.6–5.17
TG (mmol/L) 0.4–2.3
LDL-C (mmol/L) 1.5–3.4
HDL-C (mmol/L) 1.04–1.55
CRP (mg/L) ≤8
Creatinine (μmol/L) 44–133
Free T4 (ng/mL) 0.87–1.78
Free T3 (μg/dL) 4.5–12.23
TSH (uIU/mL) 0.34–5.6
TPO-antibody (KIU/L) 0–34
TR-antibody (IU/L) 0–1.75
TG-antibody (KIU/L) 0–115
Thyroglobulin (μg/L) 3.5–77
Table A2

Correlation between urinary iodine concentration and serum 25(OH)D level

r P-value
T2DM −0.03 0.617
Control 0.12 0.109
Table A3

Correlation between 25(OH)D level, UIC, and clinical factors

25(OH)D level UIC
r P-value r P-value
Age (years) −0.04 0.241 −0.03 0.406
Gender (male/female) 0.01 0.737 −0.07 0.096
BMI (kg/m2) −0.02 0.662 0.00 0.913
Glucose (mmol/L) −0.32 <0.0001 −0.59 <0.0001
Fructoseamine (mmol/L) −0.21 <0.0001 −0.20 <0.0001
HbA1c (%) −0.23 <0.0001 −0.21 <0.0001
C peptide (μg/L) −0.02 0.650 0.00 0.908
TC (mmol/L) −0.11 0.012 −0.07 0.090
TG (mmol/L) −0.14 0.001 −0.09 0.032
LDL-C (mmol/L) −0.10 0.020 −0.05 0.210
HDL-C (mmol/L) 0.11 0.007 0.05 0.215
Creatinine (μmol/L) −0.05 0.200 0.07 0.112
Free T4 (ng/mL) 0.07 0.095 0.07 0.078
Free T3 (μg/dL) 0.08 0.121 −0.02 0.724
TSH (uIU/mL) −0.14 0.006 0.18 0.000
Table A4

Prevalence of TD according to 25(OH)D level in T2DM

25(OH)D level
Deficiency (n = 187) Insufficiency (n = 183) Sufficiency (n = 19)
Total
Euthyroid 148 (79.14) 162 (88.52) 17 (89.47)
Thyroid dysfunction 39 (20.86) 21 (11.48) 2 (10.53)
Subtypes
Hyperthyroidism 1 (0.53) 3 (1.64) 0
Hypothyroidism 22 (11.76) 5 (2.73) 1 (5.26)
Subclinical hyperthyroidism 1 (0.53) 2 (1.09) 0
Subclinical hypothyroidism 15 (8.02) 11 (6.01) 1 (5.26)

TD, thyroid dysfunction.

Categorical variables are presented as numbers and percentage (%).

Table A5

Prevalence of TD according to UIC in T2DM

UIC
Deficiency (n = 132) Adequate (n = 213) Excess (n = 44)
Total
Euthyroid 115 (87.12) 184 (86.38) 28 (63.64)
Thyroid dysfunction 17 (12.88) 29 (13.62) 16 (36.36)
Subtypes
Hyperthyroidism 1 (0.76) 2 (0.94) 2 (4.55)
Hypothyroidism 3 (2.27) 13 (6.10) 12 (27.27)
Subclinical hyperthyroidism 2 (1.52) 1 (0.47) 0
Subclinical hypothyroidism 11 (8.33) 13 (6.10) 2 (4.55)

TD, thyroid dysfunction.

Categorical variables are presented as numbers and percentage (%).

  1. Funding: This research was supported by the Natural Science Foundation of Fujian Province of China (2018J0137, 2019J01600), Medical Innovation Subject in Fujian Province (2018-CX-50), Quanzhou High-level Talents Innovation and Entrepreneurship Project (2018C059R), and Science and Technology Project of Quanzhou Fujian Provincial (2018Z048, 2018Z095, 2019N034S).

  2. Author contributions: Yi Zhang and Y. Zhuo are responsible for the study design; W. Y. Xu is responsible for analyzing the data and writing of the manuscript; Y. Zhuo, L. Ling, Z. Sun, W. Huang, Z. Hong, Yaping Zhang, X. Peng, X. Liu, Y. Chen, and X. Que are responsible for collection of samples and questionnaires; W. Yuan is responsible for dealing with the data and constructing the models; and all the authors approved the final version of the manuscript.

  3. Conflict of interest: The authors state no conflict of interest.

  4. Data availability statement: The datasets generated during and/or analyzed during the current study are available from the corresponding author on reasonable request.

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Received: 2020-09-28
Revised: 2020-11-23
Accepted: 2020-12-23
Published Online: 2021-02-18

© 2021 Yafen Zhuo et al., published by De Gruyter

This work is licensed under the Creative Commons Attribution 4.0 International License.

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https://doi.org/10.1515/biol-2021-0019
Keywords for this article
25(OH)D level; vitamin D; urinary iodine concentration; type 2 diabetes mellitus; T2DM risk; a prediction model
Creative Commons
BY 4.0

Articles in the same Issue

  1. Biomedical Sciences
  2. Research progress on the mechanism of orexin in pain regulation in different brain regions
  3. Adriamycin-resistant cells are significantly less fit than adriamycin-sensitive cells in cervical cancer
  4. Exogenous spermidine affects polyamine metabolism in the mouse hypothalamus
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  12. Metabolic profiling of fatty acids in Tripterygium wilfordii multiglucoside- and triptolide-induced liver-injured rats
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  43. T cell epitopes of SARS-CoV-2 spike protein and conserved surface protein of Plasmodium malariae share sequence homology
  44. Anti-obesity effect and mechanism of mesenchymal stem cells influence on obese mice
  45. Long noncoding RNA HULC contributes to paclitaxel resistance in ovarian cancer via miR-137/ITGB8 axis
  46. Glucocorticoids protect HEI-OC1 cells from tunicamycin-induced cell damage via inhibiting endoplasmic reticulum stress
  47. Prognostic value of the neutrophil-to-lymphocyte ratio in acute organophosphorus pesticide poisoning
  48. Gastroprotective effects of diosgenin against HCl/ethanol-induced gastric mucosal injury through suppression of NF-κβ and myeloperoxidase activities
  49. Silencing of LINC00707 suppresses cell proliferation, migration, and invasion of osteosarcoma cells by modulating miR-338-3p/AHSA1 axis
  50. Successful extracorporeal membrane oxygenation resuscitation of patient with cardiogenic shock induced by phaeochromocytoma crisis mimicking hyperthyroidism: A case report
  51. Effects of miR-185-5p on replication of hepatitis C virus
  52. Lidocaine has antitumor effect on hepatocellular carcinoma via the circ_DYNC1H1/miR-520a-3p/USP14 axis
  53. Primary localized cutaneous nodular amyloidosis presenting as lymphatic malformation: A case report
  54. Multimodal magnetic resonance imaging analysis in the characteristics of Wilson’s disease: A case report and literature review
  55. Therapeutic potential of anticoagulant therapy in association with cytokine storm inhibition in severe cases of COVID-19: A case report
  56. Neoadjuvant immunotherapy combined with chemotherapy for locally advanced squamous cell lung carcinoma: A case report and literature review
  57. Rufinamide (RUF) suppresses inflammation and maintains the integrity of the blood–brain barrier during kainic acid-induced brain damage
  58. Inhibition of ADAM10 ameliorates doxorubicin-induced cardiac remodeling by suppressing N-cadherin cleavage
  59. Invasive ductal carcinoma and small lymphocytic lymphoma/chronic lymphocytic leukemia manifesting as a collision breast tumor: A case report and literature review
  60. Clonal diversity of the B cell receptor repertoire in patients with coronary in-stent restenosis and type 2 diabetes
  61. CTLA-4 promotes lymphoma progression through tumor stem cell enrichment and immunosuppression
  62. WDR74 promotes proliferation and metastasis in colorectal cancer cells through regulating the Wnt/β-catenin signaling pathway
  63. Down-regulation of IGHG1 enhances Protoporphyrin IX accumulation and inhibits hemin biosynthesis in colorectal cancer by suppressing the MEK-FECH axis
  64. Curcumin suppresses the progression of gastric cancer by regulating circ_0056618/miR-194-5p axis
  65. Scutellarin-induced A549 cell apoptosis depends on activation of the transforming growth factor-β1/smad2/ROS/caspase-3 pathway
  66. lncRNA NEAT1 regulates CYP1A2 and influences steroid-induced necrosis
  67. A two-microRNA signature predicts the progression of male thyroid cancer
  68. Isolation of microglia from retinas of chronic ocular hypertensive rats
  69. Changes of immune cells in patients with hepatocellular carcinoma treated by radiofrequency ablation and hepatectomy, a pilot study
  70. Calcineurin Aβ gene knockdown inhibits transient outward potassium current ion channel remodeling in hypertrophic ventricular myocyte
  71. Aberrant expression of PI3K/AKT signaling is involved in apoptosis resistance of hepatocellular carcinoma
  72. Clinical significance of activated Wnt/β-catenin signaling in apoptosis inhibition of oral cancer
  73. circ_CHFR regulates ox-LDL-mediated cell proliferation, apoptosis, and EndoMT by miR-15a-5p/EGFR axis in human brain microvessel endothelial cells
  74. Resveratrol pretreatment mitigates LPS-induced acute lung injury by regulating conventional dendritic cells’ maturation and function
  75. Ubiquitin-conjugating enzyme E2T promotes tumor stem cell characteristics and migration of cervical cancer cells by regulating the GRP78/FAK pathway
  76. Carriage of HLA-DRB1*11 and 1*12 alleles and risk factors in patients with breast cancer in Burkina Faso
  77. Protective effect of Lactobacillus-containing probiotics on intestinal mucosa of rats experiencing traumatic hemorrhagic shock
  78. Glucocorticoids induce osteonecrosis of the femoral head through the Hippo signaling pathway
  79. Endothelial cell-derived SSAO can increase MLC20 phosphorylation in VSMCs
  80. Downregulation of STOX1 is a novel prognostic biomarker for glioma patients
  81. miR-378a-3p regulates glioma cell chemosensitivity to cisplatin through IGF1R
  82. The molecular mechanisms underlying arecoline-induced cardiac fibrosis in rats
  83. TGF-β1-overexpressing mesenchymal stem cells reciprocally regulate Th17/Treg cells by regulating the expression of IFN-γ
  84. The influence of MTHFR genetic polymorphisms on methotrexate therapy in pediatric acute lymphoblastic leukemia
  85. Red blood cell distribution width-standard deviation but not red blood cell distribution width-coefficient of variation as a potential index for the diagnosis of iron-deficiency anemia in mid-pregnancy women
  86. Small cell neuroendocrine carcinoma expressing alpha fetoprotein in the endometrium
  87. Superoxide dismutase and the sigma1 receptor as key elements of the antioxidant system in human gastrointestinal tract cancers
  88. Molecular characterization and phylogenetic studies of Echinococcus granulosus and Taenia multiceps coenurus cysts in slaughtered sheep in Saudi Arabia
  89. ITGB5 mutation discovered in a Chinese family with blepharophimosis-ptosis-epicanthus inversus syndrome
  90. ACTB and GAPDH appear at multiple SDS-PAGE positions, thus not suitable as reference genes for determining protein loading in techniques like Western blotting
  91. Facilitation of mouse skin-derived precursor growth and yield by optimizing plating density
  92. 3,4-Dihydroxyphenylethanol ameliorates lipopolysaccharide-induced septic cardiac injury in a murine model
  93. Downregulation of PITX2 inhibits the proliferation and migration of liver cancer cells and induces cell apoptosis
  94. Expression of CDK9 in endometrial cancer tissues and its effect on the proliferation of HEC-1B
  95. Novel predictor of the occurrence of DKA in T1DM patients without infection: A combination of neutrophil/lymphocyte ratio and white blood cells
  96. Investigation of molecular regulation mechanism under the pathophysiology of subarachnoid hemorrhage
  97. miR-25-3p protects renal tubular epithelial cells from apoptosis induced by renal IRI by targeting DKK3
  98. Bioengineering and Biotechnology
  99. Green fabrication of Co and Co3O4 nanoparticles and their biomedical applications: A review
  100. Agriculture
  101. Effects of inorganic and organic selenium sources on the growth performance of broilers in China: A meta-analysis
  102. Crop-livestock integration practices, knowledge, and attitudes among smallholder farmers: Hedging against climate change-induced shocks in semi-arid Zimbabwe
  103. Food Science and Nutrition
  104. Effect of food processing on the antioxidant activity of flavones from Polygonatum odoratum (Mill.) Druce
  105. Vitamin D and iodine status was associated with the risk and complication of type 2 diabetes mellitus in China
  106. Diversity of microbiota in Slovak summer ewes’ cheese “Bryndza”
  107. Comparison between voltammetric detection methods for abalone-flavoring liquid
  108. Composition of low-molecular-weight glutenin subunits in common wheat (Triticum aestivum L.) and their effects on the rheological properties of dough
  109. Application of culture, PCR, and PacBio sequencing for determination of microbial composition of milk from subclinical mastitis dairy cows of smallholder farms
  110. Investigating microplastics and potentially toxic elements contamination in canned Tuna, Salmon, and Sardine fishes from Taif markets, KSA
  111. From bench to bar side: Evaluating the red wine storage lesion
  112. Establishment of an iodine model for prevention of iodine-excess-induced thyroid dysfunction in pregnant women
  113. Plant Sciences
  114. Characterization of GMPP from Dendrobium huoshanense yielding GDP-D-mannose
  115. Comparative analysis of the SPL gene family in five Rosaceae species: Fragaria vesca, Malus domestica, Prunus persica, Rubus occidentalis, and Pyrus pyrifolia
  116. Identification of leaf rust resistance genes Lr34 and Lr46 in common wheat (Triticum aestivum L. ssp. aestivum) lines of different origin using multiplex PCR
  117. Investigation of bioactivities of Taxus chinensis, Taxus cuspidata, and Taxus × media by gas chromatography-mass spectrometry
  118. Morphological structures and histochemistry of roots and shoots in Myricaria laxiflora (Tamaricaceae)
  119. Transcriptome analysis of resistance mechanism to potato wart disease
  120. In silico analysis of glycosyltransferase 2 family genes in duckweed (Spirodela polyrhiza) and its role in salt stress tolerance
  121. Comparative study on growth traits and ions regulation of zoysiagrasses under varied salinity treatments
  122. Role of MS1 homolog Ntms1 gene of tobacco infertility
  123. Biological characteristics and fungicide sensitivity of Pyricularia variabilis
  124. In silico/computational analysis of mevalonate pyrophosphate decarboxylase gene families in Campanulids
  125. Identification of novel drought-responsive miRNA regulatory network of drought stress response in common vetch (Vicia sativa)
  126. How photoautotrophy, photomixotrophy, and ventilation affect the stomata and fluorescence emission of pistachios rootstock?
  127. Apoplastic histochemical features of plant root walls that may facilitate ion uptake and retention
  128. Ecology and Environmental Sciences
  129. The impact of sewage sludge on the fungal communities in the rhizosphere and roots of barley and on barley yield
  130. Domestication of wild animals may provide a springboard for rapid variation of coronavirus
  131. Response of benthic invertebrate assemblages to seasonal and habitat condition in the Wewe River, Ashanti region (Ghana)
  132. Molecular record for the first authentication of Isaria cicadae from Vietnam
  133. Twig biomass allocation of Betula platyphylla in different habitats in Wudalianchi Volcano, northeast China
  134. Animal Sciences
  135. Supplementation of probiotics in water beneficial growth performance, carcass traits, immune function, and antioxidant capacity in broiler chickens
  136. Predators of the giant pine scale, Marchalina hellenica (Gennadius 1883; Hemiptera: Marchalinidae), out of its natural range in Turkey
  137. Honey in wound healing: An updated review
  138. NONMMUT140591.1 may serve as a ceRNA to regulate Gata5 in UT-B knockout-induced cardiac conduction block
  139. Radiotherapy for the treatment of pulmonary hydatidosis in sheep
  140. Retraction
  141. Retraction of “Long non-coding RNA TUG1 knockdown hinders the tumorigenesis of multiple myeloma by regulating microRNA-34a-5p/NOTCH1 signaling pathway”
  142. Special Issue on Reuse of Agro-Industrial By-Products
  143. An effect of positional isomerism of benzoic acid derivatives on antibacterial activity against Escherichia coli
  144. Special Issue on Computing and Artificial Techniques for Life Science Applications - Part II
  145. Relationship of Gensini score with retinal vessel diameter and arteriovenous ratio in senile CHD
  146. Effects of different enantiomers of amlodipine on lipid profiles and vasomotor factors in atherosclerotic rabbits
  147. Establishment of the New Zealand white rabbit animal model of fatty keratopathy associated with corneal neovascularization
  148. lncRNA MALAT1/miR-143 axis is a potential biomarker for in-stent restenosis and is involved in the multiplication of vascular smooth muscle cells
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