Objective To explore the relation between serum TGF?1 and diabetic nephropathy(DN). Methods Forty-five cases of type 2 diabetes mellitus patients were divided into three groups according to urine albumium excretion rate (UAER): normoalbuminuria (NA)group; microalbuminuria (MA) group; macroalbuminuria group (overt DN). Serum TGF?1, fasting blood glucose (FBG), HbAlc.BUN. Cr. Ccr were detected in all cases. Microalbundnuria group and macroalbuminuria group were respectively divided into group.treated with captopril and regular treatment group. Results Serum TGF?1, had significantly differences in four groups(23. 95?8. 01ng/ml vs 35.02?6. 70ng/ml, 39.3i? 5. 35ng/ml vs 58. 58?9. 56ng/ml,P

0.05).Conclusion The elevation of GH involved in the pathogenesis of diabetic microangiopathy possibly by exacerbation of disorders of glucose and lipid metabolism.

Objective To determine whether the AT, All66C gene polymorphism is associated with CHD in type 2 diabetes patients. Methods Investigating the allele frequency and the genotype distribution of the AT1 All66C gene in the group of normal control (n= 73),simple diabetes (n= 80),diabetic CHD (n=43) by means of PCR-RFLP. Results The group of diabetic CHD had a significant higher frequency of C allele of the AT1 All66C gene than normal control (X2 = 6. 02,P＜0. 05) and diabetes (X2= 5. 71,P＜0. 05). Conclusion The result indicated that there was an association between the 1166C allele of the AT1 gene polymorphism and CHD in type 2 diabetes patients.

AIMTo develop a rat model of insulin resistanc e,and to study the effect of puerarin injection on expression of protein kinase B in insulin resistanc e rats. METHODS30 SD rats were randomly divded into two groups. The model group were given the high fat diets(0 30 pig fat, 0 10 sucrose, 0 0 3 cholesterol) for 8 weeks. Then 9 rats of the group had been choosen as the pu erarin treatment group and were given abdominal injection (100 mg?kg -1 ?d -1 ) for 4 weeks. By the end of the experiment, Western blot and computer i mage pattern analyze system were used to analysis expression of PKB in skeletal muscles. RESULTS(1) The model group showed a hyperglycemia, hype rinsulinism and obviously visceral obesity by high fat-feeding, the insulin res istance index (ISI) decreased while the HOMA insulin resistance index (HOMA-IR) increased compared to the normal group, insulin resistance was induced in this way; (2) Compared with the pathology control group:fasting blood glucose (FBG), fasting insulin (FINS), visceral fat mass and the HOMA insulin resistance index (HOMA-IR) of the treating group were significantly decreased whereas the insuli n index (ISI) enhanced. Expression of PKB was markedly increased by puerarin tre atment. CONCLUSIONPuerarin injection can significantly elevate e xepression of PKB and ameliorate the state of insulin resistance. Improved biolo gic effect of insulin and prevention of the deleterious effect of fat may be in volved in the mechanism concerned.

Objective To determine whether treatment with Gliclazide (Diamicron) is able to prevent development of microvascular complications in type 2 diabetes mellitus. Methods This trial was carried out in seven centers of the National Diabetes Mellitus Collaborative Study Group. Two hundred and eighty five patients with type 2 diabetes mellitus were recruited from six areas of China and divided into Gliclazide group (n=155) and Glibenclamide group (n=130). Age, sex, duration of diabetes and body mass index were recorded at entry. Fasting and 2h postprandial blood glucose were measured monthly while HbA 1c was determined at 3 month interval. Retinal photography and fluorescein angiography were performed in the 1st and 3rd year.Results There were no significant differences in age, sex, blood pressure, duration of diabetes, mean blood glucose and HbA 1c between the Gliclazide and Glibenclamide groups at baseline, in the 2nd and 3rd follow up year. There were no significant differences in retinopathy between the two groups at baseline, but at the end of the 3rd year, the subjects in Gliclazide group with retinopathy progression over one grade were significantly less than those in Glibenclamide group (2.58% vs 18.46%, P

AIM: To explore the changes in serum TGF ? 1 in type 2 diabetes mellitus. METHODS: Forty-five cases type 2 diabetes mellitus patients were divided into three groups according to urine albumim excretion rate(UAER): normoalbuminuria(NA)group and microalbuminuria(MA) group and macroalbuminuria group (Overt DN). Serum TGF ? 1, fasting blood glucose(FBG), HbA 1c ,BUN,Cr,Ccr,lipidemia were detected in all cases. RESULTS: Serum TGF ? 1 in NA, MA and ODN groups [(35.02?6.70) ?g/L, (39.31?5.35) ?g/L, (58.58?9.56) ?g/L, respectively] was higher than that in control [(23.95?8.01) ?g/L, P

Objective To understand the pathway of iodine intaking among Tibetan, and provide basic data for prevention and control of iodine deficiency disorders (IDD). Methods Through the method of random sampling, the boarding and day student aged 8 - 10 and women of childbearing age were conducted dietary survey to understand the condition of food intaking via the 24 h review method in 2015. Samples of urine, drinking water, dried beef, milk, Qula and fried noodles were collected and tested iodine level. Results Due to taking iodized salt three times a day with meals, the median of urinary iodine among 492 investigated boarding students was 179.2 μg/L;differently, the median of urinary iodine among 298 day students in this investigation was 79.6 μg/L who taking iodized salt only at lunch at school;and in the study, the median of urinary iodine among 158 women of childbearing age who took iodine-free salt daily was 33.7 μg/L. The iodine contents in 51 drinking water samples, 66 dried beef samples, 48 milk samples, 20 Qula samples and 37 fried noodle samples were quantified respectively, and the average iodine contents of each food were 0.8 μg/L in drinking water, 59.1 μg/kg in dried beef, 61.5 μg/kg in milk, 226.4 μg/kg in Qula and 17.0 μg/kg in fried noodles. The acceptable daily intake (ADI) of iodine of the boarding and day students aged from 8 to 10 and women of child bearing age were 234.0, 126.4 and 76.7 μg/d, respectively, among which the ADI of iodine with iodized salt were 208.0, 78.0 and 0.0 μg/d. Conclusion Consuming iodized salt is a main method to get iodine among Tibetans in Nangqian County, so that it is significant to carried out this measure for a long time for free to let them have iodized salt every day instead of iodine-free one.

Objective:To investigate the dietary iodine intake of people in different areas of Qinghai Province, and to provide the basis for scientific iodine supplementation and continuous elimination of iodine deficiency hazards.Methods:From 2018 to 2019, according to administrative division, natural geographical regions, population distribution and economic development level of Qinghai Province, a total of 14 survey sites were selected. One village was selected from each survey site, and 20 households were selected from each village, the salt samples and 24 h urine samples of all family members were collected to detect salt iodine and urinary iodine. One drinking water sample was collected at the five directions of east, west, south, north and middle of each village to detect water iodine. Salt iodine was detected by direct titration, urinary iodine and water iodine were detected by arsenic-cerium catalytic spectrophotometry. At the same time, the 3-day weighing method was used to investigate the diet, the daily dietary iodine intake per capita (the result was expressed as average) and the proportion of dietary iodine in urinary iodine were calculated, the daily dietary iodine intake per capita of different production modes (agricultural region and pastoral region), different geographical environment (Hehuang Valley, Qaidam Basin, Qilian Mountain and Qingnan Plateau), different nationalities (Han, Tibetan, Hui, Mongolian, Tu, Salar) and different economic levels (< 8 000, 8 000 -, 10 000 -, ≥12 000 Yuan) were compared.Results:A total of 999 people from 280 families were surveyed, including 511 males and 488 females. The median water iodine of each survey site was less than 10 μg/L, all of which were environmentally iodine-deficient areas. A total of 280 salt samples were collected, the median salt iodine was 26.0 mg/kg, and the consumption rate of qualified iodized salt was 100% (280/280). A total of 999 urine samples were tested, and the median urinary iodine of people was 192.5 μg/L, which was at an appropriate level of iodine. There was no statistically significant difference ( t =-1.599, P > 0.05) in the daily dietary iodine intake per capita (28.53, 33.44 μg) of people in agricultural region ( n = 643) and pastoral region ( n = 356). The daily dietary iodine intake per capita (25.38, 33.30, 32.98, 34.79 μg) of people in Hehuang Valley ( n = 448), Qaidam Basin ( n = 125), Qilian Mountain ( n = 157), and Qingnan Plateau ( n = 269) were compared, the difference was statistically significant ( F = 2.883, P < 0.05); among them, the daily dietary iodine intake per capita in Hehuang Valley was lower than that in Qingnan Plateau ( P < 0.05). The daily dietary iodine intake per capita of different nationalities were compared, the difference was statistically significant ( F = 3.647, P < 0.05), Salar ( n = 68) and Tibetan ( n = 239) were higher (37.21 and 32.21 μg). The daily dietary iodine intake per capita (38.97, 17.01, 30.86, 33.14 μg) of annual per capita disposable income < 8 000 ( n = 194), 8 000-( n = 221), 10 000-( n = 302), ≥12 000 Yuan ( n = 282) were compared, the difference was statistically significant ( F = 9.407, P < 0.05). The proportions of dietary iodine in urinary iodine of various population ranged from 5.35% to 15.54%. Conclusions:The iodine nutrition of people in Qinghai Province is suitable, the dietary iodine intake of people is closely related to geographical environment, nationality and economic level. But the proportion of dietary iodine in urinary iodine is relatively low, the consumption of iodized salt is still the main way for people to intake iodine, and it is also the main measure to continuously eliminate the harm of iodine deficiency in Qinghai Province.

Objective To investigate the relationship between thyroid volume and multiple body indexes such as urinary iodine level,height,and weight,respectively,in order to provide a theoretical basis for evaluation of goiter disease in the future. Methods The height and weight were measured, and urine samples were collected from children aged 8 to 10 years old from 10 township schools of Nangqian County in Qinghai Province in 2014 and urinary iodine was tested via the As (Ⅲ)-Ce4+catalytic spectrophotometry method. Meanwhile, the thyroid volume was immediately measured via the B-ultrasound method. Statistical analyses were employed finally to assess the difference and correlation between thyroid volume and multiple physiological indexes including urinary iodine level, height, weight, gender and age. Results The thyroid volume of 773 children aged 8 to 10 years old showed skewed distribution (W = 0.088, P < 0.05), with median of 3.53 ml and quartile of 3.05, 4.15 ml. The thyroid volume was not significantly different between different urinary iodine levels (H = 1.644, P > 0.05). There were significant differences of the thyroid volume among different height groups, weight groups and age groups (H=59.845,64.888,28.590,P<0.05),and the thyroid volume was positively correlated with height weight and age,respectively(r = 0.389, 0.359, 0.155, P < 0.05). Conclusions The thyroid volume is related to the level of children's physiological parameters, such as age, height, weight. Therefore, the diagnosis of thyroid volume via the B-ultrasound method for a individual child should not only take age,but also height and weight into account, to reduce the diagnostic error of goiter disease.

Objective:To analyze the assessment results of the external quality control in iodine deficiency disorders laboratories at all levels in Qinghai Province so as to provide quality assurance for monitoring and control effect evaluation of iodine deficiency disorders.Methods:The results of urinary iodine, salt iodine, and water iodine quality control assessments at the provincial, city (state) and county-level iodine deficiency disorders laboratories were analyzed in Qinghai Province from 2013 to 2018 (sourced from the annual evaluation results issued by National Reference Laboratory for Iodine Deficiency Disorders). Among them, there were 1 provincial, 8 city (state) and 43 county-level (2017, 2018) laboratories participated in the urinary iodine assessment; 1 provincial, 8 city (state) and 30 county-level (43 in 2017 and 2018) laboratories participated in the salt iodine assessment; 1 provincial and 8 city (state)-level laboratories participated in the water iodine assessment.Results:From 2013 to 2018, the feedback rates and qualified rates of provincial and city (state)-level laboratories participated in the urinary iodine external quality control assessment were 100.0%; the feedback rates of 43 county-level laboratories (2017 and 2018) were 100.0%, and the qualified rates were 93.0%(40/43) and 88.4%(38/43), respectively. The feedback rates and qualified rates for salt iodine assessment in provincial and city (state)-level laboratories were 100.0%; the county-level laboratories feedback rates were 100.0%, and the qualified rates were > 90.0% except for 2014. And the feedback rates of provincial and city (state)-level laboratories for water iodine assessment were 100.0%; the qualified rate of provincial-level laboratory was 100.0%, and the city (state)-level laboratories were 100.0% except 2016 (7/8).Conclusions:The quality control network of Qinghai Province's iodine deficiency disorders laboratories has fully covered all city (state) and county-level laboratories. Provincial, city (state)-level laboratories have stable and reliable levels of urinary iodine, salt iodine, and water iodine; some individual county-level laboratories testing capabilities still need to be improved.