Objective: To investigate the iodine nutrition status of children in water borne iodine excess areas in Hebei Province, so as to provide references for scientific prevention and control of water borne iodine excess hazards. Methods: From March to September each year during 2018 to 2023, a cross sectional survey was conducted in 39 water borne iodine excess counties (measured in 2017) from 5 cities (Cangzhou, Hengshui, Xingtai, Handan and Langfang) in Hebei Province. The survey included the detection of iodine content in residents drinking water, the measurement of thyroid volume in children aged 6-12, the detection of salt iodine and urinary iodine. The iodine nutrition status and water iodine distribution of 6-12 year-old children were evaluated from different perspectives such as years, gender, and age. Kruskal-Wallis H- test, Mann-Whitney U test and Chi square test were used for group comparison. Results: A total of 38 755 children were surveyed from 2018 to 2023, and 1 270 drinking water samples were tested across the province. The mass volume concentration of iodine in water showed a decreasing trend over the years ( Z= -30.87, P <0.01). Among 38 470 salt samples monitored from children s home, 24 790 were not non iodized salt, with a non iodized salt rate of 64.44%. A total of 31 989 urine samples were collected from children aged 8-10 years, with the median urine iodine was 245.94 μg/L. Comparing the results of urinary iodine in children from different years, the median urinary iodine from 2018 to 2023 were 328.0, 339.3, 267.8, 279.1, 291.3, 186.5 μg/L, respectively, with statistically significant differences ( H= 4 138.40 , P <0.01). Further pairwise comparisons showed that the median urinary iodine of children in 2023 was lower than in all other years ( Z =-51.59 to -11.41, all P <0.01). Among children aged 6-12 years, 1 150 cases of goiter were detected and the rate of goiter was 3.0%; and the goiter rates in boys and girls were 2.8% and 3.1%, with no significant difference between the sexes ( χ 2= 2.76, P >0.05). There were significant differences in the rate of goiter among different years and ages ( χ 2=324.02, 191.61, both P <0.05). Conclusions With the progress of water reform in water borne iodine excess areas of Hebei Province, children s iodine nutrition has reduced from excessive state to suitable state. It is necessary to continue to expand the coverage of water based iodine reduction projects, and strengthen the monitoring of iodine nutrition status of key populations in water borne iodine excess areas.

Objective To investigate the anticoagulation status of patients with atrial fibrillation(AF)-related acute ischemic stroke(AIS)after revascularization therapy in the real world.Methods A retrospective study was performed on patients diagnosed as AIS and AF from Jan.2019 to Jan.2022 at The Second Affiliated Hospital of Nanchang University.Patients treated with intravenous thrombolysis(IVT),endovascular thrombectomy(EVT),or both were enrolled.Clinical information,timing of anticoagulation initiation,treatment regimens,and outcomes were documented and statistically analyzed.Additionally,a questionnaire was administered to the primary physicians to understand reasons for delaying or not initiating anticoagulation.Results A total of 189 patients with AF-related AIS met the screening criteria,including 86(45.5%)cases in the IVT group,63(33.3%)cases in the EVT group,and 40(21.2%)cases in the IVT+EVT group.The mean age of 189 patients was(72.90±9.23)years old.There were 93(49.2%)female patients.Anticoagulation was initiated within 14 d after revascularization therapy in 36.0%(68/189)of patients,with the highest rate in the IVT group(58.8%,40/68),followed by the EVT group(22.1%,15/68)and IVT+EVT group(19.1%,13/68).A significant difference was found in the proportion of patients receiving anticoagulation within 14 d among the 3 groups(P=0.020).Univariate analysis was performed on the clinical data of patients who initiated anticoagulation within 14 d after revascularization therapy(68 cases)and those who delayed or did not initiate anticoagulation(121 cases).The results showed that there were significant differences in the stroke history,National Institutes of Health stroke scale(NIHSS)score before revascularization therapy,Alberta Stroke Program early computed tomography score,modified Rankin scale(mRs)score before revascularization therapy,imaging characteristics(lesions near cortex,large infarction,severe stenosis or occlusion of major intracranial arteries),revascularization therapy method,NIHSS score 3 d after revascularization therapy,and intracranial hemorrhagic transformation after revascularization therapy between the 2 groups(all P＜0.05).Multivariate logistic regression analysis indicated that higher NIHSS scores 3 d after revascularization therapy(odds ratio[OR]=1.113,95%confidence interval[CI]1.053-1.176,P＜0.001)and the presence of intracranial hemorrhage after revascularization therapy(OR=6.098,95%CI 2.004-18.193,P=0.001)were significant factors that contraindicated the initiation of anticoagulation.Large infarcts(40.8%),infarct location(35.8%),and hemorrhagic transformation after stroke(40.8%)were the common reasons cited by physicians for not initiating anticoagulation.In the 90-d prognosis of patients with AF-related AIS,6 patients had bleeding events,and 116 patients had a good prognosis(mRS score of 0-2).The 90-d good prognosis rate in the initiated anticoagulation group within 14 d after revascularization therapy(89.7%,61/68)was significantly higher than that in the delayed or non-anticoagulation group(45.5%,55/121;P＜0.001).Conclusion For patients with AF-related AIS who receive IVT,EVT or IVT+EVT,it is safe to initiate anticoagulation early after revascularization therapy,but the timing of anticoagulation in most patients is later than the currently recommended anticoagulation timing.

Epilepsy is a common, chronic neurological disorder that has been associated with impaired neurodevelopment and immunity. The chemokine receptor CXCR5 is involved in seizures via an unknown mechanism. Here, we first determined the expression pattern and distribution of the CXCR5 gene in the mouse brain during different stages of development and the brain tissue of patients with epilepsy. Subsequently, we found that the knockdown of CXCR5 increased the susceptibility of mice to pentylenetetrazol- and kainic acid-induced seizures, whereas CXCR5 overexpression had the opposite effect. CXCR5 knockdown in mouse embryos via viral vector electrotransfer negatively influenced the motility and multipolar-to-bipolar transition of migratory neurons. Using a human-derived induced an in vitro multipotential stem cell neurodevelopmental model, we determined that CXCR5 regulates neuronal migration and polarization by stabilizing the actin cytoskeleton during various stages of neurodevelopment. Electrophysiological experiments demonstrated that the knockdown of CXCR5 induced neuronal hyperexcitability, resulting in an increased number of seizures. Finally, our results suggested that CXCR5 deficiency triggers seizure-related electrical activity through a previously unknown mechanism, namely, the disruption of neuronal polarity.
Animals ; Humans ; Mice ; Actin Cytoskeleton/metabolism* ; Actins/metabolism* ; Epilepsy/metabolism* ; Neurons/metabolism* ; Receptors, CXCR5/metabolism* ; Seizures/metabolism*

Objective:To dynamically investigate the iodine nutritional status of residents in water source high iodine areas in Hebei Province, so as to provide basis for taking targeted prevention and control measures and accurate intervention strategies.Methods:According to the "National Monitoring Program for Water Source High Iodine Areas (2018 Edition)", water source high iodine monitoring was carried out in 5 cities and 35 counties (cities, districts, hereinafter referred to as counties) of Hebei Province. According to the survey results of drinking water iodine of residents of Hebei Province in 2017, the administrative villages with a median water iodine above 100 μg/L were sorted according to the water iodine value. The systematic sampling method was adopted. Five administrative villages were selected in each county, if there were less than 5 administrative villages, all of them were selected (if the median water iodine was > 300 μg/L, at least one village shall be selected). The iodine content in drinking water of residents among the monitoring sites, salt iodine, urinary iodine and thyroid volume of children aged 8 - 10, as well as salt iodine and urinary iodine of pregnant women were tested. Water iodine was detected by the "Method Suitable for the Detection of Water Iodine in Iodine Deficient and High Iodine Areas" recommended by the National Iodine Deficiency Reference Laboratory of the Chinese Center for Disease Control and Prevention. Salt iodine was detected by semi quantitative method. Urinary iodine was detected by "Arsenic Cerium Catalytic Spectrophotometry Method" (WS/T 107-2006). Children's thyroid volume was detected by B-ultrasound.Results:A total of 239 water samples were collected in 167 villages, 35 counties, the median water iodine was 163.95 μg/L, ranging from 5.53 - 930.82 μg/L. A total of 6 772 edible salt samples were monitored, including 3 495 non-iodine salt samples and the rate of non-iodine salt was 51.61% (3 495/6 772). A total of 6 101 urine samples of children were tested, the median urinary iodine was 328.00 μg/L. A total of 6 103 children aged 8 - 10 were carried out B-ultrasound detection of thyroid volume in 35 counties. The goiter rate of children was 5.01% (306/6 103), and the rate of nodules was 0.56% (34/6 103). A total of 713 urine samples of pregnant women were tested, and the median urinary iodine was 221.70 μg/L.Conclusions:The iodine nutrition of children in water source high iodine areas of Hebei Province is at an excess level, and the iodine nutrition of pregnant women is at an appropriate level. In addition to stopping the supply of iodized salt, we should further expand the coverage of water improvement and iodine reduction projects in high iodine areas, and strengthen the monitoring of iodine nutrition status of key populations.

Objective:To master the iodine nutritional level of children aged 8-10 and pregnant women in non-iodine excess areas in Hebei Province, and provide scientific basis and targeted prevention and treatment strategies for prevention and treatment of iodine deficiency disorders.Methods:Iodine nutrition analysis was conducted in 162 counties (cities and districts, hereinafter referred to as counties) of Hebei Province in 2018. Each monitoring county was divided into 5 sampling areas according to east, west, south, north and middle locations. One township/street was randomly selected in each area, 1 primary school was selected in each township/street, and 40 non-boarding students aged 8-10 were selected from each primary school. In each monitoring county, 20 pregnant women were selected from each of the 5 townships/streets. Both children and pregnant women were collected samples for salt and urinary iodine (with a random urine sample) detection. The iodine content of salt was tested using the "General Test Method for Salt Industry-Determination of Iodine" (GB/T 13025.7-2012), and Sichuan salt and other fortified edible salt used the arbitration method. The urinary iodine content was tested using the "Arsenic-Cerium Catalytic Spectrophotometric Determination of Iodine in Urine" (WS/T 107-2006).Results:A total of 31 883 samples of edible salt were collected from children's homes in 162 counties, among which 28 539 were iodized salt, 26 456 were qualified iodized salt, the iodized salt coverage rate was 88.36% (after population standardization), and the qualified iodized salt consumption rate was 81.03% (after population standardization). A total of 31 883 urine samples were collected from children, with the median urinary iodine of 193.13 μg/L. There was one county with a median urinary iodine < 100 μg/L, and the median urinary iodine in 150 counties was 100-299 μg/L. A total of 15 572 salt samples of pregnant women were collected, among which the iodized salt samples were 14 260, the qualified iodized salt samples were 13 363, the iodized salt coverage rate was 90.10% (after population standardization), and the qualified iodized salt consumption rate was 83.54% (after population standardization). A total of 15 569 pregnant women were collected urine samples, the median urinary iodine was 164.86 μg/L, and the number of counties with a median urinary iodine < 150 μg/L was 67.Conclusions:Iodine nutrition of children and pregnant women is appropriate at the provincial level, but children and pregnant women in some counties are at risk of iodine deficiency. In the future, the prevention and treatment of iodine deficiency disorders should focus on the iodine nutrition monitoring of the special needs.

Objective:To master the situation of iodine deficiency disorders and iodine nutrition status of the population in Hebei Province, and to evaluate the effect of salt iodization intervention.Methods:According to "National Surveillance Program on iodine deficiency disorders", in 2018, iodine deficiency disorders surveillance was carried out in 162 counties (cities, districts). Each monitoring county (city, district) was divided into 5 sampling areas according to its locations of east, west, south, north and middle. One township/street was selected in each area, 1 primary school was selected in each township/street, and 40 non-boarding students aged 8 - 10 were selected from each primary school. In each monitoring county, 20 pregnant women were selected from each of the 5 townships/streets. Both children and pregnant women were collected urine and salt samples for detection of iodine levels. The thyroid volume of students was detected by B-ultrasound.Results:A total of 31 883 urine samples were collected from children aged 8 - 10 years in 162 counties (cities, districts), with the median urinary iodine of 193.13 μg/L. There was one county (cities, districts) with a median urinary iodine below 100 μg/L, and the median urinary iodine in 150 counties (cities, districts) was 100 - 299 μg/L. A total of 8 941 children aged 8 - 10 years were tested thyroid by B-ultrasound. A total of 232 cases of goiter were detected, and the rate of goiter was 2.59% (232/ 8 941). A total of 15 569 urine samples of pregnant women were tested, the median urinary iodine was 164.86 μg/L, and the number of counties (cities, districts) with a median urinary iodine below 150 μg/L was 67. A total of 47 455 salt samples were tested across the province, including 31 883 salt samples from children's homes and 15 572 salt samples from pregnant women's homes. The iodized salt coverage rate was 88.79%, and the consumption rate of qualified iodized salt was 81.69%.Conclusions:The iodized salt coverage rate and the consumption rate of qualified iodized salt in Hebei Province are all below 90%. The iodine nutrition of children aged 8 - 10 years is at an appropriate level. The thyroid enlargement rate of children is below the national standard, and the iodine nutrition of pregnant women is generally at an appropriate level. But pregnant women in 67 counties (cities, districts) have a risk of iodine deficiency.

Objective:To master the iodine content of drinking water in all counties (cities, districts) and clarify the distribution characteristics of water iodine and the distribution range of water-borne high iodine areas in Hebei Province.Methods:In all counties (cities, districts) of Hebei Province, water samples in townships (towns, street office, hereinafter referred township) were collected according to different water supply methods to detect iodine content in 2017; in townships with a median of water iodine ≥10 μg/L, the administrative village (neighborhood committee, hereinafter referred village) was used as a unit to collect water sample to detect iodine content.Results:A total of 2 199 townships in 168 counties (cities, districts) were surveyed for water iodine. The median range of water iodine of the townships was 0.0 - 1 113.7 μg/L. The median of water iodine in 1 579 townships was < 10 μg/L, accounting for 71.81% of the total; the number of townships with water iodine of 10 μg/L or more was 620. The village water iodine survey was carried out in the townships with water iodine of 10 μg/L or more, the number of villages monitored was 17 930. The number of villages with a median of water iodine of less than 10 μg/L was 2 312 (12.89%), and there were 6 104 villages with water iodine of 100 μg/L or more, accounting for 34.04%. The number of villages with median of water iodine ≥300 μg/L was 1 577 (8.80%). The water-borne high iodine areas in Hebei Province were distributed in 39 counties (cities, districts) of five cities, namely, Cangzhou, Handan, Xingtai, Hengshui and Langfang. They were mainly distributed in sheet shape or spot shape.Conclusion:The water-borne high iodine areas in Hebei Province are widely distributed, in the form of sheet or spot.

Objective To evaluate the results of external quality assessment (EQA) of iodine deficiency disorders laboratories and the network operation in Hebei Province in 2017 in order to further improve the quality of EQA and provide reliable laboratory quality assurance for epidemiological surveillance and control of iodine deficiency disorders. Methods The EQA of salt iodine, water iodine and urinary iodine of iodine deficiency disorders laboratories at provincial, prefectural and county levels in Hebei Province in 2017 was evaluated. Among them, there were 1 provincial, 11 prefectural, and 128 county-level laboratories participated in the national urinary iodine assessment; there were 1 provincial and 11 prefectural-level laboratories participated in the national water iodine assessment; 1 provincial, 11 prefectural, and 30 county-level laboratories participated in the national salt iodine assessment;and 138 county-level laboratories participated in the provincial-level salt iodine assessment. The testing results of water iodine and urinary iodine of all the participatory laboratories were evaluated by using standard Z score generated from laboratories participated in the examination. The testing results of salt iodine were evaluated by using reference value ± uncertainty. Results One provincial and 11 prefectural-level iodine deficiency disorders laboratories in Hebei Province participated in the national urinary iodine, water iodine and salt iodine assessment, the qualified rate was 100.0％(12/12);128 county-level iodine deficiency disorders laboratories participated in the national urinary iodine assessment, the qualified rate was 100.0％(128/128);30 county-level iodine deficiency disorders laboratories took part in the national salt iodine assessment, the qualified rate was 100.0％(30/30);and 138 county-level iodine deficiency disorders laboratories participated in the provincial-level salt iodine assessment, the qualified rate was 94.9％(131/138). Conclusions Iodine deficiency disorders laboratories in Hebei Province in 2017 have remained at a relatively high level in detection quality, and network operation is good. Only a few county-level laboratories failed to pass the examination. Therefore, the key task in the future is to strengthen the detection capacity of county-level laboratories.

Objective: To explore the clinical features of patients with synchronous lymphoma and carcinoma. Methods: The clinical data of 17 patients with Synchronous lymphoma and carcinoma from February 2012 to October 2017 were analyzed retrospectively. Results: Among 17 patients of lymphoma, 1 case HL, 2 cases B-NHL, 6 cases MZBL, 3 cases DLBCL, 1 case mantle cell lymphoma (MCL) , 3 cases NK/T- cell lymphoma, 1 case anaplastic large cell lymphoma(ALCL). In terms of 17 patients with carcinoma, 3 cases esophageal carcinoma, 3 cases gastric carcinoma, 2 cases colorectal carcinoma, 7 cases thyroid carcinoma, 1 case hepatocellular carcinoma and lung cancer. Up to 15 patients received operation, and some of them combined with chemotherapy, radiotherapy and autologous transplant. Follow-up analysis showed that 3 cases was undergoing treatment, 2 cases lost follow-up, 4 cases died, 3 cases achieved CR, 3 cases remained to be at SD, and 2 cases assessed for progression or recurrence. Conclusion The relationship between lymphoma and carcinoma was under discussion, patients with synchronous lymphoma and carcinoma were not unusual. We herein should raise awareness to avoid misdiagnosis.

Objectives To investigate the effects of phytosterol intensive diet intervention on blood glucose, blood lipid and liver function in patients with type 2 diabetes mellitus combined with nonalcoholic fatty liver disease(NAFLD). Methods Patients with NAFLD admitted to the department of endocrinology, the Affiliated Hospital of Jiangsu University from January 2016 to June 2016 were recruited.We divided the groups according to the order of patient admission,with patients admitted from January to March who received conventional diabetes mellitus low-fat diet enrolled as control group,and patients admitted from April to June received extra phytosterol intensive diet on the basis of conventional diabetes mellitus diet as treatment group. The changes of blood glucose, blood lipid and liver function between two groups with a follow-up of six months before and after intervention were compared and analyzed. Results After intervention,the levels of fasting blood sugar(FPG)and blood glucose(2hPG), glycosylated hemoglobin (HbA1c), cholesterol (TG), triglyceride (TC), alanine aminotransferase (ALT) of patients in control group(11.13 ± 3.17)mmol/L,(18.65 ± 6.21)mmol/L,(9.82 ± 1.69)%,(2.81 ± 1.43) mmol/L、(5.40 ± 1.14)mmol/L,77.27%(51/66),which were lower than those before intervention((8.51 ± 2.83)mmol/L,(10.39 ± 3.62)mmol/L,(7.78 ± 1.46)%,(2.18 ± 1.13)mmol/L,(4.99 ± 1.04)mmol/L, 90.91%(60/66),P<0.05,and FPG,2 hPG,HbA1c,TG,TC,LDL-C,ALT and aspartate aminotransferase (AST) in the experimental group were(11.32 ± 3.64)mmol/L,(20.09 ± 4.83)mmol/L,(9.70 ± 2.12)%, (2.68 ± 1.74)mmol/L,(5.16 ± 1.10)mmol/L,(3.18 ± 0.92)mmol/L,(70.27)%(52/74),(86.49)%(64/74), which were significantly lower than those before intervention((7.37 ± 2.08)mmol/L,(9.20 ± 3.35)mmol/L, (6.75 ± 0.99)%,(1.86 ± 1.13)mmol/L,(4.69 ± 1.06)mmol/L,(2.67 ± 0.72)mmol/L, 91.89%(68/74), 98.65%(73/74), P<0.05, and the differences was statistically significant(t=4.584,9.329,7.349,2.823, 2.140,χ2=4.587, P<0.01 or 0.05 in control group;t=8.106,15.715, 10.826,3.393,2.651,3.755,P<0.01 in experimental group). The levels of FPG, 2 hPG and HbA1c were significantly lower in the experimental group compared with those in control group after intervention(P<0.05),and the positive-to-negative rate of fatty liver were found to be significantly higher (33.8%,25/74) than that (9.1%,6/66) in controls(P<0.05).There were not significantly differences in the level of TG,TC,high density lipoprotein(HDL-C), LDL-C, ALT and AST between the control group and experimental group(P>0.05). Conclusions Phytosterol intensive diet intervention can effectively reduce LDL-C,AST and the blood glucose level of type 2 diabetes patients with NAFLD, improving the positive-to-negative rate of fatty liver. Phytosterol intensive diet intervention can effectively reduce LDL-C, AST and the blood glucose level of type 2 diabetes patients with NAFLD,improve the positive-to-negative rate of fatty liver.