Objective To explore the effects of wogonin on hyperlipidemia in mice and clarify the molecule mechanism. Methods Thirty mice were evenly divided into three group normal control group,model control group and treatment group. The normal control group was given normal diet,the model control group received high-fat diet,the treatment group received high-fat diet with wogonin (500 mg·kg-1 ). Results The mice developed hyperlipidemia 12 weeks after starting the high-fat diet. The body weight,visceral fat and fat index were increased (P<0. 05). After treatment,these indices were reduced ( P < 0. 01). Wogonin significantly reduced the total cholesterol ( TC),low density lipoprotein ( LDL),high density lipoprotein (HDL),except the triglyceride (TG). Compared to the model control group,the hepatic lipase(HL) and lipoprotein lipase(LPL) activity in the treatment group were recovered (P<0. 05),but HMG-CoA reductase activity was inhibited ( P<0. 01). Mechanistic study suggested that the lipid-lowering effect might be related to the lipid synthesis genes (SREBP-1c,FAS, PPARγ) and the lipid metabolism genes (PPARα,CPT-1). Conclusion Wogonin can prevent hyperlipidemia,which might be related to the regulation of enzyme activity and the changes of lipid synthesis and oxidative metabolism.

Objective: To study the effect of ghrelin on L-type calcium channel current (ICa-L) of ventricular myocytes in experimental rats. Methods: The single ventricular myocyte in experimental rats were obtained by enzymolysis method, and the whole-cell patch-clamp technique was used to investigate the effect of ghrelin on ICa-L of ventricular myocytes at different doses of 10 nmol/L, 100 nmol/L and 1μmol/L respectively. Results: Ghrelin at 10 nmol/L, 100 nmol/L and 1μmol/L may inhibit ICa-L at (8.95 ± 2.13) %, (31.18 ± 4.78) % and (64.63 ± 8.57)% respectively,P<0.05, and the current-voltage curve was shifted upwards. The channel half inactivation curve decreased from (-1.34 ± 1.9) mV to (-8.04 ± 1.32 ) mV, (9.76 ± 1.17) mV and (-11.81 ± 0.73) mV respectively,P<0.05, and the recovery time after inactivation was prolonged as τ value from (63.23 ± 9.32) to (98.95 ± 10.74), (109.56 ± 13.42) and (127.39 ± 16.13) respectively,P<0.05. Conclusion: Ghrelin may accelerate ICa-L inactivation and prolong the recovery time after inactivation. Ghrelin inhibits ICa-L in a dose-dependent manner.

Objective:To analyze the number of appeals volume and causes for complaints received by the government hotline against a hospital in Yangzhou during the pandemic of novel coronavirus pneumonia(hereinafter referred to as COVID-19), so as to provide reference for handling such hotline complaints during pandemics.Methods:Retrospective comparative analysis was made on the " 12345" government hotline work orders received from July 28, 2020 to August 28, 2020(routine prevention and control period) and July 28, 2021 to August 28, 2021(pandemic closure and control period). A descriptive analysis was made on the cause types of complaints and the distribution of departments in question, along with an analysis of the correlation between the cumulative number of cases of pandemic development and the number of complaints using Spearman rank correlation method.Results:The number of work orders for a hospital in Yangzhou during the pandemic control period(659 cases) was 7.7 times higher than that in the routine control period(76 cases). Management problems accounted for 96.7%(637 cases) in the level-1 type of the causes of complaints during the closure and control period of the pandemic, and workflow problems accounted for 90.9%(599 cases) in the level-2 type, which increased by 28.3 and 27.7 percentage points respectively compared with the routine prevention and control period; The highest proportion in the level-3 type of causes for complaints during the closure and control period of the pandemic was administrative management, accounting for 87.9%(579 cases). The departments being complained the most during the pandemic incubation period, outbreak period and recovery period of the pandemic were the fever clinic, oncology department and discharge center respectively. The cumulative number of cases of pandemic development was positively correlated with the number of complaints.Conclusions:During the COVID-19, the handling of the government hotline should be analyzed along with the causes of complaints, focusing on patients′ demands, providing timely feedback, developing collaborative management measures, and achieving accurate policy implementation.

Androgen insensitivity syndrome (AIS) is a recessive single gene disease of X chromosome, which is rare clinically and has a very low incidence in newborn boys. This is mainly due to the abnormal pathway in which androgens play a role, resulting in sexual differentiation disorder in patients. A pair of identical twins were admitted to our hospital, and a new pathogenic mutation site of the androgen receptor gene was found, resulting in an androgen insensitivity phenotype.

Objective To investigate the expression of immunoglobulin γ-1 heavy chain constant region(IGHG1)in acute myeloid leukemia(AML)THP-1 cells and its influence on cell proliferation,apoptosis,and invasion via its regulation of the transforming growth factor β(TGF-β)/Smad pathway.Methods Bone marrow specimens from nine children with AML and eight children with fractures,human bone marrow stromal HS-5 cells,and human AML THP-1 and HL60 cells were used in the research.Western blot was used to detect IGHG1 protein expression.THP-1 cells were divided into a blank group(without any treatment),si-NC group,si-IGHG1-1 group,si-IGHG1-2 group,si-IGHG1-3 group,TGF-β group,si-IGHG1-1+TGF-β group,and si-IGHG1-1+TGF-β +LY364947 group.Cell proliferation was measured by CCK-8 method.Flow cytometry and Transwell experiment were performed to measure apoptosis and invasion.Western blot was used to detect the protein expression of IGHG1,TGF-β,p-Smad2 and p-Smad3 in each group of cells.Results Compared with the bone marrow of children with fractures,the bone marrow of children with AML(P<0.05)had significantly higher expression levels of IGHG1((0.24±0.03)vs(0.87±0.12)).Compared with HS-5 cells,human AML THP-1 and HL60 cells had significantly increased expression levels of IGHG1((0.89±0.14)(0.75±0.08)vs(0.21±0.02))(P<0.05).Compared with the blank group,the si-IGHG1-1 group of THP-1 cells showed significantly reduced OD450 values(24 h,48 h,72 h),invading cell numbers and protein expression of TGF-β,p-Smad2,p-Smad3 and their apoptosis rate was increased(P<0.05),while the corresponding indexes showed the opposite trend in the TGF-β group(P<0.05).TGF-β reversed the effects of silencing IGHG1 on the proliferation,apoptosis and invasion of THP-1 cells.Compared with the si-IGHG1-1+TGF-β group,the si-IGHG1-1+TGF-β+LY364947 group had significantly decreased TGF-β,p-Smad2,p-Smad3 and protein levels,OD450 values and cell invasion numbers and the apoptosis rate was increased(P<0.05).Conclusions IGHG1 is highly expressed in AML cells.Silencing the IGHG1 gene can inhibit the proliferation and invasion of AML cells and promote the apoptosis of AML cells.This mechanism may be related to the inhibition of the TGF-β/Smad pathway.