[Objective] To explore the effects of angongniuhuang pill on the synthesis of apolipoprotein E in brains of rats after traumatic brain injury.[Methods] Using reverse transcription-polymerase chain reaction(RT-PCR) and enzyme linked immunosorbent assay(ELISA),the apolipoprotein E’s mRNA of contused brain tissue and the concentration of apolipoprotein E in CSF at different phases after traumatic brain injury were detected of rats fed with angongniuhuang pills.[Results]High expression of apolipoprotein E mRNA and high concentration of apolipoprotein E were found in rats fed with angongniuhuang pills compared with controls.[Conclusion]Angongniuhuang pills may increase the expression of apolipoprotein E mRNA in brains after traumatic brain injury,thus promote the synthesizing and secreting of apolipoprotein E.

Objective:The mouse kidney transplantation model presents challenges in terms of surgical difficulty and low success rate,making it difficult to master.This study aims to provide a crucial model for transplantation immunology research by modifying and developing novel techniques for mouse kidney transplantation. Methods:A total of 57 pairs of mice were used to establish and compare the modified and innovative surgical techniques for mouse kidney transplantation.Three different surgical models were established,including the abdominal suture technique for orthotopic kidney transplantation,the abdominal cuff technique for orthotopic kidney transplantation,and the cervical cuff technique for ectopic kidney transplantation.BALB/c or C57BL/6 male mice,aged 8 to 12 weeks and weighed 20 to 25 g with specified pathogen free-grade were served as the donor mice or the recipient mice.The surgical technique characteristics,key surgical times,complications,and pathological examination in the early postoperative period were summarized and compared. Results:Three different surgical models of mouse kidney transplantation were successfully established.The comparison of warm ischemic time for the 3 groups of mice showed no statistical significance(P=0.510 4).The abdominal suture group had the shortest total operation time of the donor compared with the abdominal cuff group and the cervical cuff group[(18.3±3.6)min vs(26.2±4.7)min and(22.8±2.5)min;both P<0.000 1].There was a significant difference in cold ischemia time among the 3 groups(all P<0.000 1),with(60.8±4.1)min in the cervical cuff group,(43.3±5.0)min in the abdominal suture group,and(88.8±6.7)min in the abdominal cuff group.Due to different anastomosis methods,the cervical cuff group had the shortest time[(17.6±2.7)min],whereas the abdominal cuff group had the longest time[(38.8±5.4)min].The total operation time for the recipients showed significant differences(P<0.000 1),with the abdominal suture group having the shortest time[(44.0±6.9)min],followed by the cervical cuff group[(64.1±5.2)min],and the abdominal cuff group[(80.0±6.0)min]being the longest.In the 32 mice of the abdominal suture group,there were 6 with intraoperative bleeding,including 1 arterial intimal injury bleeding and 5 with bleeding after vessel opening.Six mice had ureteral complications,including ureteral bladder anastomotic stenosis,necrosis,and renal pelvis dilation.Two mice had postoperative abdominal infections.In the abdominal cuff group,there was no intraoperative bleeding,but 6 mice showed mild arterial stenosis and 5 showed venous stenosis,4 arterial injury,4 arterial thrombosis,and 2 ureteral complications.No postoperative infections occurred in the mice.In the cervical cuff group,no intraoperative bleeding,arterial intimal injury,arterial/venous stenosis,or thrombosis were found in 13 mice.Five mice had ureteral complications,including ureteral necrosis and infection,which were the main complications in the cervical cuff group.The renal function in mice of the 3 groups remained stable 7 days after surgery.Hematoxylin and eosin staining and periodic acid-Schiff staining showed no significant differences in terms of acute rejection among the 3 surgical methods(all P>0.05). Conclusion:All 3 surgical methods are able to successfully establish mouse kidney transplantation models,with no significant differences observed in the short-term graft survival and acute rejection.The modified abdominal suture technique and abdominal cuff technique have their respective advantages in research applications.The novel cervical cuff technique for ectopic kidney transplantation model is relatively simple to be prepared and causes less trauma to the mice,providing more options for studies involving xenotransplantation,secondary transplantation,and local lymphatic drainage.However,the difficulty in harvesting the donor kidney and the high incidence of ureteral infections need further validation in long-term survival.This study holds important reference value for choosing the type of mouse kidney transplantation model for different research needs.

Background Zinc is a trace element essential for normal fetal heart development, and excess zinc can be toxic. The relationship between maternal and fetal zinc levels and the development of congenital heart disease (CHD) in the offspring is unclear. Objective To study the effects of maternal and neonatal zinc exposure levels on the risk of developing CHD in the offspring. Methods The data and biological samples of the study subjects were derived from the birth cohort established by Gansu Provincial Maternity and Child Care Hospital in Lanzhou from 2010 to 2012. Questionnaire surveys were conducted at baseline in the first trimester and at follow-up visits in the second trimester, the third trimester, and 42 d after delivery. Maternal venous blood during the third trimester and neonatal umbilical venous blood at delivery were collected, and information on their birth outcomes was extracted from medical records. Ninety-seven children with CHD diagnosed by echocardiography at birth and confirmed at the follow-up after 42 d were selected as the case group, and 194 healthy full-term infants were selected as the control group, 1∶2 matched for maternal age and geographical location from the database. The zinc concentrations in whole blood of pregnant mothers and umbilical cord blood of fetuses in both groups were measured by inductively coupled plasma mass spectrometry. According to the quartiles P₂₅ and P₇₅ of zinc levels in the whole blood of pregnant mothers and neonatal cord blood in the control group, zinc exposure was divided into three groups: low, medium, and high. After adjusting for maternal vaginal bleeding in early pregnancy, pre-pregnancy folic acid and vitamin supplementation, birth weight, and umbilical cerclage confounders, a multiple conditional logistic regression model was applied to analyze the associations between maternal whole blood and fetal umbilical cord blood zinc levels and the risk of CHD in the offspring, and a further subgroup analysis was performed by disease classification. Results The medians (P₂₅, P₇₅) of maternal whole blood zinc levels in the case group and the control group were 5.034 (3.456, 6.644) and 4.693 (3.411, 5.646) mg·L⁻¹, respectively, with significant differences between the two groups (P=0.029). The medians (P_25, P₇₅) of neonatal cord blood zinc level was 2.153 (1.479, 2.405) mg·L⁻¹ in the case group and 1.636 (1.304, 1.979) mg·L⁻¹ in the control group, with significant differences between the two groups (P<0.001). The zinc levels of maternal whole blood and neonatal cord blood in the simple CHD group were significantly higher than those in the control group (P<0.05). The multiple conditional logistic regression model showed that compared with the maternal medium zinc exposure level group (3.41-5.65 mg·L⁻¹), the risk of offspring CHD was 2.225 times of the high exposure level group (>5.65 mg·L⁻¹) (OR=2.225, 95%CI: 1.017-4.868). Compared with the neonatal medium zinc exposure level group (1.30-1.98 mg·L⁻¹), the neonatal high exposure level group (>1.98 mg·L⁻¹) also had an increased risk of CHD (OR=4.132, 95%CI: 1.801-9.480). The subgroup analysis results showed that compared with corresponding medium exposure level groups, the risk of simple CHD in the offspring of the maternal high zinc exposure level group was increased (OR=4.081, 95%CI: 1.427-11.669), and the risks of simple CHD (OR=7.122, 95%CI: 2.126-23.854) and complex CHD (OR=5.165, 95%CI: 1.859-14.346) of neonates of the neonatal high zinc exposure level group were increased. Conclusion Under the exposure levels of the study population, high concentrations of zinc exposure in pregnant mothers and neonates may be associated with the incidence of CHD.