This review summarizes the epidemiology, etiology, clinical manifestation, treatment, follow-up of neonatal lupus erythematosus with focus on new discoveries on the etiology of the disease in recent years including anti-SSA/Ro and anti-SSB/La antibodies, serotonin (5-hydroxytryptamine 4), apoptosis of cardiac cells, calcium channels, maternal micro-chimera, genetic variants, to improve clinician awareness of the disease.

BACKGROUND: Heart valve tissue engineering is aimed to construct heart valve grafts with the physiological function and biological activity by using engineering and life science principles and methods, but still in the animal experiment stage.OBJECTIVE: To summarize the commonly used tissue engineered heart valve, and to evaluate the reliability of different types of heart valve biomaterials.METHODS: Using "biological materials, heart valve, scaffolds, reviews, tissue engineering" in Chinese as the key words, a computer retrieval was performed for articles published from January 2000 to December 2010. Articles regarding the biomaterials in tissue engineered heart valve were included; the duplicated research or meta-analysis were excluded.RESULTS AND CONCLUSION: A total of 20 papers about the biomaterials and tissue engineering heart valve were screened out. Due to the superior biocompatibility and three-dimensional conformation, natural scaffold materials exhibit unparalleled bionic property compared with other materials. Synthetic biodegradable polymer materials with good mechanical properties and controllability has thus been highly favored by researchers, while the composite scaffold materials of natural materials and polymer materials provides a new strategy and direction for the investigations of tissue engineered heart valve, and has broad application prospects.

Objective To investigate the synthesis of heat shock protein 70 (HSP70) induced by norepinephrine preconditioning on donor heart and its effects on myocardial cell apoptosis and apoptosis related proteins. Methods 18 Wistar rats were random divided into 2 groups, with 9 in each group. The rats in the control group were intraperitoneally injected with 0.5 ml saline. After 24 hours, hearts were isolated and stored with histidine-tryptophan-ketoglutarate (HTK) solution at 4 ℃ for 3 hours to establish Langendorff isolated heart models, and then isolated hearts were perfused by Langendorff model with Krebs-Hense leit (K-H) solution for 2 hours. The rats in the experimental group received intraperitoneally 3. 1 μmol/kg (0. 53 mg/kg) noradrenaline bitartrate that was dissolved in saline and hearts were isolated and stored after 24 hours. Followed process was the same as that in the control group. Myocardial HSP70, Bcl-2, Bax content, apoptosis index were measured, cell structures were observed under light and electron microscope.Results HSP70 in the experimental group were higher [(17.78 ± 1.82)%] than those in control group [(5.22 ± 1.05)%], and biochemical indicators in texperimental group[(41.88 ± 5.09)%, (22.61 ±3. 49 ) %] were better than those in control group [(31.36 ± 3. 27 ) %, ( 40. 52 ± 4. 1 7) %]. There were alleviated ultrastructure injures in experimental group compared with those in control group. Conclusions This study demonstrated that norepinephrine preconditioning could induce high expression of HSP70 and it could play a very important role during ischemia-reperfusion. It could protect the structure and function of myocytes in isolated rat hearts and inhibited myocardial apoptosis.

Neurogenesis is a process in which the neuronal stem cells differentiate into functional neurons including the cell proliferation,differentiation and migration.Previously,it was believed that neurogenesis is a prenatal process and the adult ependymal cells are incapable of regeneration.Now it is clear that mammalian brain retains the ability to generate new ceils in specific regions.One of the regions is subventricular zone of the lateral ventricles,new generated neurons and glial cells later migrate to olfactory and repair dysosmia through the RMS road.Here we will review the advances in adult neurogenesis in mammal subventficular zone.

BACKGROUND:Changes of both stem cell markers and endothelial cell phenotype help understand characteristics of endothelial progenitor cells during adherent differentiation.However,there is still no specific cell marker to distinguish from mature endothelial cells.OBJECTIVE:To study the changes of stem cell markers and endothelial cell phenotype during the differentiation of rat peripheral blood rnononuclear cells into endothelial cells.DESIGN.TIME AND SETTING:Cell observation study was performed in the Laboratory of Cardiac Surgery,Qingdao Municipal Hospital between June 2004 and December 2008. MATERIALS:Peripheral blood was drawn from male SD rats to obtain mononuclear cells by Ficell density gradient centrifugation. METHODS:Mononuclear cells were in vitro cultured in fibronectin culture medium and induced by vascular endothelial growth factors(VEGF)and basic fibroblast growth factors(bFGF)in order to stimulate a differentiation into endothelial cells. MAIN OUTCOME MEASURES:Adherent cells in the culture system were identified for CD31,CD34,Rk-1 and vWF with immunochemistry within 1-7 days.RESULTS:The expressions of CD31.CD34,FIk-1.vWF on adherent cells were different in different time durations.The expressions of CD31 and CD34 started on the 2nd day of culture.reached the peak on the 4th day,gradually decreased and even disappeared on the 6thday.While.FIk-1 expressed on the 3rd day of culture,gradually increased,and reached at the peak on the 7th day.vWF expressed gradually until 100%on the 7th day. CONCLUSION:The differentiation of peripheral blood stern cells into endothelial progenitor cells is characterized by the appearance of endothelial cell phenotypes and the disappearance of stern cell markers.both in the manner of gradual progression.

BACKGROUND: How to successfully obtain compact endothelium layers on smooth muscle cells is the most crucial part for the tissue-engineered vessels. OBJECTIVE: To explore the effects of different cell implantation concentrations on the construction of the complete biological tissue-engineered blood vessels.METHODS: Different concentrations of porcine vascular smooth muscle cells (5×105, 5×107 cells/L) were implanted on the porcine acellular vascular matrix to culture for 3 days. Then different concentrations of endothelial progenitor cells (5×105, 5×107 cells/L) were implanted on the smooth muscle cell-vascular matrix composite to construct lamellar complete biological tissue-engineered blood vessels.RESULTS AND CONCLUSION: The growth curves of high concentrations of smooth muscle cells on the acellular vascular matrix were similar to that of low concentrations. Moreover, the growth curves of cells implanted in the culture plates were similar to that implanted on the acellular matrix. However, cells in the low concentration groups have relatively low proliferation activity and low coverage rate. The cell coverage rate decreased as follows: high concentrations of endothelial progenitor cells+acellular matrix containing high concentrations of smooth muscle cells > high concentrations of endothelial progenitor cells+acellular matrix containing low concentrations of smooth muscle cells > low concentrations of endothelial progenitor cells+acellular matrix containing high concentrations of smooth muscle cells > low concentrations of endothelial progenitor cells+acellular matrix containing low concentrations of smooth muscle cells. Moreover, high concentrations of endothelial progenitor cells form relatively compact layers on the acellular matrix and show cobble-like growth. These findings indicate that an increase in the cell implantation concentrations is beneficial to the rapid formation of compact cell layers on the material surface.

Objective To study the curative effect of continuous veno-venous hemodiafiltration(CVVH)in patients with acute renal failure(ARF)after aortic dissection surgery. Methods Fifteen patients with renal dysfunction following aortic dissection surgery underwent CVVH from Feb. 2002 to Dec. 2009 in this study.The clinical data of these patients were collected,such as heart rate(HR),central vein pressure(CVP),mean artery blood pressure(MAP),PaO2,renal function,perioperative manifestations and outcomes. Results Eleven patients survived but 4 died during the course of treatment. There were significant decreases of BUN,Creatinin after CVVH (P ＜ 0. 05)treatment,and the urine volume returned to nomal after CVVH in 6 -40 days. Conclusions CVVH is an effective,convenient and safe treatment for patients with severely ARF following aortic dissection surgery.

To investigate the effect of preoperative uses of levosimendan in patients with low LVEF(≤0. 40) undergoing off-pump coronary artery bypass grafting(OPCABG). Methods 63 patients with low LVEF coronary artery diseases were prospectively enrolled during June 2015 to May 2018, randomized to levosimendan-treated group(n =32) and control group(n =31)preoperatively. Patients in levosimendan-treated group underwent levosimendan intravenous infusion 24 h before OPCABG. All patients underwent OPCABG at normal temperature. Internal mammary artery and great saphenous vein were used as bypass materials. Hemodynamics and cardiac function were compared between the two groups after OPCABG. Results Compared to control group, the systemic vascular resistance(SVR) and central venous pressure(CVP) of levosimendan- treated group were decreased significantly and the CO and LVEF increased significantly at 12h and 24h after surgery(P < 0. 05). The heart rate and mean artery pressure had no statistical difference between the two groups(P >0. 05). The dosage and administration time of vasoactive agents in levosimendan-treated group were significantly smaller than those in control group (P <0. 05). The time of mechanical ventilation, the ICU stay length, the BNP level in the first two days after operation, and the incidence of new atrial fibrillation were less than those of the control group(P <0. 05). The perioperative intra-aortic balloon pump implantation rate in levosimendan-treated group was significantly lower than that of the control group(P < 0. 05). Conclusion Preoperative use of levosimendan can significantly improve the hemodynamic and cardiac function status of patients with low LVEF after OPCABG, shorten the time of ventilator assisted and ICU hospitalization, and reduce the incidence of adverse events.

A 11-year old female patient with severe thalassemia, receipt a lentivirus-based cell and gene therapy (CGT) therapy in Shenzhen Children′s Hosptial on July 27th, 2021. At the two follow-up visits after discharge, patient were continuously tested positive for HIV screening through HIV Ag/Ab Combo assay (chemiluminescence Immunoassay), and the viral load results of HIV-1 nucleic acid testing (NAT) were both>5 000 copies/ml. The patient can be diagnosed with HIV infection according to the National Guideline for Detection of HIV/AIDS(2020 Revised Edition). The thorough investigation findings and supplementary experiment results indicated that the false-positive HIV-1 NAT results was caused by cross-reactivity between the target sites detected by conventional HIV-1 NAT reagents and the lentiviral vectors fragments integrated into the genome of patient′s hematopoietic stem/progenitor cells. In conclusion, it is important for laboratories to select appropriate HIV-1 NAT testing platforms which won′t cause cross-reactivity for the testing of samples from patients who have been treated with HIV-derived vectors. It is also recommended to design and develop NAT testing platforms with multiple target regions labeled by different fluorescents for HIV NAT supplementation experiment to reduce the risk of false-positive diagnoses of HIV infection.

BACKGROUND: Three-dimensional (3D) printed bone tissue engineering scaffolds have been widely used in research and clinical applications. β-TCP is a biomaterial commonly used in bone tissue engineering to treat bone defects, and its multifunctionality can be achieved by co-doping different metal ions. Magnesium doping in biomaterials has been shown to alter physicochemical properties of cells and enhance osteogenesis. METHODS: A series of Mg-doped TCP scaffolds were manufactured by using cryogenic 3D printing technology and sintering. The characteristics of the porous scaffolds, such as microstructure, chemical composition, mechanical properties, apparent porosity, etc., were examined. To further study the role of magnesium ions in simultaneously inducing osteogenesis and angiogenesis, human bone marrow mesenchymal stem cells (hBMSCs) and human umblical vein endothelial cells (HUVECs) were cultured in scaffold extracts to investigate cell proliferation, viability, and expression of osteogenic and angiogenic genes. RESULTS: The results showed that Mg-doped TCP scaffolds have the advantages of precise design, interconnected porous structure, and similar compressive strength to natural cancellous bone. hBMSCs and HUVECs exhibit high proliferation rate, cell morphology and viability in a certain amount of Mg²⁺. In addition, this concentration of magnesium can also increase the expression levels of osteogenic and angiogenic biomarkers. CONCLUSION: A certain concentration of magnesium ions plays an important role in new bone regeneration and reconstruction. It can be used as a simple and effective method to enhance the osteogenesis and angiogenesis of bioceramic scaffolds, and support the development of biomaterials and bone tissue engineering scaffolds.
Biocompatible Materials ; Biomarkers ; Bone and Bones ; Bone Marrow ; Bone Regeneration ; Cell Proliferation ; Compressive Strength ; Endothelial Cells ; Humans ; In Vitro Techniques ; Ions ; Magnesium ; Mesenchymal Stromal Cells ; Methods ; Osteogenesis ; Porosity ; Printing, Three-Dimensional ; Veins