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Craniocerebral injury with seawater immersion is a special kind of compound injury, with low temperature, high permeability, high alkali, high salt content, and bacterial infection being the main causes. The injury is also characterized with complex damage mechanisms, difficulty to treat, and poor prognosis. At present, the damage mechanisms of craniocerebral injury with seawater immersion are mainly studied by establishing the experimental animal models at the levels of tissue, cell, organelle, molecule, etc. However, the craniocerebral injury with seawater immersion is more complex than the simple onshore craniocerebral injury, therefore, a stable disease model is not easy to construct. Most researches on the specific injury mechanisms are relatively single and one-sided, with many different views in existence, and the damage mechanisms of craniocerebral injury with seawater immersion have hitherto not been clear. The authors reviewed the research progress in the damage mechanisms of craniocerebral injury with seawater immersion, in order to promote the in-depth study of the mechanism of craniocerebral injury with seawater immersion and provide reference for its clinical treatment.
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Posttraumatic stress disorder (PTSD), the most common mental illness after patients suffer physically or emotionally from traumatic events, can cause persistently strong, painful and terrible avoidance symptoms, emotional and cognitive changes, causing psychologically strong stimulation and heavy burden to patients and even leading to some extreme behavioral reactions. Traumatic brain injury (TBI) is an important factor in the occurrence of PTSD, both of which shares many similar pathological overlaps, and may coexist and interact with each other. The hippocampus and amygdala play a central role in the pathogenesis of PTSD, but the specific cellular and molecular and neural circuit mechanisms are still unclear. About two-thirds of the patients still meet the diagnostic criteria for PTSD after psychotherapy. However, the current treatment methods are complicated and not unified, and patients treated with medications may have adverse drug reactions, poor treatment outcomes and recurrence. Therefore, it is of great significance to further clarify the occurrence and development of PTSD in TBI patients. The authors reviewed the research progress of the pathogenesis and treatment of PTSD in TBI patients, so as to provide reference for the related research and treatment of PTSD in TBI patients.
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Objective To observe the expression of neuropilin-1 (NRP-1) in glioma cells of different grades,and evaluate the application value of a novel molecular probe(USPIO-PEG-tLyP-1)in the grading diagnosis of heterotopic glioma in nude mice by magnetic resonance imaging (MRI).Methods Expression levels of NRP-1 in glioma cell lines of different grades were detected by Western-Blot.USPIO-PEG-tLyP-1 was synthesized by carbon diimine method.The U87-MG tumor-bearing mice model (U87-MG group) and CHG-5 tumor-bearing mice model(CHG-5 group) were established with 10 mice in each group.Six tumorbearing mice with a tumor volume about 0.6 cm3 were selected from each group,and they were given with 2mg/kg molecular probes via tail vein respectively and was detected by MRI at 0 h,6 h,12 h and 24 h,then R2 values were calculated.After the imaging,tumor-bearing mice were sacrificed,and tumor tissue sections were made.The iron particles in the sections was detected by Prussian blue staining.The binding ability of molecular probes and tumor tissues in the two groups was compared.Results The expression of NRP-1 in U87-MG and CHG-5 cell lines was significantly higher than that in HA.In addition,the expression of NRP-1 in U87-MG was higher than that in CHG-5 cell(P<0.01).MRI results showed that R2 values of tumor tissues in the two groups were compared,and the difference was not statistically significant before the injection of molecular probe(U87-MG group(10.35±0.52)vs CHG-5 group(9.86±0.43),t=1.779,P=0.106).The R2 value of tumor tissue in the U87-MG group was higher than that in the CHG-5 group after the injection of molecular probe (6 h:U87-MG group (11.63±0.85)vs CHG-5 group (10.51 ±0.49),t=2.796,P=0.019;12h:U87-MG group(14.23±0.68)vs CHG-5 group(12.29±0.28),t=6.462,P=0.000;24 h:U87-MG group (13.36±0.92) vs CHG-5 group(11.32±0.64),t=4.459,P=0.001).The results of Prussian blue staining showed that there were significantly more blue staining particles in tumor tissues of the U87-MG group than that of the CHG-5 group,and the difference was statistically significant(P<0.01).Conclusion The NRP-1 targeted molecular probe can be used for grading diagnosis of high and low grade heterotopic brain glioma in nude mice.
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Objective@#To explore the inhibitory effect of exosomes secreted by human umbilical cord mesenchymal stem cells(HUCMSC) on apoptosis of human umbilical vein endothelial cells(HUVEC) after model group(oxygen-glucose deprivation reoxygenation), and to clarify its possible mechanism.@*Methods@#Human umbilical cord mesenchymal stem cells were cultured. The collected cell supernatant was stored in a centrifugal tube. The exosomes secreted by human umbilical cord mesenchymal stem cells were extracted by ultracentrifugation and identified. Human umbilical vein endothelial cells were randomly divided into control group, model group and different concentrations of HUCMSC-EXO(20 μg/ml, 40 μg/ml, 60 μg/ml) treatment groups(adding HUCMSC-EXO into the model group) . The morphological changes of HUVEC cells in each group were observed by inverted phase contrast microscope, and the proliferation inhibition rate of HUVEC in each group was measured by CCK-8 reagent. Western blot was used to detect the expression of apoptosis-related proteins Caspase-3, Bax, Bcl-2 and hypoxia-associated protein hypoxia inducible factor 1α(HIF-1α). Inhibitor(HIF-1α inhibitor) + model group and HUCMSC-EXO + inhibitor + model group were added on the basis of the above experiments. Western blot analysis was performed to observe the effects of HUCMSC-EXO, inhibitor and both of them on HIF-1α and Bax expressions in HUVEC.@*Results@#HUCMSC-EXO was successfully extracted and identified. Compared with the control group, the volume of HUVEC in the model group and the HUCMSC-EXO group with different concentrations decreased, became round, connected and evacuated, and the growth state was poor under the inverted phase contrast microscope.CCK-8 detection showed that the cell viability in the HUCMSC-EXO group was significantly higher than that in the model group, the difference was statistically significant (t=9.23, P<0.05). Western blot analysis showed that compared with the control group, the expression levels of Caspase-3 ((0.296±0.038), (0.879±0.088); t=14.92, P<0.05), Bax((0.234±0.034), (0.762±0.084); t=14.36, P<0.05) of HUVEC in the model group were up-regulated, and the expression level of Bcl-2 was down-regulated ((0.863±0.103), (0.387±0.059); t=9.85, P<0.05), with statistically significant differences. Compared with the model group, the expression levels of Caspase-3( (0.586±0.075); t=6.24, P<0.05), Bax((0.311±0.055); t=11.01, P<0.05) and Bcl-2((0.665±0.071); t=7.45, P<0.05) of HUVEC in the HUCMSC-EXO treatment group were down-regulated and the differences were statistically significant. Inhibitor intervention experiments showed that there were no significant differences between the inhibitor+ model group and HUCMSC-EXO+ inhibitor+ model group in the expression of HIF-1α protein ((0.348±0.055), (0.388±0.077); t=1.04, P>0.05)and Bax protein ((0.363±0.069), (0.370±0.064); t=0.18, P>0.05). But both of them were down-regulated compared with the model group (HIF-1α protein (0.919±0.064), Bax protein (0.902±0.071)), the differences were significant( t=13.56, t=13.03, both P<0.05).@*Conclusion@#HUCMSC-EXO has a protective effect on OGD/R model of HUVEC, and its mechanism may be related to the down-regulation of HIF-1α expression.