Proliferation and differentiation of neural stem cells is regulated by autologous or external, adjacent or remote cell signaling pathways. This paper reviewed the studies about the Notch, BMP, Wnt, Shh signaling pathways related to brain neurogenesis.

Objective To explore the effects of morroniside on the expression of CD34 in ipsilateral cortex of rats after focal cerebral isch-emia-reperfusion. Methods 45 male Sprague-Dawley rats were divided into sham group (n=9), ischemia group (n=9), and morroniside groups (low, medium and high dosage groups, n=9). The middle cerebral artery were occluded for 30 minutes, and reperfused. Morroniside was administered intragastrically once a day at dose of 30 mg/kg, 90 mg/kg, 270 mg/kg after operation. The expression of CD34 in the isch-emic ipsilateral cortex were detected with immunohistochemistry (n=6) and Western blotting (n=3) 7 days after operation. Results The ex-pression of CD34 increased in the ischemia group compared with the sham group, and further increased in the morroniside groups of high dos-age compared with the ischemia group (F>14.865, P<0.001). Conclusion Morroniside could increase the expression of CD34 in the ischemic ipsilateral cortex after ischemia-reperfusion in rats, which may promote the angiogenesis and neurogenesis after ischemia.

Objective To investigate the effects of morroniside on the expression of vascular endothelial growth factor (VEGF) and fi-broblast growth factor-2 (FGF-2) in rat cortex after focal cerebral ischemia-reperfusion. Methods 30 male Sprague-Dawley rats were ran-domly divided into sham group, model group, morroniside-low group (30 mg/kg), morroniside-middle group (90 mg/kg) and morroni-side-high group (270 mg/kg). Middle cerebral arteries of rats were occluded for 30 minutes with Longa's method and re-perfused. The ex-pression of VEGF and FGF-2 in the ischemic ipsilateral cortex was detected with Western blotting 7 days after reperfusion. Results The ex-pression of both VEGF and FGF-2 increased in the ischemic ipsilateral cortexin in all the ischemic groups compared with the sham group (P<0.05). The expression of VEGF further increased in a dose-dependent manner in all the morroniside groups compared with that of model group (P<0.05), and the expression of FGF-2 increased in the morroniside-high group (P<0.001). Conclusion Morroniside could increase the expression of VEGF and FGF-2 after ischemia-reperfusion, which might promote angiogenesis.

Objective The aim of this study was to investigate the aquaporin-4(AQP4) expression in the ischemic penumbra tissues.Methods Thirty-six Wistar rats were divided into 7 groups randomly, including control group(n=6) and occluded groups(n=30). The occluded groups were studied after the right middle cerebral artery of the rats unilaterally occluded(MCAO) at an interval of 15 min, 30 min, 1 h, 3 h, 6 h and 24 h, respectively(n=5 for each group). The operation process of the control group was the same as the occluded group except occluded MCAO. Then all rats were imaged with T_1WI, T_2WI and diffusion weighted-imaging(DWI). The brain tissue, according to the method by LIU Meili reported, was regarded as the area of the graphic penumbra. The relative apparent diffusion coefficient of the graphic-penumbra (rADC_1) and the center infarction(rADC_2)(ratios between the values of the occluded side and the opposite side) were calculated. The animals were sacrificed and perfused with the mixture solution consisting of TTC at different time intervals. The graphic-penumbra of the biggest layer of the ischemic cerebral tissue which corresponded to the DWI was examined with immunohistochemistry and RT-PCR. Meanwhile, histologic examination was performed at same site of the lesion. Results There were no significant changes on MRI, the relative apparent diffusion coefficient and the expression of the AQP4. The abnormal high intensity was found on DWI at 15 min after MCAO. T_2WI detected the lesion at 1 h after MCAO. The value of the rADC_1 decreased within 24 h after MCAO in ischemic penumbra, especially, it descended quickly within 1 h after MCAO, from(70.4?6.9)% at 15 min to(53.5?10.9)% at 1 h. Whereas, in the infarct tissue, the changes of the rADC_2 had a rule of decrease from(71.5?6.6)% at 15 min to(45.7?10.5)% at 3 h at first time, and then follow an increasing up to(78.7?11.5)% at 24 h after MCAO. The expression of AQP4 increased gradually within 24 h after MCAO, from 0.42?0.05 at 15 min to 1.18?0.12 at 24 h, it showed negative relationship with the rADC_1 in the ischemic penumbra (r= -0.966,P

OBJECTIVE： To establish a method for content determination of main components and its related substances in Phenzolzine capsules. METHODS： HPLC method was adopted for content determination of main components. The contents of related substance （known impurity 1， known impurity 2， total impurity） were calculated with principle component self-control method. The determination was performed on Inertsil ODS-2 C18 column with mobile phase consisted of acetonitrile-water （55 ∶ 45， V/V）at the flow rate of 1.0 mL/min. The detection wavelength was set at 223 nm， and column temperature was 25 ℃. The sample size was 20 μL. RESULTS： The main component phenzolzine and other impurity peaks were well separated. The liner range of phenzolzine was 20.04-60.12 μg/mL （r＝1.000 0）. RSDs of precision， stability （24 h） and reproducibility tests were all ≤0.5％ （n＝6）. Average recovery was 97.50％ （RSD＝0.36％， n＝3）. The detection limit and quantification limit of phenzolzine were 0.91 ng and 3.04 ng. In 3 batches of samples， average value of phenzolzine， known impurity 1， known impurity 2 and total impurity were 106.68％， 0.002 1％， 0.044 0％ and 0.046 2％， respectively. CONCLUSIONS： Established method is simple， specific， sensitive and accurate for content determination of main component and related substance in Phenzolzine capsules. It is suitable for quality control of Phenzolzine capsules.

Pulmonary blast injury has become the main type of trauma in modern warfare, characterized by externally mild injuries but internally severe injuries, rapid disease progression, and a high rate of early death. The injury is complicated in clinical practice, often with multiple and compound injuries. Currently, there is a lack of effective protective materials, accurate injury detection instrument and portable monitoring and transportation equipment, standardized clinical treatment guidelines in various medical centers, and evidence-based guidelines at home and abroad, resulting in a high mortality in clinlcal practice. Therefore, the Trauma Branch of Chinese Medical Association and the Editorial Committee of Chinese Journal of Trauma organized military and civilian experts in related fields such as thoracic surgery and traumatic surgery to jointly develop the Clinical treatment guideline for pulmonary blast injury ( version 2023) by combining evidence for effectiveness and clinical first-line treatment experience. This guideline provided 16 recommended opinions surrounding definition, characteristics, pre-hospital diagnosis and treatment, and in-hospital treatment of pulmonary blast injury, hoping to provide a basis for the clinical treatment in hospitals at different levels.