Objective To investigate the effects of insulin on vascular diameter of the peri -infarct region and infarct volume after cerebral infarction in mice. Methods Forty male C57/BL6j mice w ere randomly divided into a control group ( n = 5), a cerebral infarction group ( n = 15), a cerebral insulin resistance group (n = 5), and a cerebral insulin resistance infarction group ( n = 15). A model of cerebral infarction w as induced by the photochemical method. A model of cerebral insulin resistance w as induced by intracerebroventricular injection of streptozocin. Tw o -photon confocal microscope w as used to in vivo evaluate the changes of vascular diameter in the peri-infarct region at 20 min after insulin injection into the cerebelomedulary cistern. After modeling of cerebral infarction, artificial cerebrospinal fluid or insulin (10 ng/ml) w as immediately injected into the cerebelomedulary cistern, and the effect of insulin on cerebral infarct volume w as evaluated at 24 h after infarction. Results Insulin did not have significant effect on various types of cerebral vascular diameters in the normal control group, but it significantly contracted cerebral arteries ( -23.16% ±6.86% and -23.32% ±6.40%, respectively; al P <0.001) and penetrating arteries ( -15.20% ±5.51% and -16.40% ±4.27%, respectively; al P < 0.001) in the cerebral insulin resistance group and the cerebral insulin resistance infarction group, but it did not have any effect on the diameters of the cerebral veins. There w ere no significant differences in the vasoactive effects of insulin betw een the cerebral infarction group and the normal control group, as w el as betw een the cerebral insulin resistance group and the cerebral insulin resistance infarction group. Insulin significantly reduced the volume of cerebral infarction in the cerebral infarction group (9.0 ±1.0 mm3 vs.6.0 ±1.2 mm3; t = 4.294,P =0.002), and it did not have significant effect on the volume of cerebral infarction in the cerebral insulin resistance infarction group ( 12.6 ±2.3 mm3 vs.11.6 ±1.7 mm3; t = 0.782, P = 0.456). Conclusions Insulin can reduce ischemic brain injury in normal mice and can not affect the cerebrovascular diameter of the peri-infarct region. The neuroprotective effect of insulin is not significant in cerebral insulin resistance in mice, and it may be associated w ith the vasoconstrictor effects of insulin in the peri -infarct region.

This study was aimed to isolate and characterize of chemical constituents in a traditional Mongolian medicine HERBA CLEMATIS. Normal and reverse phase coloumn chromatography, gel filtration chromatography sephadex LH-20, and preparative HPLC were used for isolation and purification compounds from the water extraction of the arial part ofC. aethusaefoliaTurcz. The planar structures and spatial configurations of isolated compounds were identified by high resolution MS, 1D and 2D NMR, and other spectrographic methods. The chemical research on the Mongolian medicine results 6 compounds, dihydrodehydrodiconiferyl alcohol (1), syringaresinol (2), pinoresinol (3), epi-pinoresinol (4), lirioresinol B dimethyl ether (5) and loliolide (6). All the compounds were isolated from this plant for the first time.

OBJECTIVE To investigate whether electroacupuncture(EA)ameliorates abnormal trigeminal neuralgia(TN)orofacial pain and anxiety-like behavior by altering synaptic plasticity in the hippocampus CA1.METHODS A mouse infraorbital nerve transection model(pT-ION)of neuropathic pain was established,and EA or sham EA was used to treat ipsilateral acu-puncture points(GV20-Baihui and ST7-Xia-guan).Golgi-Cox staining and transmission elec-tron microscopy(TEM)were administrated to observe the changes of synaptic plasticity in the hippocampus CA1.RESULTS Stable and per-sistent orofacial allodynia and anxiety-like behav-iors induced by pT-ION were related to changes in hippocampal synaptic plasticity.Golgi stain-ings showed a decrease in the density of dendritic spines,especially mushroom-type dendritic spines,in hippocampal CA1 neurons of pT-ION mice.TEM results showed that the density of synapses,membrane thickness of the postsynap-tic density,and length of the synaptic active zone were decreased,whereas the width of the synap-tic cleft was increased in pTION mice.EA attenu-ated pT-ION-induced orofacial allodynia and anx-iety-like behaviors and effectively reversed the abnormal changes in dendritic spines and syn-apse of the hippocampal CA1 region.CONCLU-SION EA modulates synaptic plasticity of hippo-campal CA1 neurons,and reduces abnormal oro-facial pain and anxiety-like behavior,providing evidence for a TN treatment strategy.

Autologous ozonized blood transfusion(AOBT) is a therapy of re-transfusion of 100-200 mL of autologous blood after shaking and agitation with appropriate amount of oxygen-ozone in vitro. The oxidation of blood through the strong oxidation of ozone can enhance the non-specific immune response of the body, regulate the internal environment and promote health. This therapy has been increasingly applied in clinical practice, while no unified standard for the operation process in terms of ozone concentration, treatment frequency and treatment course had been established. This operation process of AOBT is primarily explored in order to standardize the operation process and ensure its safety and efficacy.