The effects of various soluble extracts of Ascaris suum on human blood coagulation were studied. The extract of whole worm could prolong recalcification time (RT) and kaolin-activated, partial thromboplastin time (KPTT), but did not alter prothrombin time (PT), indicating that the intrinsic pathway of blood coagulation was inhibited by this extract, but the extrinsic pathway was not affected. Whole worm extract inhibited platelet aggregation induced by ADP, but did not influence the one induced by adrenaline. Neither whole worm extract nor body fluid caused fibrinolysis. In KPTT assays with three dif-ferent extracts, cuticle extract exhibited the strongest anticoagulant activity, while whole worm extract and body fluid much less so. These data suggested that anticoagulants of ascaris mainly exist in the cuticle,

Objective To investigate the changes of collagen types Ⅰ and Ⅲ, the effects of Oleum Curcumae Aromaticae oil injection on injuried rat arteries and collagen types Ⅰ and Ⅲ after balloon angioplasty Methods The left common carotid artery in rats was denuded with a balloon catheter The rats were killed 14 days after injury Cross sections stained with picrosirius red from the injuried segments were processed for distribution, arrangememt, amount, proportion of collagen type Ⅰ and type Ⅲ by polarizing microscope, and those stained with hematoxylin eosin for histological and morphological changes studied by computer assisted picture analysis system Results Fourteen days after balloon injury, collagen type Ⅰ and type Ⅲ of the model group were found mainly in adventitia, much more, thicker, brighter and more disordered than those of the sham operation group Compared with the model group, collagen type Ⅰ and type Ⅲ of the E Zhu You group were found mainly in adventitia, less, thinner, dimmer and more orderly Lumen area, EEL perimeter, IEL perimeter of the model group were decreased and the areas of collagen types Ⅰ and Ⅲ increased more significantly than those of the sham operation group Compared with the model group, maximal intimal thickness, neointima area, the areas of collagen type Ⅰ and Ⅲ of the E Zhu You group were decreased significantly which was not different from those of the sham operation group Lumen area, EEL perimeter and IEL perimeter were increased markedly up to those of the sham operation group The ratio of collagen subtypes Ⅰ/Ⅲ was not significantly different between the two of the three groups Conclusion The accumulation and derangement of collagen types Ⅰ and Ⅲ may be more important in restenosis than the ratio of collagen subtypes Ⅰ/Ⅲ We concluded that Oleum Curcumae Aromaticae oil injection inhibits neointimal formation and vascular remodeling after arterial injury by mechanisms involving collagen types Ⅰ and Ⅲ production and their arrangement

To explore the effect of Kaixin Capsule (KC, composed of Radix Panacis Quinquefolii, Radix Astragali, Radix Ophiopogonis, Rhizoma Chuanxiong,Rhizoma Cyperi, etc.) in reconstructing the collagen of non infarct region of left ventricle in rats after myocardial infarction (MI) and to study its mechanism.Seventy rats were allocated to mimic operation group (Group Ⅰ), model group (Group Ⅱ), high dosage KC group (Group Ⅲ), low dosage KC group (Group Ⅳ) and positive control group (Group Ⅴ). Rat models of left ventricle reconstruction were established by the ligation of the main stem of left coronary artery. Three days after modeling, the rats were treated with KC for eight weeks. And then the total collagen content in the myocardium of non infarct region and angiotensin Ⅱ (AngⅡ) and aldosterone (ALD) levels in blood and myocardium were measured by oxyproline hydroxyproline method and radioimmunoassay. The total collagen content was higher in Group Ⅱ than that in Group Ⅰ (P0 05) . [Conclusion]KC can inhibit the production of collagen and increase myocardial compliance and its mechanism may be involved in the regulation of rennin angiotensin aldosterone system.

Objective To investigate the effect of pregnancy and spontaneous delivery on the morphologic characteristics of the levator ani muscle and innervation of the vaginal mucosa. Methods Eight nullipara without pelvic floor dysfunction (PFD) and 64 normal primipara undergoing spontaneous delivery were enrolled in this study during July to December 2006 in Peking Union Medical College Hospital. Biopsy specimens of levator ani muscle (LAM) and anterior and posterior vaginal walls were obtained from the puerpera as well as from the 8 nullipara undergoing vaginal operation. The structures of LAM were examined with histological techniques. Vaginal mucosa specimens were examined using immunohistochemistry staining for protein gene product 9. 5 ( PGP 9. 5), vasoactive intestinal poptide (VIP) and ne uropeptide Y ( NPY),and the positive stained nerve fibers were calculated respectively. Results The LAMs of the puerpera undergoing spontaneous delivery presented myogenetic and neurogenetic changes, both acute and chronic.Type Ⅰ muscular fibers were predominant(79% )with both types increasing in diameters [ (86±9)μm and (79±15) μm]. Significantly different ( P < 0. 05 ) innervation of PGP 9. 5, VIP, and NPY nerve fiberswas observed between epithelial lamina of anterior vaginal wall(5.9±3. 3, 7. 6±3. 1 and 8. 2±3. 2, respectively) and that of posterior vaginal wall (3. 8±2. 9, 5.9±3. 1 and 6. 0±3.0, respectively), with the nerve fibers being more in epithelial lamina of anterior vaginal wall, while no difference in the innervation of nerve fibers was observed in the lamina propria. Significantly different( P <0. 05 ) innervation of PGP 9. 5 and VIP nerve fibers was observed in the lamina propria of the anterior vaginal wall in puerperal undergoing vaginal delivery (6.9±3.2 and 4.9±2. 1) compared with those in nullipara (3.9±3.6 and 3. 1±1.2). Conclusions Pathologic changes occur in LAMs and pelvic floor nerves during labor and delivery. LAM fibers become hypertrophy to adapt to the physiological changes during pregnancy. Richer innervation of PGP 9. 5 and VIP nerve fibers in the lamina propria of the anterior vaginal wall in puerpera undergoing spontaneous delivery is beneficial for dilation of the blood vessels and smooth muscles and makes preparation for delivery.

0. 05) . The muscular fiber density of levator ani muscles in SUI and POP groups was decreased, fibers were arranged in disorder and separated by large quantities of dense connective tissues with infiltrating inflammatory cells. The muscle fiber fascicles showed obvious grouped denervative atrophy, fiber type grouping and angular in shape. And also there was myopathic degeneration such as centrally located nuclei, peripheral phagocytosis and vacuolated necrosis. Conclusions There are both neurogenic and myopathic alterations in levator ani muscle's structure in patients with SUI and POP. The presence of both acute and chronic abnormalities indicates that the weakness of pelvic floor is a consequence of prolonged denervation.

Objective To investigate the immune response of the fusions of ovarian carcinoma cells to dendritic cell(DC) transfected with interleukin(IL)-12 gene in vitro. Methods Recombinant human granulocyte macrophage colony stimulating factor and recombinant human tumor necrosis factor ? were used to generate DC from cord blood in vitro. IL-12 fusion gene was cloned into a eukaryotic vector-pcDNA3.1(+). DC were transfected with IL-12-pcDNA3.1(+) using lipofectamine transfection method and electric transfection method respectively. Then polyethylene glycol mediated the fusion of transfected DC and ovarian carcinoma cells, and 3-(4,5-dimethylthiazol-2-yl) 2,5-diphenyl tetrazolium bromide (MTT) test was carried out to observe the immune response. Results DC were generated in vitro from cord blood and expressed high levels of costimulatory(50%) and MHC Ⅱ molecules(99%). RT-PCR showed that IL-12-pcDNA3.1(+) had been successfully transfected into DC. RT-PCR and immunofluorescence analysis showed that DC were fused with ovarian carcinoma cells successfully. Then the fusion cells of ovarian carcinoma cells to transfected DC, and the fusions of ovarian carcinoma cells to DC were cocultured with peripheral blood mononuclear cell respectively. MTT test showed that both fusions could induce cytolytic T cell activity and lysis of ovarian carcinoma cells,and the former effect was stronger. Conclusion The cytolytic T cell activity induced by the fusions of ovarian carcinoma cells to transfected DC is enhanced.

Spinal cord injury (SCI) is a serious nervous system disease that usually leads to the impairment of the motor, sensory, and autonomic nervous functions of the spinal cord, and it places a heavy burden on families and healthcare systems every year. Due to the complex pathophysiological mechanism of SCI and the poor ability of neurons to regenerate, the current treatment scheme has very limited effects on the recovery of spinal cord function. In addition, due to their unique advantages, exosomes can be used as carriers for cargo transport. In recent years, some studies have confirmed that treatment with mesenchymal stem cells (MSCs) can promote the recovery of SCI nerve function. The therapeutic effect of MSCs is mainly related to exosomes secreted by MSCs, and exosomes may have great potential in SCI therapy. In this review, we summarized the repair mechanism of mesenchymal stem cells-derived exosomes (MSCs-Exos) in SCI treatment and discussed the microRNAs related to SCI treatment based on MSCs-Exos and their mechanism of action, which is helpful to further understand the role of exosomes in SCI.

Objective:To analyze the correlation between electromagnetic perturbation index and intracranial pressure (ICP) in patients with acute ischemic stroke (AIS) after mechanical thrombectomy, and to explore their values in early warning of decompressive craniectomy (DC).Methods:Forty-three patients with AIS after mechanical thrombectomy admitted to our hospital from January 1, 2018 to December 31, 2019 were enrolled in our prospective cohort study. Electromagnetic perturbation index and invasive ICP were continually monitored for 1-5 d in all patients 24 h after mechanical thrombectomy. According to the mean ICP on the first d, all patients were divided into normal ICP group (ICP<15 mmHg), mild increased ICP group (15≤ICP≤22 mmHg) and moderate to severe increased ICP group (ICP>22 mmHg). According to the implementation of DC, these patients were divided into decompressive craniectomy group and non-decompressive craniectomy group. The differences in clinical data of patients in different ICP groups were compared. The correlation between electromagnetic perturbation index and ICP was analyzed by Pearson correlation method. Receiver operating characteristic (ROC) curve was drawn to analyze the diagnostic value of electromagnetic perturbation index in increased ICP (ICP>22 mmHg). Multivariate Logistic regression analysis was used to determine the independent influencing factors for DC after mechanical thrombectomy in AIS patients. ROC curve was used to evaluate the diagnostic values of electromagnetic perturbation index and ICP in DC implementation after mechanical thrombectomy in AIS patients.Results:(1) In these 43 patients, 8 had normal ICP, 13 had mild increased ICP, and 22 had moderate to severe increased ICP. There were significant differences in baseline Glasgow Coma Scale (GCS) scores, baseline National Institutes of Health Stroke Scale (NIHSS) scores, baseline Alberta stroke program early CT scale (ASPECTS) scores, percentage of patients accepted DC, and electromagnetic perturbation index among the 3 groups ( P<0.05). Correlation analysis showed that electromagnetic perturbation index was negatively correlated with ICP ( r=-0.699, P=0.000). ROC curve showed that the area under curve (AUC) of electromagnetic perturbation index in diagnosing ICP>22 mmHg was 0.850 ( 95%CI: 0.690-1.000, P=0.000), enjoying the optimal cutoff value of 126. (2) Among the 43 patients, 27 were in the decompressive craniectomy group and 16 were in the non-decompressive craniectomy group. Multivariable Logistic regression analysis showed that baseline NIHSS scores, baseline ASPECTS scores, electromagnetic perturbation index, and ICP were independent risk factors for DC implementation after mechanical thrombectomy in AIS patients ( P<0.05). ROC curve showed that the AUC of ICP in predicting DC implementation after mechanical thrombectomy was 0.851 ( 95%CI: 0.728-0.973, P=0.000), enjoying the optimal cutoff value of 18.5 mmHg; the AUC of electromagnetic perturbation index in predicting DC implementation after mechanical thrombectomy was 0.764 ( 95%CI: 0.609-0.919, P=0.004), enjoying the optimal cutoff value of 137.5. Conclusion:There is a good correlation between electromagnetic perturbation index and ICP, which can be used as reference indexes for early warning of DC after mechanical thrombectomy in AIS patients.

Spinal cord injury (SCI) is a serious nervous system disease that usually leads to the impairment of the motor, sensory, and autonomic nervous functions of the spinal cord, and it places a heavy burden on families and healthcare systems every year. Due to the complex pathophysiological mechanism of SCI and the poor ability of neurons to regenerate, the current treatment scheme has very limited effects on the recovery of spinal cord function. In addition, due to their unique advantages, exosomes can be used as carriers for cargo transport. In recent years, some studies have confirmed that treatment with mesenchymal stem cells (MSCs) can promote the recovery of SCI nerve function. The therapeutic effect of MSCs is mainly related to exosomes secreted by MSCs, and exosomes may have great potential in SCI therapy. In this review, we summarized the repair mechanism of mesenchymal stem cells-derived exosomes (MSCs-Exos) in SCI treatment and discussed the microRNAs related to SCI treatment based on MSCs-Exos and their mechanism of action, which is helpful to further understand the role of exosomes in SCI.

Spinal cord injury (SCI) is a serious nervous system disease that usually leads to the impairment of the motor, sensory, and autonomic nervous functions of the spinal cord, and it places a heavy burden on families and healthcare systems every year. Due to the complex pathophysiological mechanism of SCI and the poor ability of neurons to regenerate, the current treatment scheme has very limited effects on the recovery of spinal cord function. In addition, due to their unique advantages, exosomes can be used as carriers for cargo transport. In recent years, some studies have confirmed that treatment with mesenchymal stem cells (MSCs) can promote the recovery of SCI nerve function. The therapeutic effect of MSCs is mainly related to exosomes secreted by MSCs, and exosomes may have great potential in SCI therapy. In this review, we summarized the repair mechanism of mesenchymal stem cells-derived exosomes (MSCs-Exos) in SCI treatment and discussed the microRNAs related to SCI treatment based on MSCs-Exos and their mechanism of action, which is helpful to further understand the role of exosomes in SCI.