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Objective To analyze the clinical efficacy of acupuncture and moxibustion in treating acute cerebral infarction.Methods A thorough literature search of randomized and controlled tests of acupuncture and moxibustion in treating the acute cerebral infarction was conducted.A meta-analysis was performed using version 5.3 of the ReviewManager software.Results Thirty-nine reports covering 3792 cases were found and analyzed.The neurologic impairment analysis found that in the experimental group mean difference (MD) was-1.86,with the 95% credibility interval (CI) of between-2.06 and-1.66 showing significant differences compared with the control group.The average clinical effectiveness rate of the experimental groups was 3.95,with a 95% CI of between-3.02 and 5.16,significantly higher than the control groups'.The experimental groups' markedly effective rate was 1.54,with a 95% CI of 1.40 to 1.70,showing significant differences compared with the control groups.Conclusion Acupuncture and moxibustion are effective in treating acute cerebral infarction.They are worth popularizing in clinical practice.
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Objective To evaluate the curative effect of imipenem on stroke associated pneumonia(SAP).Methods Seventy-two inpatients with SAP in ICU of the Affiliated Hospital of Southwest Medical University from January 2014 to January 2016 were selected.The patients were given the stroke associated treatment and symptomatic treatment.On this basis imipenem 1.0 g+ 0.9% normal saline 100 mL was injected,once per 8 h.The disease condition change during treatment process was observed.The laboratory test results and chest CT changes were compared between before and after 2-week treatment.And the correlation analysis of risk factors was performed.Results Twelve cases died during treatment,60 cases were survival.The body temperature was declined to normal at 2 weeks after using imipenem.The NIHSS score,white blood cell (WBC) count,neutrophil count and C-reactive protein level after treatment were decreased compared with before treatment,the blood gas analysis showed that the arterial partial pressure of oxygen and oxygenation index were elevated compared with before treatment.The chest CT showed that pulmonary inflammatory exudation lesions and hydrothorax were absorbed and improved compared with before treatment.Among 72 cases,55 cases were cured,5 cases were remarkably effective,12 cases were ineffective,the total effective rate was 83.3 %.The risk factors correlation analysis indicated that swallowing dysfunction,consciousness disturbance and acute attack history of chronic obstructive pulmonary disease were negatively correlated with the curative effect.Conclusion Imipenem has satisfactory effect in treating SAP.
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Objective To evaluate the curative effect of imipenem on stroke associated pneumonia(SAP).Methods Seventy-two inpatients with SAP in ICU of the Affiliated Hospital of Southwest Medical University from January 2014 to January 2016 were selected.The patients were given the stroke associated treatment and symptomatic treatment.On this basis imipenem 1.0 g+ 0.9% normal saline 100 mL was injected,once per 8 h.The disease condition change during treatment process was observed.The laboratory test results and chest CT changes were compared between before and after 2-week treatment.And the correlation analysis of risk factors was performed.Results Twelve cases died during treatment,60 cases were survival.The body temperature was declined to normal at 2 weeks after using imipenem.The NIHSS score,white blood cell (WBC) count,neutrophil count and C-reactive protein level after treatment were decreased compared with before treatment,the blood gas analysis showed that the arterial partial pressure of oxygen and oxygenation index were elevated compared with before treatment.The chest CT showed that pulmonary inflammatory exudation lesions and hydrothorax were absorbed and improved compared with before treatment.Among 72 cases,55 cases were cured,5 cases were remarkably effective,12 cases were ineffective,the total effective rate was 83.3 %.The risk factors correlation analysis indicated that swallowing dysfunction,consciousness disturbance and acute attack history of chronic obstructive pulmonary disease were negatively correlated with the curative effect.Conclusion Imipenem has satisfactory effect in treating SAP.
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Objective To discuss the effects of Paclitaxel(PTX) on levels of CD28 and CTLA-4,B lymphocyte stimulator(BAFF) in experimental autoimmune encephalomyelitis(EAE).Methods The 50 rats were divided into 5 groups by the random number table, 10 rats in each group,the doses of small group,Middle group, High group were 1 mg/kg,2 mg/kg,4 mg/kg by intraperitoneal injection for 10 consecutive days, the normal group and model group were injected 0.9% NS 2 mL,Using brain tissue score to estimate the neurological dysfunctions of rats.Using flow cytometry to detect the levels of CD28 and CTLA-4,using enzyme-linked immunosorbent (ELISA) to detect the levels of BAFF.Results The brain tissue score in PTX experimental groups were lower than model group,the comparative differences between groups were statistically significant(P < 0.01);The levels of CD28 in PTX groups were lower than EAE group,the comparative differences between groups were statistically significant(P < 0.01).The levels of CTLA-4 in PTX groups were higher than EAE group,the comparative differences between groups were statistically significant(P < 0.01);the content of BAFF in all PTX groups were lower than EAE control group.Conclusions PTX could decrease the brain tissue score,the mechanism may adjust the express of CD28、CTLA-4 in brain and the expression of BAFF.PTX may have preventive and therapeutic effects on EAE rats.
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Objective To analyze the clinical features and image characteristic of neuro-Behcet disease with epileptic seizure as the primary symptom. Methods The data of 4 patients with neuro-Behcet disease with epileptic seizure as the first symptom were collected and retrospectively analyzed. Results One patient had recurrent joint pain in the department of dermatology, and 1 patient had blurred vision in the department of ophthalmology. They were shifted to department of neurology because of epileptic seizure. Head CT of four patients were normal. There were abnormal signal in brainstem in 2 cases, and in the other 2 cases, there were symmetry abnormal signals in periventricle, centrum semiovale. The abnormal signal was low in T1 weighted image and high in T2 weighted image, flair, diffuse weighing imaging , but there were no abnormal signals in cortex in these 4 cases. In CSF examination, 3 patients′cell number was high, 1 patient′s cell number was normal, 2 patients′protein levels were high, and the other 2 patients′protein levels were normal. One patient had spike wave and sharp wave in video-EEG, and the other 3 patients were normal. Conclusions Epileptic seizure is rare in neuro-Behcet disease, and CT and MRI is frequently-used in diagnosing nervous system disease. There are no abnormal signals in cortex, but there are generalized tonic-clonic seizure, which may relate with the abnormal discharge of cortex.
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Objective To investigate the etiological, clinical and neuroimaging features of symmetric corpus callosum lesions. Methods The clinical data of 27 patients with symmetric corpus callosum lesions were analyzed including the etiological, clinical and neuroimaging data retrospectively. Results In 27 patients, 16 patients suffered from chronic alcoholic encephalopathy, 5 patients suffered from viral encephalitis, 2 patients suffered from disturbance of water and electrolyte, 1 patient suffered from acute disseminated encephalomyelitis(ADEM), 2 patients suffered from brain trauma, and the etiology of 1 patient was unknown. Clinical manifestation: 8 patients had conscious disturbance, 5 patients had psychological and behavior disorder, 5 patients had epileptic seizure, 4 patients had ataxia, 3 patients had dysarthria and 2 patients had headache. There were abnormalities in CT scans and MRI. Manifestations in CT scans were symmetric low-density focus with clear boundary in corpus callosum. The performance in MRI was low-signals on T1WI but high signals on T2WI and DWI images, and there might be other intracranial lesions. In the follow-up period, foci disappeared in 15 patients, and foci persisted in 7 patients. Four patients lost in follow-up periods, and 1 patient was not followed up because of death. Conclusions The causes of symmetric corpus callosum lesions include chronic alcoholic encephalopathy, infections, disturbance of water and electrolyte and demyelination. And in some patients the cause is unknown up to now. The etiological treatment and symptomatic treatment are the common treating ways in clinic.
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Objective To explore the effect of vasoactive intestinal peptide ( VIP) on the prevention and treatment of experimental autoimmune encephalomyelitis(EAE) rats by regulating the levels of IFN-γand IL-17A in brain tissue. Methods Sixty healthy female Wistar rats were randomly divided into 4 groups:normal control group, EAE control group, VIP low-dose group and VIP high-dose group.Myelin basic protein ( MBP)+complete Freurd′s adjuvant ( CFA) was used to establish an EAE model.The low and high-dose VIP groups were intraperitoneally injected with VIP 4 nmol/kg(0.2 ml) and 16 nmol/kg (0.8 ml) respectively every other day,while normal control group and EAE group with 0.8 ml saline for ten consecutive days.The incubation period, progression and peak of neurological dysfunction score ( NDS) changes of rats were recorded.The pathological changes, the GFAP+astrocyte activation in the brain at the morbidity peak of rats and the cytokine levels of IFN-γand IL-17A in brain tissue were observed.Results The incubation period was extended, the progression and peak NDS were shortened in the two VIP groups.In normal control group, there was no inflammatory cell infiltration or active astrocytes in brain tissue.The degree of infiltration of inflammatory cells and the degree of astrocyte activation in the VIP control group were significantly lower than in the EAE group.The cytokine levels of IFN-γand IL-17A in brain tissue were reduced in VIP groups.Conclusion By lowering IFN-γand IL-17A content in brain tissue, the infiltration of inflammatory cells and astrocyte activation are inhibited.VIP plays an important role in prevention and control of EAE.
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Prostate cancer is the most common cancer among males in the United states,and the incidence has risen dramatically in recent years in China. Lymph node metastasis is a strong predictor of the metastatic potential and poor outcome of prostate cancer. Animal models of human prostate cancer lymphatic metastasis can be used to study the pathogenesis and metastatic mechanisms of prostate cancer,and evaluate the efficacy of new drugs for lymphatic metastasis of prostate cancer. This paper reviews commonly-used animal models of human prostate cancer lymphatic metastasis,including xenograft mouse models,genetically engineered mouse models,rat models and canine models,analyzes their advantages and disadvantages,presents their functions and characteristics,introduces the applications of cancer stem cells in these models and test methods of these models,and highlights the main problems to be solved.
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Objective To explore the effect of vasoactive intestinal peptide (VIP) on the content of IL-17A in the brain tissue of rat models of experimental autoimmune encephalomyelitis ( EAE) .Methods Sixty healthy female Wistar rats were randomly divided into normal control group, EAE control group, low-dose VIP group and high-dose VIP group. Ten healthy guinea pigs were used to prepare anti-IL-17A antibody.Myelin basic protein ( MBP) +complete adjuvant ( CFA) were used to establish the EAE model.Since the first day of modelling, the low-dose and high-dose VIP groups received intraperitoneal injection of VIP 4 nmol/kg (0.2 mL) and 16 nmol/kg (0.8 mL), respectively, every other day for 10 consecutive days.The normal control group and EAE group were injected with 0.8 mL saline instead of VIP.The incubation period, progression and the peak of neurological dysfunction scores ( NDS) of the rats were recorded.The levels of IL-17A in the brain tissue was determined by ELISA assay, and the GFAP+astrocyte activation in brain at morbidity peak in the rats was examined using anti-GFAP ( glial fibrillary acidic protein) antibodies.Results The incubation period were extended, the progression period was shortened and the peak neuological dysfunction score ( NDS) was decreased in the VIP-treated groups, in a dose-response relationship.The cytokine levels of IL-17A and the astrocyte activation degree in brain tissue were reduced in each VIP dose group, in a dose-response relationship.Conclusions VIP exerts therapeutic effect on experimental autoimmune encephalomyelitis through lowering the IL-17A content and inhibition of astrocyte activation in the brain tissue.
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OBJECTIVE:To study the protective effect of sivelestat sodium on experimental autoimmune encephalomyelitis (EAE) model rats. METHODS:60 Wistar rats were randomly divided into normal control group (normal saline),model group (normal saline),positive drug group [prednisone acetate tablets 5 mg/(kg·d)] and sivelestat sodium low-dose,middle-dose and high-dose groups [5,8,10 mg/(kg·d)] with 10 rats in each group. Except for normal control group,other groups were given guin-ea pig spinal cord homogenate as antigen to produce EAE model,and then given relevant medicine ip since the same day of model-ing,for consecutive 16 d. The neurologic function of mice was scored,and pathological changes of brain and spinal cord were ob-served;the content of IFN-γ,IL-4,CCL3,chemotactic factor CCL5 regulating and activating normal T cell expression and secre-tion were determined. RESULTS:Compared with normal control group,neurological function score and the content of IFN-γ, CCL5 and CCL3 increased,while IL-4 content decreased (P0.05). Above effect depended on drug dose. CONCLUSIONS:Sivelestat sodium can relieve myelinoclasis and inflammatory cell infiltration,and the mechanism may be related to the decrease of IFN-γ content, the increase of IL-4 content,and inhibition of CCL3 and CCL5 expression in peripheral blood.
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Objective To prepare two types of biodegradable modified materials (chitosan and collagen)and evaluate whether the new materials are suitable for tissue engineering cartilage.Methods Collagen and chitosan were both modified by poly-γ-benzyl-L-glutamate-co-glutamine acid (PBLG-co-PGA) with different proportions.The contact angle,degradation rate,tensile strength,cell attachment and cytocompatibility were tested and compared.Results As the PBLG-co-PGA content varied,the degradation rates of PBLG-co-PGA composites became adjustable,the hydrophilicity of PBLG-co-PGA/chitosan was improved,and the tensile strength increased in PBLG-co-PGA/collagen composite.The composites with 30% PBLG-co-PGA were chosen for cytocompatibility and cell attachment experiments.The rabbit condrocytes grew significantly better on PBLG-co-PGA/chitosan than on other three materials(P<0.05).Conclusion PBLG can improve the hydrophilicity,tensile strength and regulate the degradation rate of composite materials,and the cytocompatibility of the composites with 30% of PBLG is good,among which PBLG-co-PGA/chitosan can even promote cell proliferation.It could be a new choice of scaffold for tissue engineering cartilage.
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This is a study on the histologic pattern and mechanical properties of tissue-engineered tendon implanted for treatment of tendon defects. Tendons were resected from Roman chickens. Tendon cells were isolated from the tendons and cultured in vitro. The 2nd-4th passages of tendon cells were seeded on the degradable polyglycolic acid mesh to form cell-scaffold composites, which were further cultured for 7-10 days to construct tissue-engineered tendons. The tendon defects, 0.5 cm-0.8 cm in length, were made in the second digit flexor tendon bilaterally in 20 Roman chickens and then bridged with the constructed tissue-engineered tendons. At 2 weeks, 4 weeks, 6 weeks, and 8 weeks post-operation, the samples of regenerated tendons were collected for gross examination, histologic staining and biomechanical test. After implantation of the tissue-engineered tendons, the wounds healed well. The gross appearance, the cells and collagen fibers arrangement of the regenerated tendons were similar to those of natural tendons, but there were relatively not many closely packed collagen fiber bundles organized in parallel with the tendons ("remodel"), so the maximum tensile force increased slowly and its value was 15.40+/-10.63 N at 8 weeks after surgery, reaching only 23% of that of natural tendon. The maximum strain was 22.49%+/-10.21% at 8 weeks, being 10% higher than that of natural tendons. Polyglycolic acid scaffolds are degraded in vivo so rapidly that the regenerated tendons lose the normal biomechanical stimulus and then are unable to be remodeled. As a result, the mechanical strength of regenerated tendons is much lower than that of natural tendons. These results suggest that the normal biomechanical stimulus may be an important factor for the regenerated tendons to remodel.
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Animals , Female , Animals, Newborn , Biomechanical Phenomena , Methods , Cell Separation , Cells, Cultured , Chickens , Implants, Experimental , Tendon Injuries , General Surgery , Tendons , Cell Biology , Physiology , General Surgery , Tensile Strength , Tissue Engineering , MethodsABSTRACT
Using tissue-engineered tendons to repair tendons and ligaments as well as functional reconstruction is the focus of nowadays researches. The scaffolds must be not only unharmful to health, but also easy for cells attachment, and be able to induce collagen deposition to form a neotendon with mechanic properties similar to those of normal tendon. In recent researches, it has been found that the mechanic properties of the implants change with the degrading and femdonizing of scaffolds. The relationships between collagen deposition, scaffolds degradation and mechanic properties of neotendon need to be defined more clearly.
Subject(s)
Animals , Dogs , Mice , Rats , Biocompatible Materials , Metabolism , Biodegradation, Environmental , Bioprosthesis , Collagen , Metabolism , Sheep , Tendons , Tissue EngineeringABSTRACT
Experiments have been performed to investigate why the biomechanical strength of repaired tendons is lower than that of the normal tendon when the engineered tendons are implanted in vivo to replace the tendon defects. We seeded the primary culture tendon cells derived from Roman chickens' digital flexor tendons on the degradable polyglycolic acid meshes to construct tissue-engineered tendons. The flexor tendon defects (0.5 cm-0.8 cm) excised in second digit bilaterally in 20 Roman chickens, had been repaired with the constructed tissue-engineered tendons. The samples of repaired tendons were collected at 2, 4, 6 and 8 weeks after operation. Tests for scaffold weight, hydroxyproline content, and mechanical strength of the samples were performed. We found that from 2 weeks to 8 weeks afteroperation, the weight of the scaffolds decreased significantly, almost disappearing at 8 weeks; the hydroxyproline content determining the total collagen content increased gradually without significance; mechanically, both energy at break and tensile strength showed a tendency of drastic decrease at first 4 weeks afteroperation and a gradual increase afterwards, but the tensile strength at 8 weeks afteroperation was only 23% of that of the normal tendon. We conclude that the lower biomechanical strength of repaired tendons is owing to the serious mismatch between scaffold degradation and collagen synthesis.