Role of the Peripheral Sympathetic Innervations in Controlling Cerebral Blood Flow after the Transection of Bilateral Superior Cervical Sympathetic Ganglia Two Weeks Later

Background: Cerebral blood vessels are mainly supplied by sympathetic nerves arising from the superior cervical ganglia and cerebral blood volume may be influenced by bilateral superior cervical ganglionectomy (SCG). Various stages of cerebral blood volume changes depended on the time following bilateral excision of SCG. In this study, we emphasize the subacute effect (two weeks) on the local cerebral blood flow (LCBF). Material and Methods: Sprague-Dawley rats weighing 250 ~ 400 gm (n = 20) were selected into two groups. Under the ambient temperature 20oC, the first group animals (n = 10) received sham operation and the other group animals (n = 10) underwent bilateral SCG. The LCBF and O2 delivery of 14 brain struc-tures were measured for each animal by the use of 14C-iodoantipyrine technique two weeks after the opera-tion. Results: The average of LCBF was decreased from 150 ml/100 gm/min to 129 ml/100 gm/min after bi-lateral SCG. Only the LCBF at basal ganglia was increased from 108 ml/min/100 g in the sham-operated group to 118 ml/min/100g in the SCG group. A mean of 14% reduction of LCBF was estimated. In 14 brain structures, the delivery amount of O2 was all decreased, except in basal ganglia. However, these changes of LCBF and the delivery amount of O2 at these 14 brain structures did not reach the significant differences. Conclusions: The present results show that chronic effect (two weeks) of bilateral SCG on LCBF was not only in a decrease of the LCBF, but also a decrease of local cerebral O2 delivery. However, the changes didn’t show the significant differences.

Satellite glial cells in sensory ganglia play a wider role in chronic pain via multiple mechanisms

Satellite glial cells are unique glial cells that surround the cell body of primary sensory neurons.An increasing body of evidence suggests that in the presence of inflammation and nerve damage,a significant number of satellite glial cells become activated,thus triggering a series of functional changes.This suggests that satellite glial cells are closely related to the occurrence of chronic pain.In this review,we first summarize the morphological structure,molecular markers,and physiological functions of satellite glial cells.Then,we clarify the multiple key roles of satellite glial cells in chronic pain,including gap junction hemichannel Cx43,membrane channel Pannexin1,K channel subunit 4.1,ATP,purinergic P2 receptors,and a series of additional factors and their receptors,including tumor necrosis factor,glutamate,endothelin,and bradykinin.Finally,we propose that future research should focus on the specific sorting of satellite glial cells,and identify genomic differences between physiological and pathological conditions.This review provides an important perspective for clarifying mechanisms underlying the peripheral regulation of chronic pain and will facilitate the formulation of new treatment plans for chronic pain.

Gut region-specific TNFR expression:TNFR2 is more affected than TNFR1 in duodenal myenteric ganglia of diabetic rats

BACKGROUND Cytokines are essential in autoimmune inflammatory processes that accompany type 1 diabetes.Tumor necrosis factor alpha plays a key role among others in modulating enteric neuroinflammation,however,it has a dual role in cell degeneration or survival depending on different TNFRs.In general,TNFR1 is believed to trigger apoptosis,while TNFR2 promotes cell regeneration.The importance of the neuronal microenvironment has been recently highlighted in gut region-specific diabetic enteric neuropathy,however,the expression and alterations of different TNFRs in the gastrointestinal tract has not been reported.AIM To investigate the TNFR1 and TNFR2 expression in myenteric ganglia and their environment in different intestinal segments of diabetic rats.METHODS Ten weeks after the onset of hyperglycemia,gut segments were taken from the duodenum,ileum and colon of streptozotocin-induced(60 mg/body weight kg i.p.)diabetic(n=17),insulin-treated diabetic(n=15)and sex-and age-matched control(n=15)rats.Myenteric plexus whole-mount preparations were prepared from different gut regions for TNFR1/HuCD or TNFR2/HuCD double-labeling fluorescent immunohistochemistry.TNFR1 and TNFR2 expression was evaluated by post-embedding immunogold electron microscopy on ultrathin sections of myenteric ganglia.TNFRs levels were measured by enzyme-linked immunosorbent assay in muscle/myenteric plexus-containing(MUSCLE-MP)tissue homogenates from different gut segments and experimental conditions.RESULTS A distinct region-dependent TNFRs expression was detected in controls.The density of TNFR1-labeling gold particles was lowest,while TNFR2 density was highest in duodenal ganglia and a decreased TNFRs expression from proximal to distal segments was observed in MUSCLE-MP homogenates.In diabetics,the TNFR2 density was only significantly altered in the duodenum with decrease in the ganglia(0.32±0.02 vs 0.45±0.04,P<0.05),while no significant changes in TNFR1 density was observed.In diabetic MUSCLE-MP homogenates,both TNFRs levels significantly decreased in the duodenum(TNFR1:4.06±0.65 vs 20.32±3.1,P<0.001;TNFR2:11.72±0.39 vs 15.91±1.04,P<0.01),which markedly influenced the TNFR2/TNFR1 proportion in both the ganglia and their muscular environment.Insulin treatment had controversial effects on TNFR expression.CONCLUSION Our findings show diabetes-related region-dependent changes in TNFR expression and suggest that TNFR2 is more affected than TNFR1 in myenteric ganglia in the duodenum of type 1 diabetic rats.

The effects of hyperbaric oxygen therapy on paroxysmal sympathetic hyperactivity after cardiopulmonary resuscitation: a case series

The onset of cardiac arrest (CA) is sudden and critical.Due to cerebral ischaemia and hypoxia, the prognosis for post-cardiopulmonary resuscitation (CPR) patients is poor. Paroxysmal sympathetic hyperexcitability (PSH) is a potentially life-threatening condition, which is characterized by episodes of increased heart rate and blood pressure,sweating, hypothermia, and forced posture.[1] Hypoxicischaemic encephalopathy post-CPR can lead to PSH,which often indicates a worse prognosis.

Investigation of spatial structure and sympathetic cooling in the^(9)Be^(+)–^(40)Ca^(+)bi-component Coulomb crystals

We study the spatial structure and sympathetic cooling of the bi-component Coulomb crystal(CC),which consists of approximate 450^(9)Be^(+)ions and 450^(40)Ca^(+)ions with a mass ratio of 0.225 in a segmented linear ion trap.By twodimensional imaging of the bi-component CC,the^(9)Be^(+)ions are found to be surrounded by the^(40)Ca^(+)ions in the radial direction with a separation ratio of~2.0,and the axial length of the^(9)Be^(+)ions occupied area is much larger than that of the^(40)Ca^(+)ions occupied area.Combined with the previous experimental results,the structure of the^(9)Be^(+)–^(40)Ca^(+)CC shows the larger the difference in the mass–charge ratio,the larger the separation between the two species.The comparison of the fluorescence spectra of the^(9)Be^(+)ions in the bi-component CC and the pure CC indicates that the^(9)Be^(+)ions can be sympathetically cooled and stably localized by the laser-cooled^(40)Ca^(+)ions during the recording of the fluorescence spectrum.

Brachial arteries sympathetic innervation: A contribution to anatomical knowledge

BACKGROUND The sympathetic nervous system makes medium and large peripheral arteries smaller to slow the blood flowing through them.AIM To observe brachial artery sympathetic innervation.METHODS We developed a neurophysiological autonomous test that measured the effects of peripheral sympathetic fibres on peripheral arteries.Our specific objective was to find the sympathetic innervation of the brachial artery.To accomplish this purpose,the brachial artery baseline diameter and flow rate were measured in the right arm of the patients.Afterwards,electrical stimulus was applied to the medial nerve for 5 s.Through electrical sympathetic activation,the vessel diameter and overall flow rate will decrease.After 7 d,a similar experiment was repeated using the ulnar nerve.RESULTS The differences in diameter and flow rate of the brachial artery in response to median and ulnar nerve activation were compared.In the total group,no significant difference in diameter was seen between medial and ulnar nerve stimulation(P=0.648).The difference in absolute slowdown of flow rate between median nerve stimulation and ulnar nerve stimulation was not statistically significant for the entire group(P=0.733).CONCLUSION As a target organ,the brachial artery receives an equal amount of sympathetic innervation from the median and the ulnar nerves.

Genetically engineered systems revealed the roles of basal ganglia in sleep-wake regulation

The basal ganglia(BG) act as a cohesive functional unit that regulates motor function,habit formation,and reward/addictive behaviors. However,it is still not well understood how the BG maintains wakefulness and suppresses sleep to achieve al these fundamental functions until genetical y engineered systems developed these years. Significant research efforts have recently been directed at developing genetic-molecular tools to achieve reversible and cell-type specific in vivo silencing or activation of neurons in behaving animals. Optogenetic tools can be used both to specifically activate or inhibit neurons of interest and identify functional synaptic connectivity between specific neuronal populations,both in vivo and in brain slices. Another recently developed system by Roth and colleagues permits the selective and ″remote″ manipulation(activation and silencing) of neuronal activity via all 3 major GPCR signaling pathways(G_i,G_s and G_q). These so-called ″ designer receptors exclusively activated by designer drugs″(DREADD) involve mutant GPCRs that do not respond to their endogenous ligands but are responsive to otherwise inert biological compounds. Recently,we demonstrated the essential roles and the neural pathways of the neurons expressing adenosine A_(2A) receptors or dopamine D_1 receptors in the BG for sleep-wake regulation using the genetically engineered systems including optogenetics and DREADD. We proposed a plausible model in which the caudate-putamen and the nucleus accumbens integrates behavioral processes with sleep/wakefulness through adenosine and dopamine receptors.

Emergence of lesions outside of the basal ganglia and irreversible damage to the basal ganglia with severeβ-ketothiolase deficiency:A case report

BACKGROUNDβ-ketothiolase deficiency(β-KTD)is an inherited disease,and insufficient attention has been paid to imageology due to its lower morbidity.Therefore,few lesions outside the basal ganglia have been found before,and the persistent pathological changes have rarely been reported.CASE SUMMARY A 10-mo-old Chinese female patient with a free previous medical history but with poor physical and athletic development had received the haemophilus influenzae vaccine and then developed a low fever 2 d prior.She was initially diagnosed with severe brain injury,central respiratory failure,metabolic acidosis complicated with respiratory alkalosis,hyper-IgE,etc.With further examination,a definite diagnosis ofβ-KTD was made.Symptomatic treatment was adopted.Ten days later,the dyspnea was improved evidently and the ventilator was removed,but there were still obvious abnormalities on magnetic resonance imaging(MRI).The lesions mainly invaded the corpus striatum but were not limited to the basal ganglia.Then,the patient’s disease improved and discharged approximately 1 mo later,and the abnormal lesions on MRI had partially improved.However,for about 1 year,the residual irreversible lesions were observed on MRI,the mental and physical development of the patient was obviously regressive,and extra rehabilitation training was needed.CONCLUSION The case highlights the critical importance of one view that the range of lesions in some patients may be more extensive than previously thought in someβ-KTD patients.In addition to biochemical tests,genetic tests and magnetic resonance imaging are not only conducive to quickly diagnosingβ-KTD but also to partially evaluating the short-and long-term outcomes.Moreover,more attention should be paid to the two mutations(c.478 C>G;c.951 C>T)that may be associated with severeβ-KTD.

基于Ganglia与MDS结合的网格监控体系研究

资源监控可以为使用者提供网格环境中与资源相关的性能数据,同时也可以为作业调度提供必要的资源信息支持。Ganglia可以监控基于集群的广域系统中的节点(处理器集)的状态,MDS可以用来监控和发现网格资源和服务,本文通过对Ganglia与MDS的结合进行研究,提出了一个功能强大且严密的网格资源和作业监控体系,同时将该监控体系加入到校园计算网格平台中。

Relationship between abnormal vagus nerve tension and basal ganglia cerebral infarction induced paroxysmal atrial fibrillation

Objective: To investigate the relationship between basal ganglia cerebral infarction and paroxysmal atrial fibrillation(PAF) caused by abnormal vagus nerve tension.Methods: A total of 1 483 cases of elder patients with cerebral infarction who received head CT or MRI examination during the period were enrolled, including 830 male and613 female, with the average age as 78 years. These cases were divided into basal infarction ganglia group(n = 1 045) and non-basal ganglia infarction group(n = 438)according to the anatomic site of cerebral infarction. The differences of the incidence of PAF, left atrial diameter and heart rate variability were compared between the two groups.Results: In basal ganglia infarction group, the incidence rate of PAF was significantly higher than that of non-basal ganglia infarction group(P < 0.05). The incidence trend of cerebral infarction in basal ganglia was age-related, in the >79 years basal ganglia cerebral infarction group, the incidence of PAF was significantly higher than that of nonbasal ganglia infarction group(P < 0.05). There was no significant difference in the left atrial diameter between the basal ganglia infarction group and non-basal ganglia infarction group. Basal ganglia cerebral infarction patients with high PAF had higher heart rate variability than non-basal ganglia infarction group.Conclusion: Elderly patients with basal ganglia infarction have high incidence of PAF.Sympathetic nerve damage in cerebral basal ganglia, increased vagal tension and cardiac vagal tension are the direct causes of PAF. The results indicates that the increased central vagal nerve tension mediated PAF probably is an indication of supplying sympathetic neurotransmitter or cardiac vagal denervation treatment.

Alteration of P2X3 expression in dorsal root ganglia after sciatic nerve ligation

BACKGROUND： The expressions of P2X3 receptor in dorsal root ganglia （DRG） after different peripheral nerve injuries are diverse. It indicates the different roles of P2X3 in different models-caused neuropathologic pains. OBJECTIVE： To observe the expressions of P2X3 in corresponding DRG after sciatic nerve ligation in rots. DESIGN： Controlled observation experiment. SETTING： Department of Morphology, Hunan Traditional Chinese Medical College; Department of Human Anatomy and Neurobiology, Xiangya Medical College, Central South University. MATERIALS： Thirty-five healthy adult SD rots of clean grade an d either gender, weighing （ 200 ± 20 ） g, were involved. According to the random digits table, the involved rats were randomized into 3 groups： normal group （n =5）, sham-operated group （n =5） and experimental group （n =25）. The experimental group were subdivided into 3, 7, 14, 21, 28 days groups according to different surviving time after operation, 5 rots at each time point. Polyclonal rabbit anti-P2X3 antibody （ABCAM company）; biotinylated goat anti-rabbit IgG （Zhongshanjingqiao Biotechnical Co., Ltd., Beijing）; Motic fluorescence microscope （Motic, Germany）. METHODS： The experiments were carried out in the Department of Human Anatomy and Neurobiology, Xiangya Medical College, Central South University from June to December 2006. ① Rats of experimental group were created into models by ligation of right sciatic nerve according to the method of Seltzer et al. Left sciatic nerve was used as self-control. As for rats in the sham-operated group, ligation of sciatic nerve was omitted, but other procedures were the same as those in the experimental group. Rats of normal group were untouched, ② Rats of the normal group and sham-operated group survived for 14 days separately, and those of experimental group survived for corresponding time. After being deeply anesthetized by intraperitoneal injection of over-dose sodium pentobarbital, the rots of experimental group were transcardially perfused. L4- 6 corresponding DRG connected to sciatic nerve were taken for preparing transverse sections serially. ③P2X3 expression in L4-6 DRG was detected by immunohistochemistry, immunofluorescence and image analysis techniques. MAIN OUTCOME MEASURES： P2X3 expression in L4-6 DRG of rots in each group. RESULTS： Thirty-five SD rats were involved in the final analysis. ① P2X3 expression in DRG： In normal DRG of rots, there were abundant P2X3 immuno-positive small- and medium-sized primary sensory neurons, especially the small ones, which mostly received the input from C fibers. There were only a few large neurons expressing P2X3. The immuno-positive products mostly were located in the cytoplasm and processes. The expression of P2X3 had a slight but significant decrease in ipsilateml L4-6 DRG 3 days after sciatic nerve ligation, and a decreasing tendency was observed with the elongation of time. At 28 days, the expression had not returned to base line, and still maintained at a low level. ② P2X3 immuno-positive gray scale in DRG： P2X3 immuno-positive gray scale in ipsilateral side L4-6 DRG was 117.74±2.38, 129.12± 4.86, 133.56±3.79, 148.75±6.90 and 150.49±5.15, respectively at 3,7,14, 21 and 28 days after sciatic nerve ligation, which was significantly higher than that in the normal group and sham-operated group （ 105.11 ±3.52, 104.22 ± 5.41, F =78.861, P 〈 0.05 ） , also significantly higher than that in the contralateral side （105.53±5.85, 108.54±3.70, 104.07±4.16, 106.55±2.02, 106.29±5.19, t=3.48- 13.95, P〈 0.05 ） ; There were no significant differences when comparing sham-operated group or contralateral side at each time point with normal group （P 〉 0.05） CONCLUSION： P2X3 is significantly down regulated in L4-6 DRG after sciatic nerve ligation. It may exert certain effects in neuropathic pain.

Neuroanatomy and clinical analysis of the cervical sympathetic trunk and longus colli

Anterior cervical surgery is commonly used for cervical vertebral body lesions. However, the structure of blood vessels and nerve tissues along the route of anterior cervical surgery is complex. We aimed to measure the data of the longus colli, the sympathetic trunk and the cervical sympathetic trunk （CST） ganglia in Chinese cadaver speci- mens. A total of 32 adult cadavers were studied. We delineated the surgical anatomy of the CST. The superior and inferior/cervicothoracic ganglia of the sympathetic trunk consistently appeared. The middle ganglion was observed in 28.1% of the specimens and there were 2 cases of unilateral double middle cervical ganglia. The inferior ganglion was observed in 25.0% of the specimens and the cervicothoracic ganglion was observed in the remaining speci- mens. The distance between the CST gradually decreased from the top to the bottom, and the distance between the medial edges of the longus colli gradually broadened from the top down. The average angle between the bilat- eral CST and the midline of the vertebra was 11.2°± 1.8° on the left side and 10.3°± 1.4° on the right side. The average angle between the medial margins of longus colli of both sides was 11.1°± 1.9°. The CST is at high risk when LC muscle is cut transversely or is dragged heavily, especially at the levels of C6 and C7. Awareness of the regional anatomy of the CST could help surgeons to identify and preserve it during anterior cervical surgeries.

Resuscitating acupuncture therapy for glucose metabolism in acute cerebral infarction of basal ganglia

BACKGROUND： Acupuncture can improve motor function in patients with cerebral infarction, and activate brain glucose metabolism in relevant brain areas. However, the association between encephalic region activation and acupuncture, as well as the clinical significance of activation remain unclear. OBJECTIVE： Through the use of positron emission tomography-computed tomography （PET-CT）, acute cerebral infarction patients were analyzed for global cerebral metabolism, cerebral infarction focus, peripheral edema, and pyramidal tract pathway changes, which were directly related to clinical symptoms. The influence of resuscitating acupuncture on cerebral glucose metabolism was analyzed in patients with acute cerebral infarction in basal ganglia. DESIGN, TIME AND SETTNG： Randomized, controlled, clinical trials were performed from March 2007 to October 2008 at the PET-CT Center of the General Hospital of Tianjin Medical University, China. PARTICIPANTS： Twelve patients with acute basal ganglia infarction were recruited from the First Affiliated Hospital of Tianjin University of Traditional Chinese Medicine, the Second Affiliated Hospital of Tianjin University of Traditional Chinese Medicine, Tianjin Chinese Medicine Hospital, and Affiliated Hospital of Medical College of Chinese People＇s Armed Police Force. METHODS： The cerebral infarcted patients were randomly assigned to acupuncture and control groups. In addition to routine treatment, the acupuncture group was treated by acupuncture at the main acupoints for resuscitation [Neiguan （PC 6）, Renzhong （DU 26）, and Sanyinjiao （SP 6）], while the control group received routine treatment. MAIN OUTCOME MEASURES： Before and after treatment, patients with acute cerebral infarction were evaluated for global brain, cerebral infarction focus, and surrounding edema and glucose metabolism in encephalic region of pyramidal tract conduction by 18-labeled fluorodeoxyglucose for PET-CT imaging. RESULTS： The resuscitating acupuncture therapy can significantly activate the metabolism of global brain, infarction center and surrounding edema in patients with cerebral infarction in basal ganglia, also has effects on the activation of glucose metabolism in the encephalic regions of pyramidal tract pathway （P 〈 0.05）. CONCLUSION： Resuscitating acupuncture was superior to routine treatment for significantly activating glucose metabolism in patients with acute cerebral basal ganglia infarction.

Gene expression changes in dorsal root ganglia following peripheral nerve injury: roles in inflammation,cell death and nociception

Subsequent to a peripheral nerve injury, there are changes in gene expression within the dorsal root ganglia in response to the damage. This review selects factors which are well-known to be vital for inflammation, cell death and nociception, and highlights how alterations in their gene expression within the dorsal root ganglia can affect functional recovery. The majority of studies used polymerase chain reaction within animal models to analyse the dynamic changes following peripheral nerve injuries. This review aims to highlight the factors at the gene expression level that impede functional recovery and are hence are potential targets for therapeutic approaches. Where possible the experimental model, specific time-points and cellular location of expression levels are reported.

Co-expression of estrogen receptor and nerve growth factor in rat intrinsic cardiac ganglia

BACKGROUND： Previous studies have shown that neurons expressing estrogen receptor and nerve growth factor exist in the intrinsic cardiac ganglia in rats. However, it remains to be shown whether estrogen receptor and nerve growth factor are co-expressed within these cells. OBJECTIVE： To determine whether estrogen receptor and nerve growth factor are co-expressed in intrinsic cardiac ganglia. DESIGN, TIME AND SETTING： This cellular morphology observational study was performed at the immunohistochemistry Department, Medicine School, Wuhan University of Science and Technology, between March and July in 2007. MATERIALS： Mouse anti-estrogen receptor and rabbit anti-nerve growth factor polyclonal antibody, biotinylated goat anti-mouse IgG, and biotinylated goat anti-rabbit IgG were provided by Wuhan Boster, China. METHODS： Ten healthy, Wistar rats were included in the present study. Ten sections of intrinsic cardiac ganglia from the atrial posterior wall were randomly selected from each rat to perform estrogen receptor and nerve growth factor double-labeling immunohistochemical staining. MAIN OUTCOME MEASURES： Expression of estrogen receptor and nerve growth factor in intrinsic cardiac ganglia of rats. RESULTS： Immunohistochemistry results demonstrated expression of estrogen receptor and nerve growth factor in rat intrinsic cardiac ganglia, and double-labeling revealed co-expression of estrogen receptor and nerve growth factor in intrinsic cardiac ganglial cells. CONCLUSION： Estrogen receptor and nerve growth factor were shown to be co-expressed in rat intrinsic cardiac ganglial cells.

Biological characteristics of dynamic expression of nerve regeneration related growth factors in dorsal root ganglia after peripheral nerve injury

The regenerative capacity of peripheral nerves is limited after nerve injury.A number of growth factors modulate many cellular behaviors,such as proliferation and migration,and may contribute to nerve repair and regeneration.Our previous study observed the dynamic changes of genes in L4–6 dorsal root ganglion after rat sciatic nerve crush using transcriptome sequencing.Our current study focused on upstream growth factors and found that a total of 19 upstream growth factors were dysregulated in dorsal root ganglions at 3,9 hours,1,4,or 7 days after nerve crush,compared with the 0 hour control.Thirty-six rat models of sciatic nerve crush injury were prepared as described previously.Then,they were divided into six groups to measure the expression changes of representative genes at 0,3,9 hours,1,4 or 7 days post crush.Our current study measured the expression levels of representative upstream growth factors,including nerve growth factor,brain-derived neurotrophic factor,fibroblast growth factor 2 and amphiregulin genes,and explored critical signaling pathways and biological process through bioinformatic analysis.Our data revealed that many of these dysregulated upstream growth factors,including nerve growth factor,brain-derived neurotrophic factor,fibroblast growth factor 2 and amphiregulin,participated in tissue remodeling and axon growth-related biological processes Therefore,the experiment described the expression pattern of upstream growth factors in the dorsal root ganglia after peripheral nerve injury.Bioinformatic analysis revealed growth factors that may promote repair and regeneration of damaged peripheral nerves.All animal surgery procedures were performed in accordance with Institutional Animal Care Guidelines of Nantong University and ethically approved by the Administration Committee of Experimental Animals,China(approval No.20170302-017)on March 2,2017.

Differential expression of microRNAs in dorsal root ganglia after sciatic nerve injury

This study investigated the possible involvement of microRNAs in the regulation of genes that participate in peripheral neural regeneration. A microRNA microarray analysis was conducted and 23 microRNAs were identiifed whose expression was signiifcantly changed in rat dorsal root ganglia after sciatic nerve transection. The expression of one of the downregulated microRNAs, microRNA-214, was validated using quantitative reverse transcriptase-PCR. MicroRNA-214 was predicted to target the 3′-untranslated region of Slit-Robo GTPase-activating protein 3. In situ hybridization veriifed that microRNA-214 was located in the cytoplasm of dorsal root ganglia primary neurons and was downregulated following sciatic nerve transection. Moreover, a com-bination of in situ hybridization and immunohistochemistry revealed that microRNA-214 and Slit-Robo GTPase-activating protein 3 were co-localized in dorsal root ganglion primary neu-rons. Western blot analysis suggested that Slit-Robo GTPase-activating protein 3 was upregulated in dorsal root ganglion neurons after sciatic nerve transection. These data demonstrate that mi-croRNA-214 is located and differentially expressed in dorsal root ganglion primary neurons and may participate in regulating the gene expression of Slit-Robo GTPase-activating protein 3 after sciatic nerve transection.

Effects of transection of cervical sympathetic trunk on cerebral infarct volume and oxygen free radical levels in rats with focal cerebral ischemia/reperfusion injury

BACKGROUND： Stellate ganglion block （SGB） plays a protective role on the brain, but the precise mechanism of action is not clear. OBJECTIVE： To simulate SGB by transection of the cervical sympathetic trunk （TCST） and to investigate the TCST effects on changes in cerebral infarct volume and oxygen free radical levels in rats with focal cerebral ischemia/reperfusion injury. DESIGN, TIME AND SETTING： A complete randomized control animal experiment was performed at the Institute of Neurological Diseases of Taihe Hospital, Yunyang Medical College from February to December 2005. MATERIALS： A total of 101 healthy Wistar rats, weighing 280-320 g, of both genders, aged 17-18 weeks, were used in this study. 2, 3, 5-triphenyltetrazolium chloride （TTC） was purchased from Changsha Hongyuan Biological Company. Superoxide dismutase （SOD）, malondialdehyde （MDA） and nitric oxide （NO） assay kits were provided by Nanjing Jiancheng Bioengineering Institute. METHODS： Rats were randomly divided into a TCST group, a model group and a sham operation group. Successful models were included in the final analysis, with at least 20 rats in each group. After TCST, rat models of focal cerebral ischemia/reperfusion injury were established in the TCST group by receiving middle cerebral artery occlusion （MCAO） by the intraluminal suture method for 2 hours, followed by 24 hours of reperfusion. Rat models of focal cerebral ischemia/reperfusion injury were made in the model group. Rats in the sham operation group underwent experimental procedures as for the model group, threading depth of 10 mm, and middle cerebral artery was not ligated. MAIN OUTCOME MEASURES： Brain tissue sections of ten rats from each group were used to measure cerebral infarct volume by TTC staining. Brain tissue homogenate of another ten rats from each group was used to detect SOD activities, MDA contents and NO levels. Rat neurological function was assessed by neurobehavioral measures. RESULTS： Cerebral infarct volume was bigger in the model group than in the TCST group （P 〈 0.05）. Twenty four hours after cerebral ischemia/reperfusion, SOD activities were lower, whereas MDA contents and NO levels were higher in the TCST and model groups, compared with the sham operation group （P 〈 0.05 or P 〈 0.01）. Compared with the model group, SOD activities were higher, whereas MDA contents and NO levels were lower in the TCST group （P 〈 0.05）. CONCLUSION： After TCST, cerebral infarct volume is reduced, SOD activities are increased, and MDA contents and NO levels are decreased compared to the model group in rats with focal cerebral ischemia/reperfusion injury. These changes may be associated with TCST.

Reactive oxygen species in paraventricular nucleus involved in cardiac sympathetic afferent reflex in rats

Objective： The present study was designed to determine if reactive oxygen species （ROS） in the paraventricular nucleus （PVN） were involved in modulating cardiac sympathetic afferent reflex （CSAR） in anesthetized rats. Methods： Malondialdehyde （MDA）, the end product of lipid peroxidation, in the PVN, was determined by thiobarbituric acid （TBA） spectrometric method. Renal sympathetic nerve activity （RSNA） and arterial pressure were recorded in sinoaortic-denervated and cervical-vagotomized rats. The CSAR was evaluated by the response of the RSNA evoked by epicardial application of bradykinin （BK, 0.4 9g）. Results： The MDA in the PVN was significantly increased after epicardial application of BK compared with control （2.0 ±0.3 vs 0.8 ±0.1 nmol/mg protein, P 〈 0.01）. Microinjection of a superoxide anion scavenger, tiron （20 nmol） into the PVN significantly inhibited the CSAR evoked by BK （12.3±1.9 vs4.2± 1.2%, P 〈0.01） and decreased MDA level （1.9±0.3 vs 0.6 ±0.1 nmol/mg protein, P 〈0.01） compared with control. Conclusion： The ROS in the PVN is involved in modulating the CSAR in rats.

Na_v1.7 protein and mRNA expression in the dorsal root ganglia of rats with chronic neuropathic pain

Neuropathic pain was produced by chronic constriction injury of the sciatic nerve in rats. Behaviora tests showed that the thresholds for thermal and mechanical hyperalgesia were significantly reduced in neuropathic pain rats 3 28 days following model induction. The results of immunohistochemistry, western blot assays and reverse transcription-PCR showed that Nay1.7 protein and mRNA expression was significantly increased in the injured dorsal root ganglia. These findings indicated that Nay1.7 might play an important role in the model of chronic neuropathic pain