Central Brain Herniation Secondary to Influenza-Related Encephalopathy in a Pontocerebellar Hypoplasia Child: A Case Report and Review

Influenza-associated encephalopathy (IAE) can perform as varying patterns of neuroimaging. Central brain herniation (CBH) secondary to IAE is rare;it may be a bad prognosis. Here, we presented a 4-year-old girl with influenza who had a pontocerebellar hypoplasia (PCH) history;she performed the second Magnetic Resonance Imaging (MRI) on Day 6 from onset, showed the diffuse edema and the occurrence of central herniation;the medulla was “Z-like” folded and the basal cisterns were obliterated completely. Finally she was declared dead. The imbalance between supratentorial and infratentorial pressure can lead to the occurrence of CBH. Severe edema relates to IAE and unstable structure of the posterior fossa might be the main reason for the herniation. MRI is helpful in early diagnosis. Early treatment of cerebral edema in patients with congenital abnormalities of the posterior fossa is vital for their management.

Regeneration of the central nervous system-principles from brain regeneration in adult zebrafish

Poor recovery of neuronal functions is one of the most common healthcare challenges for patients with different types of brain injuries and/or neurodegenerative diseases.Therapeutic interventions face two major challenges:(1)How to generate neurons de novo to replenish the neuronal loss caused by injuries or neurodegeneration(restorative neurogenesis)and(2)How to prevent or limit the secondary tissue damage caused by long-term accumulation of glial cells,including microglia,at injury site(glial scar).In contrast to mammals,zebrafish have extensive regenerative capacity in numerous vital organs,including the brain,thus making them a valuable model to improve the existing therapeutic approaches for human brain repair.In response to injuries to the central nervous system(CNS),zebrafish have developed specific mechanisms to promote the recovery of the lost tissue architecture and functionality of the damaged CNS.These mechanisms include the activation of a restorative neurogenic program in a specific set of glial cells(ependymoglia)and the resolution of both the glial scar and inflammation,thus enabling proper neuronal specification and survival.In this review,we discuss the cellular and molecular mechanisms underlying the regenerative ability in the adult zebrafish brain and conclude with the potential applicability of these mechanisms in repair of the mammalian CNS.

Bromocriptine in Central Hyperthermia after Severe Traumatic Brain Injury

Strong evidence showed that fever after traumatic brain injury TBI is associated with increased mortality. In this study, we tried to evaluate the role of Bromocriptine in central hyperthermia in patients with severe TBI. This prospective controlled study was conducted on 50 severe TBI patients who admitted to the critical care department and confirmed on Computed Tomography (CT) of the brain and GCS of less than 9 at admission. Then, they were randomly assigned into 2 groups. Bromocriptine group (25) received bromocriptine 7.5 mg/day during 24 hours from admission through a naso-gastric (NG) feeding tube. Control group (25) received conventional treatment only. Temperature was measured every 2 hours. The antipyretic measures used were the same across all patients enrolled. The primary outcome was number of patients diagnosed with central hyperthermia. After the discharge of all patients, there was a statistically significant difference between the 2 groups in number of patients diagnosed with central hyperthermia (6 (24%) in bromocriptine group Vs 18 (72%) in control, p = 0.002). There were no differences in hospital length of stay (p = 0.904) or mortality (p = 0.393). Early administration of bromocriptine in severe TBI may be associated with lower incidence of central hyperthermia with no effect on length of stay or mortality.

Biological characteristics of brain natriuretic peptide and its association with central nervous system diseases

OBJECTIVE： To explain the mechanisms of tuhe synthesis, secretion and regulation of brain natriuretic peptide （BNP）, and analyze its role in central nervous system diseases. DATA SOURCES： An online search of Pubmed was undertaken to identify articles related to BNP published in English from January 1990 to February 2007 by using the key words of ＂brain natriuretic pepfide （BNP）, central nervous system, subarachnoid hemorrhage （SAH）, brain edema, epilepsy＂. Other articles were searched in China Hospital Knowledge Database （CHKD） by concrete name of journals and title of articles. STUDY SELECTION： The collected articles were primarily screened, those about BNP and its association with central nervous system diseases were selected, whereas the obviously irrelative ones excluded, and the full-texts of the other literatures were searched manually. DATA EXTRACTION： Totally 96 articles were collected, 40 of them were enrolled, and the other 56 were excluded due to repetitive studies or reviews. DATA SYNTHESIS： At present, there are penetrating studies on BNP in the preclinical medicine and clinical medicine of cerebrovascular and cardiovascular diseases, and the investigative outcomes have been gradually applied in clinical practice, and satisfactory results have been obtained. However, the application of BNP in diagnosing and treating central nervous system diseases is still at the experimental phase without - outstanding outcomes, thus the preclinical and clinical studies should be enhanced. CONCLUSION： As a kind of central medium or modulator, BNP plays a certain role in the occurrence, development and termination of central nervous system diseases, the BNP level in serum has certain changing law in SAH, brain edema, epilepsy, etc., but the specific mechanisms are unclear.

滞动针干预“激痛点”对肌筋膜疼痛综合征模型大鼠中枢镇痛的作用机制

背景:滞动针治疗肌筋膜疼痛综合征的镇痛效果显著,但镇痛机制尚不明确。目的:探索滞动针干预激痛点缓解肌筋膜疼痛综合征疼痛的作用机制。方法:按照随机数字表法将54只SD大鼠随机分为空白组(n=16)和造模组(n=38),造模组采用“打击结合离心运动”方式制备左侧股内侧肌筋膜疼痛综合征模型,造模12周后随机挑选6只验证造模成功,将剩余32只造模大鼠随机分为模型组(n=16)与滞动针组(n=16),使用滞动针对滞动针组大鼠左侧股内侧肌局部激痛点进行干预治疗,2次/周,治疗4周。造模前后及治疗后进行左足机械缩足阈值测定;治疗后第4周,苏木精-伊红染色观察大鼠左侧股内侧肌肌肉组织形态学变化,ELISA法检测血清和中脑导水管周围灰质中P物质、β-内啡肽水平,免疫组化检测中脑导水管周围灰质中小胶质细胞标志物(Iba-1)和c-fos阳性表达,Western Blot检测中脑导水管周围灰质脑源性神经营养因子蛋白表达。结果与结论:①与空白组比较,造模后模型组、滞动针组大鼠机械缩足阈值降低(P<0.05);治疗4周后,滞动针组大鼠机械缩足阈值高于模型组(P<0.05);②苏木精-伊红染色结果显示,模型组肌纤维排列紊乱、粗细不等,肌细胞增大并出现核内移现象,细胞内出现圆形挛缩结节以及紧张带;滞动针组肌纤维排列整齐,肌细胞多呈角状,细胞内偶见挛缩结节;③与空白组比较,模型组血清中P物质水平升高(P<0.05),血清中β-内啡肽及脑中P物质、β-内啡肽水平均降低(P<0.05);与模型组比较,滞动针组血清中P物质水平降低(P<0.05),血清中β-内啡肽及脑中P物质、β-内啡肽水平均升高(P<0.05);④与空白组比较,模型组c-fos、Iba-1阳性表达及脑源性神经营养因子蛋白均升高(P<0.05);与模型组比较,滞动针组c-fos阳性表达升高(P<0.05),Iba-1阳性表达及脑源性神经营养因子蛋白均降低(P<0.05);(5)结果表明,滞动针可能通过抑制中脑导水管周围灰质小胶质细胞的活性、下调脑源性神经营养因子蛋白表达间接促进小胶质细胞向M2表型极化释放β-内啡肽、增加c-fos神经元兴奋性,从而降低中枢致敏程度,有效缓解肌筋膜疼痛综合征疼痛的症状。

脑衰老与外泌体研究进程及现状的文献计量学分析

背景:近年来随着生物医学的快速发展,脑衰老和外泌体的研究受到越来越多的关注,但目前还没有文献对该领域进行文献计量学分析。目的:客观分析近15年国内外关于脑衰老和外泌体的相关文献,总结梳理该领域的研究现状、热点和发展趋势。方法:以Web of Science的核心数据库为检索平台,下载了从建库至2022-12-28发表的有关脑衰老和外泌体的文献,使用CiteSpace 6.1.R6可视化软件从国家、机构、作者、关键词、共被引文献等方面对数据进行分析。结果与结论:共纳入1045篇研究文献,国内外关于脑衰老和外泌体研究的发文量呈逐年增长趋势,美国以发文量429篇居于首位,中国以发文量277篇位居第二。美国路易斯安那州立大学以发文量16篇位居第一。路易斯安那州立大学的Lukiw,Walter J教授是发文量最大的作者,麻省理工学院Bartel DP教授是被引用最多的作者。产量最高的期刊是《International Journal of Molecular Sciences》。阿尔茨海默病、microRNA、基因表达、细胞外囊泡、外泌体、氧化应激和生物标志物等是最相关的术语。根据对热门话题的研究,生物标志物已成为一个新的研究热点。以上结果表明,近15年来脑衰老和外泌体的研究呈逐渐上升趋势,研究方向由最初探究与脑衰老相关的中枢神经系统疾病miRNA的表达,已逐渐转向为寻找能成为识别和诊断神经退行性疾病的生物标志物,基于外泌体miRNA的方法已经成为中枢神经系统疾病有希望的治疗策略。

Cloud-Assisted Distributed Edge Brains for Multi-Cell Joint Beamforming Optimization for 6G

In 5G networks,optimization of antenna beam weights of base stations has become the key application of AI for network optimization.For 6G,higher frequency bands and much denser cells are expected,and the importance of automatic and accurate beamforming assisted by AI will become more prominent.In existing network,servers are“patched”to network equipment to act as a centralized brain for model training and inference leading to high transmission overhead,large inference latency and potential risks of data security.Decentralized architectures have been proposed to achieve flexible parameter configuration and fast local response,but it is inefficient in collecting and sharing global information among base stations.In this paper,we propose a novel solution based on a collaborative cloud edge architecture for multi-cell joint beamforming optimization.We analyze the performance and costs of the proposed solution with two other architectural solutions by simulation.Compared with the centralized solution,our solution improves prediction accuracy by 24.66%,and reduces storage cost by 83.82%.Compared with the decentralized solution,our solution improves prediction accuracy by 68.26%,and improves coverage performance by 0.4 dB.At last,the future research work is prospected.

Connexin:a potential novel target for protecting the central nervous system?

Connexin subunits are proteins that form gap junction channels, and play an important role in communication between adjacent cells. This review article discusses the function of connexins/hemichannels/gap junctions under physiological conditions, and summarizes the findings re-garding the role of connexins/hemichannels/gap junctions in the physiological and pathological mechanisms underlying central nervous system diseases such as brain ischemia, traumatic brain and spinal cord injury, epilepsy, brain and spinal cord tumor, migraine, neuroautoimmune disease, Alzheimer’s disease, Parkinson’s disease, X-linked Charcot-Marie-Tooth disease, Peli-zaeus-Merzbacher-like disease, spastic paraplegia and maxillofacial dysplasia. Connexins are considered to be a potential novel target for protecting the central nervous system.

Auditory deprivation modifies the expression of brain-derived neurotrophic factor and tropomyosin receptor kinase B in the rat auditory cortex

The development and plasticity of central auditory system can be influenced by the change of peripheral neuronal activity. However, the molecular mechanism participating in the process remains elusive. Brain-derived neurotrophic factor(BDNF) binding with its functional receptor tropomyosin receptor kinase B(TrkB) has multiple effects on neurons. Here we used a rat model of auditory deprivation by bilateral cochlear ablation, to investigate the changes in expression of BDNF and Trk B in the auditory cortex after auditory deprivation that occurred during the critical period for the development of central auditory system. Reverse transcription-quantitative polymerase chain reaction(RTqPCR) and immunohistochemistry methods were adopted to detect the m RNA and protein expression levels of BDNF and TrkB in the auditory cortex at 2, 4, 6 and 8 weeks after surgery, respectively. The change in the expression of BDNF and TrkB mRNAs and proteins followed similar trend. In the bilateral cochlear ablation groups, the BDNF-TrkB expression level initially decreased at 2 weeks but increased at 4 weeks followed by the reduction at 6 and 8 weeks after cochlear removal, as compared to the age-matched sham control groups. In conclusion, the BDNF-TrkB signaling is involved in the plasticity of auditory cortex in an activity-dependent manner.

Mild hypothermia as a treatment for central nervous system injuries Positive or negative effects?

Besides local neuronal damage caused by the primary insult, central nervous system injuries may secondarily cause a progressive cascade of related events including brain edema, ischemia, oxida- tive stress, excitotoxicity, and dysregulation of calcium homeostasis. Hypothermia is a beneficial strategy in a variety of acute central nervous system injuries. Mild hypothermia can treat high in- tracranial pressure following traumatic brain injuries in adults. It is a new treatment that increases survival and quality of life for patients suffering from ischemic insults such as cardiac arrest, stroke, and neurogenic fever following brain trauma. Therapeutic hypothermia decreases free radical pro- duction, inflammation, excitotoxicity and intracranial pressure, and improves cerebral metabolism after traumatic brain injury and cerebral ischemia, thus protecting against central nervous system damage. Although a series of pathological and physiological changes as well as potential side ef- fects are observed during hypothermia treatment, it remains a potential therapeutic strategy for central nervous system injuries and deserves further study.

Monitoring Brain and Spinal Cord Metabolism and Function

Monitoring the metabolism and function of the central nervous system not only is an old idea but also is a topic that is of increasing interest to the technological evolution. Beside the optimization of cerebral and spinal cord perfusion and the preservation of vasoreactivity to ensure the viability of cerebral tissues and structures, we want to know more and more about the real intimate situation of these organs in real time at the patient’s bedside. To this end, several tracks have been explored during the two last decades, leading to the development of numerous concepts and the conception of various monitoring systems. One of the main problems is to characterize the respective strong points and weaknesses of those ones and to conclude regarding their individual relevance and value in current clinical practice. It is more and more clear that the combination of different categories of monitoring is a way to try to find the most valuable technological compromise, to increase the chance of prediction or of early detection of intercurrent deleterious events corresponding to the concept of multimodality. The intraoperative period and the intensive care goals and targets are appreciably different. This is the reason for the attempt to define different and distinct sets of goals and targets for the intraoperative anesthetic setting and for the intensive care unit.

Microdialysis in awake macaque monkeys for central nervous system pharmacokinetics

Background: The brain bioavailability of novel small molecules developed to address central nervous system disease is classically documented through ex vivo or in vivo analyses conducted in rodent models. Data acquired in rodent models are, however,not easily transferrable to human as the pharmacokinetic and pharmacodynamics profiles of the species are quite different.Methods: Using drugs selected for their differential transport across the blood-brain barrier, we here demonstrate the feasibility of brain microdialysis in normal vigil macaque monkey by measuring brain extracellular fluid bioavailability of carbamazepine, digoxin, oxycodone, and quinidine.Results: All drugs, but digoxin, were found in dialysate samples. Drugs that are substrate of P-glycoprotein show a difference of bioavailability or brain pharmacokinetic parameters between rodents and primates.Conclusion: Data suggest that brain microdialysis in vigil macaque monkey, the species of choice for classic pharmacokinetic/pharmacodynamics studies could help predicting human brain bioavailability of a small molecule depending on the protein involved in the efflux transport from the brain.

CD93 and GIPC expression and localization during central nervous system inflammation

CD93 and GAIP-interacting protein, C termius （GIPC） have been shown to interactively alter phagocytic processes of immune cells. CD93 and GIPC expression and localization during cen-tral nervous system inflammation have not yet been reported. In this study, we established a rat model of brain inlfammation by lipopolysaccharide injection to the lateral ventricle. In the brain of rats with inlfammation, western blots showed increased CD93 expression that decreased over time. GIPC expression was unaltered. Immunohistochemistry demonstrated extensive distribution of CD93 expression mainly in cell membranes in the cerebral cortex. After lipopoly-saccharide stimulation, CD93 expression increased and then reduced, with distinct staining in the cytoplasm and nucleus. Double immunolfuorescence staining in cerebral cortex of normal rats showed that CD93 and GIPC widely expressed in resting microglia and neurons. CD93 was mainly expressed in microglial and neuronal cell membranes, while GIPC was expressed in both cell membrane and cytoplasm. In the cerebral cortex at 9 hours after model establishment, CD93-immunoreactive signal diminished in microglial membrane, with cytoplasmic transloca-tion and aggregation detected. GIPC localization was unaltered in neurons and microglia. These results are the ifrst to demonstrate CD93 participation in pathophysiological processes of central nervous system inlfammation.

Altered spontaneous brain activity pattern in patients with ophthalmectomy: an resting-state fMRI study

●AIM:To use the voxel-wise degree centrality(DC)method to explore the underlying functional network brain-activity in patients with ophthalmectomy.●METHODS:A total of 32 ophthalmic surgery patients(10 women and 22 men),and 32 healthy subjects(10 women and 22 men)highly matched in gender,age,and the same operation method.Everyone experienced a restingstate functional magnetic resonance imaging scan.The spontaneous brain activity could be assessed by DC.Correlation analysis was used to explore the relationships between the average DC signal values and behavior performance in different regions.Receiver operating characteristic(ROC)cur ve analysis was utilized to differentiate between ophthalmectomy patients and healthy controls(HCs).●RESULTS:Compared with HCs,ophthalmectomy patients had greatly reduced DC values in left lingual gyrus,bilateral lingual lobe,left cingulate gyrus,and increased DC values of left cerebellum posterior lobe,left middle frontal gyrus1,right supramarginal gyrus,left middle frontal gyrus2,right middle frontal gyrus.However,we did not find that there was a correlation between the average DC values from various brain regions and clinical manifestations.●CONCLUSION:Dysfunction may be caused by ophthalmectomy in lots of cerebral areas,which may show the potential pathological mechanism of ophthalmectomy and it is beneficial to clinical diagnosis.

Significant change of sensitivity index d' in sensory processing of human brain during wake-sleep transition

The sensor area in the brain remains active during the wake-sleep transition. However, the behavioral mechanisms of sensor sensitivity involved in the transition from a state of wakefulness to a sleep state remain poorly understood. To detect sensitivity index （d） changes during the wake-sleep transition, the present study recorded response times of wakefulness versus wake-sleep transition in 14 healthy undergraduate volunteers. During wake-sleep transition testing, morphological changes in the time courses of behavior response revealed 2 typical phases （stages A and B）. In stage A, subject behavior responses exhibited temporal fluctuations, and all subjects displayed a high accuracy rate. In stage B, subjects did not exhibit behavioral responses. The sensitivity index d＇ during the wake-sleep transition （stage A） was significantly weaker than during wakefulness. Results demonstrated that at the behavioral level, sensation capacity for transfer information from the external world into the internal system significantly decreased during the transition to sleep.

皮疽诺卡菌致多发脑脓肿1例并文献复习

目的 分析皮疽诺卡菌累及中枢神经系统的临床特征、诊断及治疗,以期提高对该疾病的认识,精准抗感染治疗。方法 报告清华大学附属北京清华长庚医院感染性疾病科收治的1 例皮疽诺卡菌感染致多发脑脓肿的病例,并以“Nocardiafarcinica”为关键词检索PubMed 1967年1月1日-2022年9月18日的英文文献共433篇,分别以“皮疽奴卡菌”“ 皮疽诺卡菌”“鼻疽奴卡菌”“ 鼻疽诺卡菌”为关键词在万方数据库、维普数据库检索 1999 年 10 月 1 日-2022 年 9 月 18 日的中文文献,共153 篇,收集并分析总结70 例皮疽诺卡菌中枢神经系统感染的病例资料。结果 该院这例患者以“头痛伴意识障碍”入院,入院后脑脊液宏基因组二代测序(mNGS)提示为皮疽诺卡菌,以复方磺胺甲唑为主联合美罗培南、莫西沙星、阿米卡星为治疗方案,治疗1 个月病灶吸收,院外口服复方磺胺甲唑、莫西沙星,总疗程为1 年。文献70 例皮疽诺卡菌中枢神经系统感染患者男性51 例,占72.8%,平均年龄(58.6±15.3)岁,57.1% 患者有糖皮质激素使用史,57.1% 患者同时合并其他脏器播散,80.0%(56 例)的患者通过传统细菌培养明确病原学诊断,其余通过聚合酶链反应或mNGS 诊断。抗感染用药以复方磺胺甲唑为主(85.7%),死亡率24.2%。结论 皮疽诺卡菌中枢神经系统感染,以发热、肢体活动障碍、头痛为主要临床表现,除中枢神经系统受累外,易全身播散,且有较高的死亡率。该病临床表现缺乏特异性,诊断及治疗相对困难,病死率较高,包括mNGS 在内的多种检测手段可协助尽早明确病原学诊断。

New Hope in Promoting Central Neural Regeneration

Brain injuries are frequently resulting in physical disabilities due to inadequate axonal regeneration.This review discusses the role of calcium binding proteins in axonal regeneration,and elucidates the potential usage of novel invertebrate calcium binding proteins in promoting axonal regeneration of mammalian central neurons.

The occurrence of diffuse axonal injury in the brain:associated with the accumulation and clearance of myelin debris

The accumulation of myelin debris may be a major contributor to the inlfammatory response after diffuse axonal injury. In this study, we examined the accumulation and clearance of myelin debris in a rat model of diffuse axonal injury. Oil Red O staining was performed on sections from the cerebral cortex, hippocampus and brain stem to identify the myelin debris. Seven days after diffuse axonal injury, many Oil Red O-stained particles were observed in the cerebral cortex, hippocampus and brain stem. In the cerebral cortex and hippocampus, the amount of myelin debris peaked at 14 days after injury, and decreased signiifcantly at 28 days. In the brain stem, the amount of myelin debris peaked at 7 days after injury, and decreased signiifcantly at 14 and 28 days. In the cortex and hippocampus, some myelin debris could still be observed at 28 days after diffuse axonal injury. Our ifndings suggest that myelin debris may persist in the rat central ner-vous system after diffuse axonal injury, which would hinder recovery.

中部地区地级市城市大脑建设的挑战及策略

当前城市大脑建设如火如荼,在省会城市的带动下,中部地区各地级市不甘落后,正在积极抓住机遇推动城市大脑项目的落地及建设。为积极应对城市大脑建设所带来的财政、人才、理念三大挑战,中部地区地级市应积极作为,寻求有效应对策略:准确把握城市大脑的实质,不忘城市治理的初心;财政投入量力而行,探索多元合作模式;注重本地技术人才建设,减轻对科技企业的依赖;机构改革、观念改革与技术改革同步进行。

Can the Glucose Central Control System Dysfunctions Induce Diabetes Mellitus?

We study afresh how the glucose control system anomalies impact the organicity of the glucose homeostasis and build up events of persistent hyperglycemia and diabetes mellitus. We have used critically the state of art literature related to the subject, in order to cross, to compare, and to organize the relevant contents to create a logical and consistent support to the finds. We show that it is consistent to assume that persistent hyperglycemia and diabetes mellitus can have precursors not only in pancreas, but also in brain, mainly induced by noxious dysfunctions of hypothalamus sensor neurons circuits and external noxious elements, causing pancreas overload, and the consequent exhaustion—overburden.