Cancer neuroscience is an emerging discipline that is developing at a high speed.Its main field lies in studying the interaction between tumors and the nervous system,thereby offering new perspective on cancer initiat...Cancer neuroscience is an emerging discipline that is developing at a high speed.Its main field lies in studying the interaction between tumors and the nervous system,thereby offering new perspective on cancer initiation and progression.In this editorial,we briefly reviewed the origin and development process of cancer neuroscience,and gave a brief introduction to its research contents.Finally,we discussed the future development directions of this discipline.展开更多
Terahertz biotechnology has been increasingly applied in various biomedical fields and has especially shown great potential for application in brain sciences.In this article,we review the development of terahertz biot...Terahertz biotechnology has been increasingly applied in various biomedical fields and has especially shown great potential for application in brain sciences.In this article,we review the development of terahertz biotechnology and its applications in the field of neuropsychiatry.Available evidence indicates promising prospects for the use of terahertz spectroscopy and terahertz imaging techniques in the diagnosis of amyloid disease,cerebrovascular disease,glioma,psychiatric disease,traumatic brain injury,and myelin deficit.In vitro and animal experiments have also demonstrated the potential therapeutic value of terahertz technology in some neuropsychiatric diseases.Although the precise underlying mechanism of the interactions between terahertz electromagnetic waves and the biosystem is not yet fully understood,the research progress in this field shows great potential for biomedical noninvasive diagnostic and therapeutic applications.However,the biosafety of terahertz radiation requires further exploration regarding its two-sided efficacy in practical applications.This review demonstrates that terahertz biotechnology has the potential to be a promising method in the field of neuropsychiatry based on its unique advantages.展开更多
Neuromorphic computing has the potential to overcome limitations of traditional silicon technology in machine learning tasks.Recent advancements in large crossbar arrays and silicon-based asynchronous spiking neural n...Neuromorphic computing has the potential to overcome limitations of traditional silicon technology in machine learning tasks.Recent advancements in large crossbar arrays and silicon-based asynchronous spiking neural networks have led to promising neuromorphic systems.However,developing compact parallel computing technology for integrating artificial neural networks into traditional hardware remains a challenge.Organic computational materials offer affordable,biocompatible neuromorphic devices with exceptional adjustability and energy-efficient switching.Here,the review investigates the advancements made in the development of organic neuromorphic devices.This review explores resistive switching mechanisms such as interface-regulated filament growth,molecular-electronic dynamics,nanowire-confined filament growth,and vacancy-assisted ion migration,while proposing methodologies to enhance state retention and conductance adjustment.The survey examines the challenges faced in implementing low-power neuromorphic computing,e.g.,reducing device size and improving switching time.The review analyses the potential of these materials in adjustable,flexible,and low-power consumption applications,viz.biohybrid spiking circuits interacting with biological systems,systems that respond to specific events,robotics,intelligent agents,neuromorphic computing,neuromorphic bioelectronics,neuroscience,and other applications,and prospects of this technology.展开更多
Animal models have been a crucial tool in neuroscience research for decades,providing insights into the biomedical and evolutionary mechanisms of the nervous system,disease,and behavior.However,their use has raised co...Animal models have been a crucial tool in neuroscience research for decades,providing insights into the biomedical and evolutionary mechanisms of the nervous system,disease,and behavior.However,their use has raised concerns on several ethical,clinical,and scientific considerations.The welfare of animals and the 3R principles(replacement,reduction,refinement)are the focus of the ethical concerns,targeting the importance of reducing the stress and suffering of these models.Several laws and guidelines are applied and developed to protect animal rights during experimenting.Concurrently,in the clinic and biomedical fields,discussions on the relevance of animal model findings on human organisms have increased.Latest data suggest that in a considerable amount of time the animal model results are not translatable in humans,costing time and money.Alternative methods,such as in vitro(cell culture,microscopy,organoids,and micro physiological systems)techniques and in silico(computational)modeling,have emerged as potential replacements for animal models,providing more accurate data in a minimized cost.By adopting alternative methods and promoting ethical considerations in research practices,we can achieve the 3R goals while upholding our responsibility to both humans and other animals.Our goal is to present a thorough review of animal models used in neuroscience from the biomedical,evolutionary,and ethical perspectives.The novelty of this research lies in integrating diverse points of views to provide an understanding of the advantages and disadvantages of animal models in neuroscience and in discussing potential alternative methods.展开更多
Electroencephalography(EEG)is a non-invasive measurement method for brain activity.Due to its safety,high resolution,and hypersensitivity to dynamic changes in brain neural signals,EEG has aroused much interest in sci...Electroencephalography(EEG)is a non-invasive measurement method for brain activity.Due to its safety,high resolution,and hypersensitivity to dynamic changes in brain neural signals,EEG has aroused much interest in scientific research and medical felds.This article reviews the types of EEG signals,multiple EEG signal analysis methods,and the application of relevant methods in the neuroscience feld and for diagnosing neurological diseases.First,3 types of EEG signals,including time-invariant EEG,accurate event-related EEG,and random event-related EEG,are introduced.Second,5 main directions for the methods of EEG analysis,including power spectrum analysis,time-frequency analysis,connectivity analysis,source localization methods,and machine learning methods,are described in the main section,along with diferent sub-methods and effect evaluations for solving the same problem.Finally,the application scenarios of different EEG analysis methods are emphasized,and the advantages and disadvantages of similar methods are distinguished.This article is expected to assist researchers in selecting suitable EEG analysis methods based on their research objectives,provide references for subsequent research,and summarize current issues and prospects for the future.展开更多
One in five Americans experience symptoms associated with at least one mental health disorder every year. These include behavioral addictions, which have long been overlooked despite their similar neural bases with su...One in five Americans experience symptoms associated with at least one mental health disorder every year. These include behavioral addictions, which have long been overlooked despite their similar neural bases with substance addictions. Gambling addiction, a type of behavioral addiction, deserves particular attention given the significant negative effects, this addiction has on financial and interpersonal health. The purpose of this paper is to review the available literature concerning the behavioral and neural processes involved in gambling addiction, including: the anticipation of reward, the role of dopamine, and the neural substrates of the decision-making processes involved in gambling addiction. Market research has also identified solutions that integrate applied neuroscience and self-tracking systems to monitor and manage mental health issues associated with gambling addiction. The authors then propose a gambling treatment-focused mobile app solution that addresses outstanding issues with a special design aimed at reversing plasticity in order to relieve the effects of gambling addiction. .展开更多
目的作为一本新创的英文期刊,Journal of Translational Neuroscience杂志需要尽快提升其学术水平,扩大其社会影响力,以期能迅速在国际专业学术期刊界占有一席之地,通过约稿获得高质量的学术论文就显得至关重要。方法笔者从找准期刊学...目的作为一本新创的英文期刊,Journal of Translational Neuroscience杂志需要尽快提升其学术水平,扩大其社会影响力,以期能迅速在国际专业学术期刊界占有一席之地,通过约稿获得高质量的学术论文就显得至关重要。方法笔者从找准期刊学术定位、采取灵活多样的约稿方式、分析解决约稿过程中可能存在的问题以及如何做好约稿后续服务工作等几个方面入手,初浅分析探讨了关于期刊约稿的方式方法。结果通过期刊定位准确锁定目标作者群,依托自身优势资源,参与学术会议,通过编委约稿以及提供优质的后续服务等方法获得稳定的高质量作者群,从而获得持续的优秀稿源。结论拥有持续的高质量稿件是促使期刊进入良性循环的重要保障,通过约稿可以解决新创办的期刊无稿可用和缺少优秀稿件的难题,推动期刊走出困境,渐入正轨。展开更多
There are two types of cell death-apoptosis and necrosis. Apoptosis is cell death regulated by cell signaling pathways, while necrosis has until recently been considered a passive mechanism of cell death caused by env...There are two types of cell death-apoptosis and necrosis. Apoptosis is cell death regulated by cell signaling pathways, while necrosis has until recently been considered a passive mechanism of cell death caused by environmental pressures. However, recent studies show that necrosis can also be regulated by specific cell signaling pathways. This mode of death, termed necroptosis, has been found to be related to the occurrence and development of many diseases. We used bibliometrics to analyze the global output of literature on necroptosis in the field of neuroscience published in the period 2007–2019 to identify research hotspots and prospects. We included 145 necroptosisrelated publications and 2239 references published in the Web of Science during 2007–2019. Visualization analysis revealed that the number of publications related to necroptosis has increased year by year, reaching a peak in 2019. China is the country with the largest number of publications. Key word and literature analyses demonstrated that mitochondrial function change, stroke, ischemia/reperfusion and neuroinflammation are likely the research hotspots and future directions of necroptosis research in the nervous system. The relationship between immune response-related factors, damage-associated molecular patterns, pathogen-associated molecular patterns and necroptosis may become a potential research hotspot in the future. Taken together, our findings suggest that although the inherent limitations of bibliometrics may affect the accuracy of the literature-based prediction of research hotspots, the results obtained from the included publications can provide a reference for the study of necroptosis in the field of neuroscience.展开更多
Bioinformatic analysis of large and complex omics datasets has become increasingly useful in modern day biology by providing a great depth of information,with its application to neuroscience termed neuroinformatics.Da...Bioinformatic analysis of large and complex omics datasets has become increasingly useful in modern day biology by providing a great depth of information,with its application to neuroscience termed neuroinformatics.Data mining of omics datasets has enabled the generation of new hypotheses based on differentially regulated biological molecules associated with disease mechanisms,which can be tested experimentally for improved diagnostic and therapeutic targeting of neurodegenerative diseases.Importantly,integrating multi-omics data using a systems bioinformatics approach will advance the understanding of the layered and interactive network of biological regulation that exchanges systemic knowledge to facilitate the development of a comprehensive human brain profile.In this review,we first summarize data mining studies utilizing datasets from the individual type of omics analysis,including epigenetics/epigenomics,transcriptomics,proteomics,metabolomics,lipidomics,and spatial omics,pertaining to Alzheimer's disease,Parkinson's disease,and multiple sclerosis.We then discuss multi-omics integration approaches,including independent biological integration and unsupervised integration methods,for more intuitive and informative interpretation of the biological data obtained across different omics layers.We further assess studies that integrate multi-omics in data mining which provide convoluted biological insights and offer proof-of-concept proposition towards systems bioinformatics in the reconstruction of brain networks.Finally,we recommend a combination of high dimensional bioinformatics analysis with experimental validation to achieve translational neuroscience applications including biomarker discovery,therapeutic development,and elucidation of disease mechanisms.We conclude by providing future perspectives and opportunities in applying integrative multi-omics and systems bioinformatics to achieve precision phenotyping of neurodegenerative diseases and towards personalized medicine.展开更多
Tree shrews(Tupaia spp.)have been used in neuroscience research since the 1960s due to their evolutionary proximity to primates.The use of and interest in this animal model have recently increased,in part due to the a...Tree shrews(Tupaia spp.)have been used in neuroscience research since the 1960s due to their evolutionary proximity to primates.The use of and interest in this animal model have recently increased,in part due to the adaptation of modern neuroscience tools in this species.These tools include quantitative behavioral assays,calcium imaging,optogenetics and transgenics.To facilitate the exchange and development of these new technologies and associated research findings,we organized the inaugural“Tree Shrew Users Meeting”which was held online due to the COVID-19 pandemic.Here,we review this meeting and discuss the history of tree shrews as an animal model in neuroscience research and summarize the current themes being investigated using this animal,as well as future directions.展开更多
Fluorescence nanoscopy provides imaging techniques that overcome the diffraction-limited resolution barrier in light microscopy,thereby opening up a new area of research in biomedical imaging in fields such as neurosc...Fluorescence nanoscopy provides imaging techniques that overcome the diffraction-limited resolution barrier in light microscopy,thereby opening up a new area of research in biomedical imaging in fields such as neuroscience.Here,we review the foremost fluorescence nanoscopy techniques,including descriptions of their applications in elucidating protein architectures and mobility,the real-time determination of synaptic parameters involved in neural processes,three-dimensional imaging,and the tracking of nanoscale neural activity.We conclude by discussing the prospects of fluorescence nanoscopy,with a particular focus on its deployment in combination with related techniques(e.g.,machine learning)in neuroscience.展开更多
In this special issue of Neuroscience Bulletin, the topics range over emerging techniques from the nanoscopic to the macroscopic scales. At the nanoscopic level, new ways to obtain images at the individual protein le...In this special issue of Neuroscience Bulletin, the topics range over emerging techniques from the nanoscopic to the macroscopic scales. At the nanoscopic level, new ways to obtain images at the individual protein level in synapses take the re- construction of synaptic architecture to a new level, while using chromophores to disable specific proteins at selected subcellular locations allows the assessment of their functional roles in such dynamic processes as growth-cone extension and cell division. The subtle influences of axonal chan- nels and receptors on neurotransmission are revealed by recording from the blebs induced by axotomy, while methods from cloning to chemical computation are being applied to dissecting the structural-functional rules by which ion channels operatet41.展开更多
The purpose of this paper is to discuss recent findings in neuroscience that can be useful to architecture.Knowing the working patterns of the brain and how space affects cerebral functions can help architects design ...The purpose of this paper is to discuss recent findings in neuroscience that can be useful to architecture.Knowing the working patterns of the brain and how space affects cerebral functions can help architects design buildings that improve the user’s behavior,performance and well-being.The built environment has a direct impact on the human brain.Social relations,focus,cognition,creativity,memory and well-being can be influenced by the surrounding physical space.Although it is not possible to create the perfect room,the space can be used in a strategic way,depending on the task that individuals are supposed to do there and depending on the people(age,gender,culture)who will make use of the space.Schools can be designed in a way to improve cognition,learning and memorization;hospital buildings can help improving recovery;workspaces can improve performance,creativity and collaboration.Above all,all spaces of long occupation should be designed in a way to improve well-being.How can architecture change automatic behaviors and nudge people to behave in a healthier way?Can architects create buildings and cities that improve socialization and happiness?Can criminality levels drop due to changes on the way the environments are designed?These are some of the questions that will be discussed in this paper.展开更多
Organizational neuroscience(ON)is an emerging discipline that provides effective interpretations and greater understanding of modern organizational operation.ON covers a variety of disciplines,including physiological ...Organizational neuroscience(ON)is an emerging discipline that provides effective interpretations and greater understanding of modern organizational operation.ON covers a variety of disciplines,including physiological psychology,cognitive psychology,and neuropsychology,as well as the study of management,industrial/organizational psychology,and consultants.So far,ON has made many contributions to organization studies.Given the rapid development of neuroscience,many scholars have studied the leadership behaviors of organizational leaders from this emerging perspective.However,not all neuroscience studies investigate the differences between specific leaders.In particular,previous neuroscience studies have not touched on the neuroscientific effects found during the issue of and response to instructions between leaders and followers.This study extends previous ON studies to other organizational factors,including leadership style,organizational atmosphere,and job performance.In the future,an empirical study will be conducted to guide the practical applications of ON.展开更多
<span style="font-family:Verdana;">Background and Purpose: Plantar Fasciitis (PF) is a condition that affects the foot and causes complaints such as pain and stiffness. The most common symptom of this ...<span style="font-family:Verdana;">Background and Purpose: Plantar Fasciitis (PF) is a condition that affects the foot and causes complaints such as pain and stiffness. The most common symptom of this condition is pain. There are many treatment options to deal with this condition, such as conservative therapy, medications</span><span style="font-family:Verdana;">,</span><span style="font-family:Verdana;"> and surgical interventions in rare cases. This case study aims to investigate the potential impact of pain neuroscience education (PNE), combined with a conventional Physical Therapy (PT) program on a 37-year-old-patient with chronic plantar fasciitis. Case description: A 37-year-old male health care professional presented to an outpatient physical therapy clinic with a diagnosis of chronic PF for around two years. The participant had tried several treatment options with no improvement of his symptoms. After undergoing a physical therapy evaluation, he was given a plan of care for twelve sessions by a skilled physical therapist for a six-week period, with each session consisting of 30 minutes of conventional PT, followed by 5 to 15 minutes of PNE. Results: After completing the prescribed plan of care, the patient reported </span><span style="font-family:Verdana;">a </span><span style="font-family:Verdana;">reduction in subjective symptoms via the Visual Analog Scale (VAS). He also reported improvement with symptoms and functional independence via the Foot Function Index (FFI). The patient reported no change in </span><span style="font-family:Verdana;">the </span><span style="font-family:Verdana;">quality of sleep via Pittsburg Sleep Quality Index (PSQI). Lastly, he demonstrated no objective improvement in foot pressure with the Navicular Drop Test. Discussion: This case report indicates that PNE, combined with conventional PT for PF can have a positive impact on subjective pain and foot function. PNE should involve many topics about the physiology of pain and the nervous system and should be administered by a certified therapeutic pain specialist. Further studies are recommended to investigate the impact of this intervention in combination with traditional PT for PF in larger populations.</span>展开更多
The human nucleus accumbens(NA), a major part of the ventral striatum, is the area of continuity between the putamen and head of the caudate nucleus. It consists of two parts, a shell laterally and a core medially. Th...The human nucleus accumbens(NA), a major part of the ventral striatum, is the area of continuity between the putamen and head of the caudate nucleus. It consists of two parts, a shell laterally and a core medially. The first is mainly connected to the limbic system and the second to the extrapyramidal motor system. The NA, a major pleasure center of the human brain, acts as a limbic-motor interface and is involved in several cognitive, emotional and psychomotor functions. It has a modulating function in the amygdala-basal gangliaprefrontal cortex circuit. It is considered as the neural interface between motivation and action. Further, it is a principal modulator of the reward circuits and supplies motor expression to emotional responses. Such a clinical significance could easily explain the intense work taking place in the respective field of basic research. Its exceptional clinical importance justifies the title of the "King of Neurosciences" for this nucleus. Purpose of this editorial is to review the "informational paths" left behind by the few researchers who tried to explore the architecture(gross anatomy) of this ‘kingdom'. The first anatomical study focused on this nucleus came from Neto et al. The most extensive study of the NA gross, imaging, stereotactic and neurosurgical anatomy so far,came from the research efforts of Mavridis et al.展开更多
"The 16^th Chinese Society of Neuroscience & Psychiatry (CSNP)National Academic Conference", sponsored by Chinese Society of Neuroscience & Psychiatry, co-sp on sored by Shanghai Mentai Health Center..."The 16^th Chinese Society of Neuroscience & Psychiatry (CSNP)National Academic Conference", sponsored by Chinese Society of Neuroscience & Psychiatry, co-sp on sored by Shanghai Mentai Health Center Affiliated to Shanghai Jiao Tong Un iversity School of Medicine,Harbin First Specialized Hospital, will be held on June 27-29, 2019 at Rong Chuang Wanda Vista Hotel, Harbin. The conference will bring communication of the latest advances of mental disorders through keynote talks, forums, symposiums, oral reports, and poster presentations.展开更多
基金supported by High-level talent introduction funds from the First Hospital of Lanzhou University.
文摘Cancer neuroscience is an emerging discipline that is developing at a high speed.Its main field lies in studying the interaction between tumors and the nervous system,thereby offering new perspective on cancer initiation and progression.In this editorial,we briefly reviewed the origin and development process of cancer neuroscience,and gave a brief introduction to its research contents.Finally,we discussed the future development directions of this discipline.
基金supported by grants from the National Key R&D Program of China,No.2017YFC0909200(to DC)the National Natural Science Foundation of China,No.62075225(to HZ)+1 种基金Zhejiang Provincial Medical Health Science and Technology Project,No.2023XY053(to ZP)Zhejiang Provincial Traditional Chinese Medical Science and Technology Project,No.2023ZL703(to ZP).
文摘Terahertz biotechnology has been increasingly applied in various biomedical fields and has especially shown great potential for application in brain sciences.In this article,we review the development of terahertz biotechnology and its applications in the field of neuropsychiatry.Available evidence indicates promising prospects for the use of terahertz spectroscopy and terahertz imaging techniques in the diagnosis of amyloid disease,cerebrovascular disease,glioma,psychiatric disease,traumatic brain injury,and myelin deficit.In vitro and animal experiments have also demonstrated the potential therapeutic value of terahertz technology in some neuropsychiatric diseases.Although the precise underlying mechanism of the interactions between terahertz electromagnetic waves and the biosystem is not yet fully understood,the research progress in this field shows great potential for biomedical noninvasive diagnostic and therapeutic applications.However,the biosafety of terahertz radiation requires further exploration regarding its two-sided efficacy in practical applications.This review demonstrates that terahertz biotechnology has the potential to be a promising method in the field of neuropsychiatry based on its unique advantages.
基金financially supported by the Ministry of Education(Singapore)(MOE-T2EP50220-0022)SUTD-MIT International Design Center(Singapore)+3 种基金SUTD-ZJU IDEA Grant Program(SUTD-ZJU(VP)201903)SUTD Kickstarter Initiative(SKI 2021_02_03,SKI 2021_02_17,SKI 2021_01_04)Agency of Science,Technology and Research(Singapore)(A20G9b0135)National Supercomputing Centre(Singapore)(15001618)。
文摘Neuromorphic computing has the potential to overcome limitations of traditional silicon technology in machine learning tasks.Recent advancements in large crossbar arrays and silicon-based asynchronous spiking neural networks have led to promising neuromorphic systems.However,developing compact parallel computing technology for integrating artificial neural networks into traditional hardware remains a challenge.Organic computational materials offer affordable,biocompatible neuromorphic devices with exceptional adjustability and energy-efficient switching.Here,the review investigates the advancements made in the development of organic neuromorphic devices.This review explores resistive switching mechanisms such as interface-regulated filament growth,molecular-electronic dynamics,nanowire-confined filament growth,and vacancy-assisted ion migration,while proposing methodologies to enhance state retention and conductance adjustment.The survey examines the challenges faced in implementing low-power neuromorphic computing,e.g.,reducing device size and improving switching time.The review analyses the potential of these materials in adjustable,flexible,and low-power consumption applications,viz.biohybrid spiking circuits interacting with biological systems,systems that respond to specific events,robotics,intelligent agents,neuromorphic computing,neuromorphic bioelectronics,neuroscience,and other applications,and prospects of this technology.
文摘Animal models have been a crucial tool in neuroscience research for decades,providing insights into the biomedical and evolutionary mechanisms of the nervous system,disease,and behavior.However,their use has raised concerns on several ethical,clinical,and scientific considerations.The welfare of animals and the 3R principles(replacement,reduction,refinement)are the focus of the ethical concerns,targeting the importance of reducing the stress and suffering of these models.Several laws and guidelines are applied and developed to protect animal rights during experimenting.Concurrently,in the clinic and biomedical fields,discussions on the relevance of animal model findings on human organisms have increased.Latest data suggest that in a considerable amount of time the animal model results are not translatable in humans,costing time and money.Alternative methods,such as in vitro(cell culture,microscopy,organoids,and micro physiological systems)techniques and in silico(computational)modeling,have emerged as potential replacements for animal models,providing more accurate data in a minimized cost.By adopting alternative methods and promoting ethical considerations in research practices,we can achieve the 3R goals while upholding our responsibility to both humans and other animals.Our goal is to present a thorough review of animal models used in neuroscience from the biomedical,evolutionary,and ethical perspectives.The novelty of this research lies in integrating diverse points of views to provide an understanding of the advantages and disadvantages of animal models in neuroscience and in discussing potential alternative methods.
基金supported by the STI2030 Major Projects(2021ZD0204300)the National Natural Science Foundation of China(61803003,62003228).
文摘Electroencephalography(EEG)is a non-invasive measurement method for brain activity.Due to its safety,high resolution,and hypersensitivity to dynamic changes in brain neural signals,EEG has aroused much interest in scientific research and medical felds.This article reviews the types of EEG signals,multiple EEG signal analysis methods,and the application of relevant methods in the neuroscience feld and for diagnosing neurological diseases.First,3 types of EEG signals,including time-invariant EEG,accurate event-related EEG,and random event-related EEG,are introduced.Second,5 main directions for the methods of EEG analysis,including power spectrum analysis,time-frequency analysis,connectivity analysis,source localization methods,and machine learning methods,are described in the main section,along with diferent sub-methods and effect evaluations for solving the same problem.Finally,the application scenarios of different EEG analysis methods are emphasized,and the advantages and disadvantages of similar methods are distinguished.This article is expected to assist researchers in selecting suitable EEG analysis methods based on their research objectives,provide references for subsequent research,and summarize current issues and prospects for the future.
文摘One in five Americans experience symptoms associated with at least one mental health disorder every year. These include behavioral addictions, which have long been overlooked despite their similar neural bases with substance addictions. Gambling addiction, a type of behavioral addiction, deserves particular attention given the significant negative effects, this addiction has on financial and interpersonal health. The purpose of this paper is to review the available literature concerning the behavioral and neural processes involved in gambling addiction, including: the anticipation of reward, the role of dopamine, and the neural substrates of the decision-making processes involved in gambling addiction. Market research has also identified solutions that integrate applied neuroscience and self-tracking systems to monitor and manage mental health issues associated with gambling addiction. The authors then propose a gambling treatment-focused mobile app solution that addresses outstanding issues with a special design aimed at reversing plasticity in order to relieve the effects of gambling addiction. .
文摘目的作为一本新创的英文期刊,Journal of Translational Neuroscience杂志需要尽快提升其学术水平,扩大其社会影响力,以期能迅速在国际专业学术期刊界占有一席之地,通过约稿获得高质量的学术论文就显得至关重要。方法笔者从找准期刊学术定位、采取灵活多样的约稿方式、分析解决约稿过程中可能存在的问题以及如何做好约稿后续服务工作等几个方面入手,初浅分析探讨了关于期刊约稿的方式方法。结果通过期刊定位准确锁定目标作者群,依托自身优势资源,参与学术会议,通过编委约稿以及提供优质的后续服务等方法获得稳定的高质量作者群,从而获得持续的优秀稿源。结论拥有持续的高质量稿件是促使期刊进入良性循环的重要保障,通过约稿可以解决新创办的期刊无稿可用和缺少优秀稿件的难题,推动期刊走出困境,渐入正轨。
基金supported by the National Natural Science Foundation of China,Nos. 81772134,81971891,and 81571939 (to KX)the Key Research and Development Program of Hunan Province of China,No. 2018SK2091 (to KX)+3 种基金Hunan Provincial Innovation Foundation For Postgraduate,No. CX20200116 (to WTY)Wu Jie Ping Medical Foundation of the Minister of Health of China,No. 320.6750.14118 (to KX)Foundation of Science and Technology of Hunan Province of China,No. 2018JJ2552 (to YC)the Project of Graduate Independent Exploration and Innovation Plan of Central South University of China,No. 2020zzts218 (to WTY)。
文摘There are two types of cell death-apoptosis and necrosis. Apoptosis is cell death regulated by cell signaling pathways, while necrosis has until recently been considered a passive mechanism of cell death caused by environmental pressures. However, recent studies show that necrosis can also be regulated by specific cell signaling pathways. This mode of death, termed necroptosis, has been found to be related to the occurrence and development of many diseases. We used bibliometrics to analyze the global output of literature on necroptosis in the field of neuroscience published in the period 2007–2019 to identify research hotspots and prospects. We included 145 necroptosisrelated publications and 2239 references published in the Web of Science during 2007–2019. Visualization analysis revealed that the number of publications related to necroptosis has increased year by year, reaching a peak in 2019. China is the country with the largest number of publications. Key word and literature analyses demonstrated that mitochondrial function change, stroke, ischemia/reperfusion and neuroinflammation are likely the research hotspots and future directions of necroptosis research in the nervous system. The relationship between immune response-related factors, damage-associated molecular patterns, pathogen-associated molecular patterns and necroptosis may become a potential research hotspot in the future. Taken together, our findings suggest that although the inherent limitations of bibliometrics may affect the accuracy of the literature-based prediction of research hotspots, the results obtained from the included publications can provide a reference for the study of necroptosis in the field of neuroscience.
基金supported by a Lee Kong Chian School of Medicine Dean’s Postdoctoral Fellowship(021207-00001)from Nanyang Technological University(NTU)Singapore and a Mistletoe Research Fellowship(022522-00001)from the Momental Foundation USA.Jialiu Zeng is supported by a Presidential Postdoctoral Fellowship(021229-00001)from NTU Singapore and an Open Fund Young Investigator Research Grant(OF-YIRG)(MOH-001147)from the National Medical Research Council(NMRC)SingaporeSu Bin Lim is supported by the National Research Foundation(NRF)of Korea(Grant Nos.:2020R1A6A1A03043539,2020M3A9D8037604,2022R1C1C1004756)a grant of the Korea Health Technology R&D Project through the Korea Health Industry Development Institute(KHIDI),funded by the Ministry of Health&Welfare,Republic of Korea(Grant No.:HR22C1734).
文摘Bioinformatic analysis of large and complex omics datasets has become increasingly useful in modern day biology by providing a great depth of information,with its application to neuroscience termed neuroinformatics.Data mining of omics datasets has enabled the generation of new hypotheses based on differentially regulated biological molecules associated with disease mechanisms,which can be tested experimentally for improved diagnostic and therapeutic targeting of neurodegenerative diseases.Importantly,integrating multi-omics data using a systems bioinformatics approach will advance the understanding of the layered and interactive network of biological regulation that exchanges systemic knowledge to facilitate the development of a comprehensive human brain profile.In this review,we first summarize data mining studies utilizing datasets from the individual type of omics analysis,including epigenetics/epigenomics,transcriptomics,proteomics,metabolomics,lipidomics,and spatial omics,pertaining to Alzheimer's disease,Parkinson's disease,and multiple sclerosis.We then discuss multi-omics integration approaches,including independent biological integration and unsupervised integration methods,for more intuitive and informative interpretation of the biological data obtained across different omics layers.We further assess studies that integrate multi-omics in data mining which provide convoluted biological insights and offer proof-of-concept proposition towards systems bioinformatics in the reconstruction of brain networks.Finally,we recommend a combination of high dimensional bioinformatics analysis with experimental validation to achieve translational neuroscience applications including biomarker discovery,therapeutic development,and elucidation of disease mechanisms.We conclude by providing future perspectives and opportunities in applying integrative multi-omics and systems bioinformatics to achieve precision phenotyping of neurodegenerative diseases and towards personalized medicine.
基金supported by the National Institutes of Health Grant EY032327 (to D.F.)
文摘Tree shrews(Tupaia spp.)have been used in neuroscience research since the 1960s due to their evolutionary proximity to primates.The use of and interest in this animal model have recently increased,in part due to the adaptation of modern neuroscience tools in this species.These tools include quantitative behavioral assays,calcium imaging,optogenetics and transgenics.To facilitate the exchange and development of these new technologies and associated research findings,we organized the inaugural“Tree Shrew Users Meeting”which was held online due to the COVID-19 pandemic.Here,we review this meeting and discuss the history of tree shrews as an animal model in neuroscience research and summarize the current themes being investigated using this animal,as well as future directions.
基金the Zhangjiang National Innovation Demonstration Zone(ZJ2019-ZD-005)the National Natural Science Foundation of China(11874267)supported by a fellowship of the China Postdoctoral Science Foundation(2020M671169)。
文摘Fluorescence nanoscopy provides imaging techniques that overcome the diffraction-limited resolution barrier in light microscopy,thereby opening up a new area of research in biomedical imaging in fields such as neuroscience.Here,we review the foremost fluorescence nanoscopy techniques,including descriptions of their applications in elucidating protein architectures and mobility,the real-time determination of synaptic parameters involved in neural processes,three-dimensional imaging,and the tracking of nanoscale neural activity.We conclude by discussing the prospects of fluorescence nanoscopy,with a particular focus on its deployment in combination with related techniques(e.g.,machine learning)in neuroscience.
文摘In this special issue of Neuroscience Bulletin, the topics range over emerging techniques from the nanoscopic to the macroscopic scales. At the nanoscopic level, new ways to obtain images at the individual protein level in synapses take the re- construction of synaptic architecture to a new level, while using chromophores to disable specific proteins at selected subcellular locations allows the assessment of their functional roles in such dynamic processes as growth-cone extension and cell division. The subtle influences of axonal chan- nels and receptors on neurotransmission are revealed by recording from the blebs induced by axotomy, while methods from cloning to chemical computation are being applied to dissecting the structural-functional rules by which ion channels operatet41.
文摘The purpose of this paper is to discuss recent findings in neuroscience that can be useful to architecture.Knowing the working patterns of the brain and how space affects cerebral functions can help architects design buildings that improve the user’s behavior,performance and well-being.The built environment has a direct impact on the human brain.Social relations,focus,cognition,creativity,memory and well-being can be influenced by the surrounding physical space.Although it is not possible to create the perfect room,the space can be used in a strategic way,depending on the task that individuals are supposed to do there and depending on the people(age,gender,culture)who will make use of the space.Schools can be designed in a way to improve cognition,learning and memorization;hospital buildings can help improving recovery;workspaces can improve performance,creativity and collaboration.Above all,all spaces of long occupation should be designed in a way to improve well-being.How can architecture change automatic behaviors and nudge people to behave in a healthier way?Can architects create buildings and cities that improve socialization and happiness?Can criminality levels drop due to changes on the way the environments are designed?These are some of the questions that will be discussed in this paper.
文摘Organizational neuroscience(ON)is an emerging discipline that provides effective interpretations and greater understanding of modern organizational operation.ON covers a variety of disciplines,including physiological psychology,cognitive psychology,and neuropsychology,as well as the study of management,industrial/organizational psychology,and consultants.So far,ON has made many contributions to organization studies.Given the rapid development of neuroscience,many scholars have studied the leadership behaviors of organizational leaders from this emerging perspective.However,not all neuroscience studies investigate the differences between specific leaders.In particular,previous neuroscience studies have not touched on the neuroscientific effects found during the issue of and response to instructions between leaders and followers.This study extends previous ON studies to other organizational factors,including leadership style,organizational atmosphere,and job performance.In the future,an empirical study will be conducted to guide the practical applications of ON.
文摘<span style="font-family:Verdana;">Background and Purpose: Plantar Fasciitis (PF) is a condition that affects the foot and causes complaints such as pain and stiffness. The most common symptom of this condition is pain. There are many treatment options to deal with this condition, such as conservative therapy, medications</span><span style="font-family:Verdana;">,</span><span style="font-family:Verdana;"> and surgical interventions in rare cases. This case study aims to investigate the potential impact of pain neuroscience education (PNE), combined with a conventional Physical Therapy (PT) program on a 37-year-old-patient with chronic plantar fasciitis. Case description: A 37-year-old male health care professional presented to an outpatient physical therapy clinic with a diagnosis of chronic PF for around two years. The participant had tried several treatment options with no improvement of his symptoms. After undergoing a physical therapy evaluation, he was given a plan of care for twelve sessions by a skilled physical therapist for a six-week period, with each session consisting of 30 minutes of conventional PT, followed by 5 to 15 minutes of PNE. Results: After completing the prescribed plan of care, the patient reported </span><span style="font-family:Verdana;">a </span><span style="font-family:Verdana;">reduction in subjective symptoms via the Visual Analog Scale (VAS). He also reported improvement with symptoms and functional independence via the Foot Function Index (FFI). The patient reported no change in </span><span style="font-family:Verdana;">the </span><span style="font-family:Verdana;">quality of sleep via Pittsburg Sleep Quality Index (PSQI). Lastly, he demonstrated no objective improvement in foot pressure with the Navicular Drop Test. Discussion: This case report indicates that PNE, combined with conventional PT for PF can have a positive impact on subjective pain and foot function. PNE should involve many topics about the physiology of pain and the nervous system and should be administered by a certified therapeutic pain specialist. Further studies are recommended to investigate the impact of this intervention in combination with traditional PT for PF in larger populations.</span>
文摘The human nucleus accumbens(NA), a major part of the ventral striatum, is the area of continuity between the putamen and head of the caudate nucleus. It consists of two parts, a shell laterally and a core medially. The first is mainly connected to the limbic system and the second to the extrapyramidal motor system. The NA, a major pleasure center of the human brain, acts as a limbic-motor interface and is involved in several cognitive, emotional and psychomotor functions. It has a modulating function in the amygdala-basal gangliaprefrontal cortex circuit. It is considered as the neural interface between motivation and action. Further, it is a principal modulator of the reward circuits and supplies motor expression to emotional responses. Such a clinical significance could easily explain the intense work taking place in the respective field of basic research. Its exceptional clinical importance justifies the title of the "King of Neurosciences" for this nucleus. Purpose of this editorial is to review the "informational paths" left behind by the few researchers who tried to explore the architecture(gross anatomy) of this ‘kingdom'. The first anatomical study focused on this nucleus came from Neto et al. The most extensive study of the NA gross, imaging, stereotactic and neurosurgical anatomy so far,came from the research efforts of Mavridis et al.
文摘"The 16^th Chinese Society of Neuroscience & Psychiatry (CSNP)National Academic Conference", sponsored by Chinese Society of Neuroscience & Psychiatry, co-sp on sored by Shanghai Mentai Health Center Affiliated to Shanghai Jiao Tong Un iversity School of Medicine,Harbin First Specialized Hospital, will be held on June 27-29, 2019 at Rong Chuang Wanda Vista Hotel, Harbin. The conference will bring communication of the latest advances of mental disorders through keynote talks, forums, symposiums, oral reports, and poster presentations.
