Harender Kumar | Neuroscience | Best Researcher Award

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Dr. Harender Kumar | Neuroscience | Best Researcher AwardĀ šŸ†

Research Scholar at Panjab University Chandigarh, India.

Harender Kumar, a Research Scholar at Panjab University, Chandigarh, specializes in behavioral neuroscience. His work primarily focuses on investigating the relationship between diet, gut health, and stress resilience using zebrafish as a model organism. Kumar has published three notable journal articles in SCI/Scopus-indexed journals, with impactful contributions to neuroscience and chemistry. His research demonstrates a promising ability to bridge fundamental science with potential real-world applications.

Profile

Scopus

Education šŸŽ“:

Harender Kumar is pursuing his Ph.D. at Panjab University, Chandigarh, focusing on behavioral neuroscience. His academic journey reflects his dedication to understanding the complex interplay between biological systems and mental health. Harender’s educational background has provided a strong foundation in neuroscience, biology, and chemistry, enabling him to engage in cutting-edge research. At Panjab University, he has honed his expertise in experimental design, data analysis, and interdisciplinary collaboration, contributing significantly to his academic and professional growth. Through his education, Harender has developed a keen interest in the gut-brain axis, stress mechanisms, and the therapeutic potential of dietary interventions, preparing him for a promising career in research and innovation.

Work Experience šŸ’¼:

Harender Kumar has significant experience in behavioral neuroscience research, with a focus on gut-brain interactions and stress resilience. As a Research Scholar at Panjab University, he has conducted innovative studies using zebrafish models, exploring how dietary components influence mental health. Harender has collaborated with experts in chemistry to address diverse scientific challenges, such as detecting chemical agents and understanding synaptic remodeling. His hands-on expertise includes experimental planning, animal model studies, and data interpretation, which have resulted in publications in SCI/Scopus-indexed journals. Harender’s multidisciplinary experience reflects his ability to navigate complex scientific questions and contribute meaningfully to neuroscience and beyond.

Awards and Honors

Though specific awards and honors are not mentioned in the profile, Harender Kumarā€™s accomplishments in publishing high-quality research in reputable journals demonstrate academic recognition. His work has contributed to advancing behavioral neuroscience and interdisciplinary science. Securing awards such as research grants, best paper accolades, or conference presentations would further highlight his achievements and scholarly impact.

Research Interests:

Harender Kumar’s research centers on behavioral neuroscience, with an emphasis on understanding the gut-brain axis and its role in stress resilience. Using zebrafish as a model organism, he investigates the link between dietary factors and mental well-being, providing insights into potential therapeutic strategies. His multidisciplinary work integrates neuroscience, physiology, and chemistry, addressing critical issues such as synaptic remodeling and the stress-resilient effects of dietary interventions. Harenderā€™s innovative approach has contributed to a deeper understanding of mental health challenges and opened avenues for novel dietary strategies to enhance emotional resilience.

šŸ“š PublicationsĀ 

Stress-resilient Effect of Spirulina platensis on Zebrafish Chronic Unpredictable Stress Model

Authors: Kumar, H., Kaur, K., Kaur, R.

Journal: Physiology & Behavior

Year: 2024

Citations: 0

Role of Spirulina in Structural Remodeling of Synapse in Telencephalon of Chronic Unpredictable Stress Model of Zebrafish

Authors: Kumar, H., Garg, V., Kaur, K., Kaur, R.

Journal: Annals of Neurosciences

Year: 2023

Citations: 0

Synthesis of a Trinuclear Zinc(II) Cluster Composed of [4.4.3.01,5]Tridecane Cages: A Rapid Detection and Degradation Probe for the Chemical Warfare Agent Simulant Diethyl Cyanophosphonate in Protein-rich Food Products

Authors: Thakur, S., Rohilla, J., Kumar, K., Kumar, H., Singh, R., Kaur, V., Kamboj, R.

Journal: Analyst

Year: 2023

Citations: 4

ConclusionĀ 

Harender Kumar exhibits strong potential as a researcher in behavioral neuroscience, with impactful publications and an innovative focus on the gut-brain axis. While his current portfolio demonstrates high-quality research and interdisciplinary collaboration, there is room to enhance his profile by securing funded projects, expanding his professional engagement, and increasing the impact of his work through broader dissemination and applications. Overall, Harender is a commendable candidate for the Best Researcher Award, particularly for early-career recognition.

 

 

Amir Hossein Zarifkar | Neuroscience | Best Researcher Award

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Assist. Prof. Dr. Amir Hossein Zarifkar | Neuroscience | Best Researcher Award šŸ†

Faculty member at Larestan University of Medical Sciences, Iran.

Dr. Amir Hossein Zarifkar is a dedicated researcher in the field of neurophysiology, specializing in Alzheimer’s disease models, memory impairment, and the effects of transcranial electrical stimulation. He holds a Ph.D. in Physiology, and his expertise includes stereotaxic surgery, cognitive testing, and advanced biochemical and histological techniques. His research contributions are evidenced by peer-reviewed publications, prestigious awards, and active participation in scientific conferences. As a teacher, he has guided students across multiple disciplines in physiology, further demonstrating his commitment to academia.

Profile

Scopus

Google Scholar

Education šŸŽ“:

Dr. Zarifkarā€™s academic journey began with a B.Sc. in Biology from Shiraz University, Iran (2010), where he laid the foundation for his passion in life sciences. He pursued his M.Sc. in Physiology at Ahvaz University of Medical Sciences (2014), conducting a thesis on the protective effects of agmatine in memory impairment models. Building upon this expertise, Dr. Zarifkar earned a Ph.D. in Physiology from Shiraz University of Medical Sciences (2019). His doctoral research, titled ā€œInvestigating the effect of transcranial electrical stimulation (tES) paradigms on beta-amyloid-induced memory impairment and hippocampal CA1 structural changes in male rats,ā€ received critical acclaim for its innovative approach to addressing Alzheimer’s disease. Throughout his education, Dr. Zarifkar consistently ranked among the top of his cohort, achieving first rank in the national Ph.D. entrance exam and being honored as a top student at Shiraz University of Medical Sciences.

Work Experience šŸ’¼:

Dr. Zarifkar has over a decade of experience in teaching, research, and experimental neurophysiology. As an educator, he delivers comprehensive courses in nervous system, kidney, gastrointestinal, and endocrine physiology to students in medicine, dentistry, pharmacy, and nursing. His hands-on laboratory sessions emphasize practical applications of physiology, fostering a deeper understanding among students. On the research front, Dr. Zarifkar specializes in Alzheimerā€™s disease, memory impairment, and innovative therapeutic approaches, utilizing advanced methodologies such as transcranial electrical stimulation, immunohistochemistry, and stereotaxic surgery. His expertise extends to conducting behavioral and cognitive experiments in animal models. Dr. Zarifkarā€™s findings have been presented at national and international conferences, enhancing the global understanding of neurodegenerative diseases. As a member of Iranā€™s National Elites Foundation, he actively contributes to academic and research communities, solidifying his role as a leader in the field of neurophysiology.

Awards and Honors šŸ†

Dr. Zarifkar has received multiple awards and recognitions for his academic excellence and contributions to neuroscience. Notably, he ranked first in the national Ph.D. entrance exam in Physiology, demonstrating his exceptional knowledge in the field. During his M.Sc. and Ph.D. studies, he was honored as a top student at Shiraz University of Medical Sciences. His groundbreaking research on Alzheimerā€™s disease earned him accolades at national and international scientific conferences. Dr. Zarifkar is also a proud member of Iranā€™s National Elites Foundation, a prestigious acknowledgment of his academic and research achievements. His dedication to teaching and mentoring has further earned him the respect and admiration of his peers and students alike. These honors reflect Dr. Zarifkarā€™s unwavering commitment to advancing the field of physiology and contributing to the understanding and treatment of neurodegenerative disorders.

Research Interests:

Dr. Zarifkarā€™s research centers on understanding the mechanisms underlying neurodegenerative diseases, particularly Alzheimerā€™s disease, and developing innovative therapeutic strategies. His Ph.D. work investigated the effects of transcranial electrical stimulation (tES) on memory impairment and structural changes in the hippocampus, providing insights into non-invasive treatments for Alzheimerā€™s. Dr. Zarifkarā€™s expertise extends to studying the impact of neuroprotective agents like agmatine on cognitive functions and neural plasticity. He employs advanced methodologies, including behavioral and cognitive assessments in animal models, immunohistochemistry, Western blot analysis, and stereotaxic surgery, to unravel the complexities of memory impairment. His findings contribute to a better understanding of the pathophysiology of neurodegenerative disorders and pave the way for potential clinical applications. By bridging experimental neuroscience with translational research, Dr. Zarifkar aims to develop effective interventions for enhancing cognitive health and mitigating the effects of aging-related neurological conditions.

šŸ“š PublicationsĀ 

Agmatine protects against intracerebroventricular streptozotocin-induced water maze memory deficit, hippocampal apoptosis, and Akt/GSK3Ī² signaling disruption

Authors: M. Moosavi, A.H. Zarifkar, Y. Farbood, M. Dianat, A. Sarkaki, R. Ghasemi

Citations: 46

Year: 2014

Treatment with edaravone improves the structure and functional changes in the hippocampus after chronic cerebral hypoperfusion in rats

Authors: G.H. Meftahi, M. Bayat, A.H. Zarifkar, S. Akbari, A.B. Haghighi, M. Naseh

Citations: 18

Year: 2021

Ameliorative effects of different transcranial electrical stimulation paradigms on the novel object recognition task in a rat model of Alzheimer disease

Authors: A.H. Zarifkar, A. Zarifkar, M. Nami, A. Rafati, H. Aligholi, F. Vafaee

Citations: 12

Year: 2019

Effect of recombinant insulin-like growth factor-2 injected into the hippocampus on memory impairment following hippocampal intracerebral hemorrhage in rats

Authors: F. Vafaee, A. Zarifkar, M. Emamghoreishi, M.R. Namavar, M. Shahpari

Citations: 10

Year: 2018

Interactive Effects of Swimming High-Intensity Interval Training and Resveratrol Supplementation Improve Mitochondrial Protein Levels in the Hippocampus of Aged Rats

Authors: M. Amirazodi, F. Daryanoosh, A. Mehrabi, A. Gaeini, M. Koushkie Jahromi

Citations: 6

Year: 2022

The Comparison of the Effects of Different Transcranial Electrical Stimulation (tES) Paradigms on Beta-Amyloid (AĪ² 25ā€“35)-Induced Memory Impairment upon Morris Water Maze Task

Authors: A.H. Zarifkar, A. Zarifkar, M. Nami, A. Rafati, H. Aligholi

Citations: 5

Year: 2018

Different paradigms of transcranial electrical stimulation improve motor function impairment and striatum tissue injuries in the collagenase-induced intracerebral hemorrhage model

Authors: A.R. Heidarzadegan, A. Zarifkar, N. Sotoudeh, M.R. Namavar, A.H. Zarifkar

Citations: 4

Year: 2022

The protective effect of agmatine against intracerebroventricular streptozotocin-induced memory impairment in male rats

Authors: Y. Farbood, A.H. Zarifkar, M. Dianat, A. Sarkaki, M. Moosavi

Citations: 1

Year: 2014

Resistance Training and Resveratrol Supplementation Improve Cancer Cachexia and Tumor Volume in Muscle Tissue of Male Mice Bearing Colon Cancer CT26 Cell Tumors

Authors: M. Samadi, F. Daryanoosh, Z. Mojtahedi, A. Samsamy Pour, H. Nobari

Citations: Not yet cited

Year: 2024

Alterations in FoxO3a, NF-ĪŗB, and MuRF1 Expression in the Soleus Muscle of Male Rats Following High-Intensity Interval Training and Detraining

Authors: S. Sheibani, F. Daryanoosh, A.H. Zarifkar

Citations: Not yet cited

Year: 2024

Different paradigms of transcranial electrical stimulation induce structural changes in the CA1 region of the hippocampus in a rat model of Alzheimerā€™s disease

Authors: A.H. Zarifkar, A. Zarifkar, S. Safaei

Citations: Not yet cited

Year: 2024

P62: Agmatine Protects Against Intracerebroventricular Streptozotocin-Induced Water Maze Memory Deficit, Hippocampal Apoptosis and Akt/GSK3Ī² Signaling Disruption

Authors: M. Moosavi, A.H. Zarifkar, Y. Farbood, M. Dianat, A. Sarkaki, R. Ghasemi

Citations: Not listed

Year: 2018

ConclusionĀ 

Dr. Amir Hossein Zarifkar demonstrates an exceptional commitment to advancing neurophysiology research and teaching. His strengths, including rigorous experimental skills, teaching proficiency, and recognized achievements, position him as a strong candidate for a Best Researcher Award. Addressing areas like international visibility, grant acquisition, and translational focus could further strengthen his profile. Overall, his impactful contributions to Alzheimer’s research and academic excellence make him a deserving nominee.

 

 

Prof. LindaChao | cognitive neuroscience | Best Researcher Award

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Prof. LindaChao | cognitive neuroscience | Best Researcher Award šŸ†

Professor/Research Career Scientist at UCSF/San Francisco VA Health Care SystemšŸŽ“

Dr. Linda L. Chao is a highly respected neuroscientist whose journey began with a B.S. in Biological Sciences and a Ph.D. in Neuroscience from UC Davis. Following her postdoctoral training as a Cognitive Neuroscience Fellow at the National Institute of Mental Health, Dr. Chao joined UCSF, where she is now a Professor in Radiology, Psychiatry, and Behavioral Sciences. She also contributes significantly to veteran health research at the San Francisco VA Medical Center. Renowned for her expertise in cognitive neuroscience and neuroimaging, Dr. Chao employs advanced MRI, PET, and fMRI techniques to study neurodegenerative diseases, Gulf War Illness, and PTSD. Her groundbreaking work in non-pharmacological therapies for Alzheimerā€™s and trauma-related conditions has earned her prestigious awards, including the UC Davis Graduate Research Award and the NIMH Fellows Award for Research Excellence. As an active member of key neuroscience organizations and a dedicated mentor, Dr. Chao is a vital figure in advancing mental health research and neuroimaging innovations.

Professional ProfileĀ 

Education šŸŽ“:

Dr. Linda L. Chao earned her B.S. in Biological Sciences (1987-1991) and a Ph.D. in Neuroscience (1991-1996) from the University of California, Davis. Her dedication to understanding the brain and its functions began here, paving the way for her groundbreaking work in neuroscience and cognitive research.

 

Work Experience šŸ’¼:

Dr. Chao’s career reflects a strong commitment to advancing mental health research. Her postdoctoral training took place at the National Institute of Mental Health (NIMH) as a Cognitive Neuroscience Fellow (1996-2000). She joined the University of California, San Francisco (UCSF) as an Assistant Professor in Radiology and Psychiatry in 2001, advancing to Associate Professor and later Professor in the departments of Radiology & Biomedical Imaging, Psychiatry, and Behavioral Sciences. She also holds a significant role with the San Francisco VA Medical Center, where she contributes to research safety and promotes veteran health.

 

Skills šŸ”

Dr. Chao is highly skilled in cognitive neuroscience, neuroimaging, and radiology. She has expertise in analyzing brain health through MRI, PET, and fMRI imaging techniques. Her experience extends to research safety, clinical trials, and therapeutic interventions for neurodegenerative diseases and Gulf War Illness. Her innovative skills in cognitive and neuroimaging research support her work in developing non-pharmacological interventions for conditions like PTSD and Alzheimerā€™s.

 

Awards and Honors šŸ†

Dr. Chaoā€™s research excellence is recognized with numerous awards, including the University of California, Davis Graduate Research Award (1994) and the Fellows Award for Research Excellence from the National Institute of Mental Health (1999). These honors underscore her significant contributions to cognitive neuroscience and clinical research.

 

šŸ¤ Memberships:

Dr. Chao is actively involved in multiple professional organizations, including the Society for Neuroscience (SFN), Cognitive Neuroscience Society (CNS), and the International Society to Advance Alzheimerā€™s Research and Treatment (ISAART). Her memberships reflect her dedication to staying at the forefront of neuroscience, cognitive health, and clinical research.

Teaching Experience šŸ‘©ā€šŸ«:

With a passion for mentoring, Dr. Chao has taught at UCSF’s School of Medicine, facilitating courses on brain, mind, and behavior. She has lectured on clinical fMRI applications and led seminars on neuroimaging. Her role as a mentor has influenced many students and researchers in radiology, psychology, and psychiatry, shaping the future of neuroscience.

 

Research Focus šŸ”¬:

Dr. Chao’s research primarily explores cognitive function, neurodegenerative diseases, and neuroimaging in veterans. Her work on Gulf War Illness and the effects of sarin exposure highlights her commitment to understanding trauma impacts on the brain. Additionally, she investigates photobiomodulation therapies, non-pharmacological dementia treatments, and PTSD interventions. Her recent studies reveal the complex interactions between genetic factors and environmental exposures affecting brain health.

ConclusionĀ 

Dr. Linda L. Chao is a deserving candidate for the Best Researcher Award. Her remarkable contributions to cognitive neuroscience, dedication to mentoring, and commitment to understanding the brain’s response to trauma and neurotoxic exposure make her a vital asset to the field. With her current momentum and slight expansion in her researchā€™s reach and collaboration, Dr. Chao is well-positioned to continue making substantial, globally impactful advancements in neuroscience.

šŸ“š PublilcationĀ 

  • Topic: Implementing a new multidisciplinary, remote, dementia staff training program for Veterans Affairs nursing homes
    • Year: 2024
    • Journal: BMC Health Services Research
  • Topic: Olfactory and cognitive decrements in 1991 Gulf War veterans with Gulf War illness/chronic multisymptom illness
    • Year: 2024
    • Journal: Environmental Health: A Global Access Science Source
  • Topic: Current health status of Gulf War deployed and Gulf War era veterans who use Veterans Affairs health care
    • Year: 2024
    • Journal: Journal of Women’s Health
  • Topic: PON1 status in relation to Gulf War Illness: Evidence of geneā€“exposure interactions from a multisite caseā€“control study of 1990ā€“1991 Gulf War veterans
    • Year: 2024
    • Journal: International Journal of Environmental Research and Public Health
  • Topic: Gulf War illness is associated with host gut microbiome dysbiosis and is linked to altered species abundance in veterans from the BBRAIN cohort
    • Year: 2024
    • Journal: International Journal of Environmental Research and Public Health
  • Topic: Livestream, group movement program for people living with cognitive impairment and care partners: A randomized clinical trial
    • Year: 2024
    • Journal: Alzheimer’s and Dementia: Translational Research and Clinical Interventions
  • Topic: Characterizing 1991 Gulf War women veterans from the Boston Biorepository and Integrative Network for Gulf War Illness: Demographics, exposures, neuroimaging, and cognitive outcomes
    • Year: 2024
    • Journal: Clinical Neuropsychologist
  • Topic: Cognitive decrements in 1991 Gulf War veterans: Associations with Gulf War illness and neurotoxicant exposures in the Boston Biorepository, Recruitment, and Integrative Network (BBRAIN) cohorts
    • Year: 2023
    • Journal: Environmental Health: A Global Access Science Source

 

Dr Alexandros Kanellopoulos | Neuroscience | Best Researcher Award

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Dr Alexandros Kanellopoulos Neuroscience | Best ResearcherAwardĀ  šŸ†

Principal Scientist of Cognitive Health atĀ DSM-Firmenich, RD Innovation
SwitzerlandšŸŽ“

Alexandros Kanellopoulos is a seasoned Innovation Leader, Principal Scientist, and Clinical Director with over 20 years of expertise in Neuroscience, Metabolism, Early Life Nutrition (ELN), and Medical Nutrition. He has successfully led multidisciplinary teams, pioneered product innovations, and authored more than 20 high-impact publications. With 7 patents to his name, Alexandros excels in transforming scientific research into tangible solutions that meet market needs.

Professional ProfileĀ 

Education

Alexandros Kanellopoulos holds a Ph.D. in Neuroscience from Kapodistrian University, Greece (2008-2013), where his research focused on neurodevelopmental disorders. Prior to this, he completed his M.Sc. in Molecular Medicine (Neuroscience) at the same university (2005-2007), gaining advanced expertise in neuroscience and molecular biology. His academic foundation was established with a B.Sc. in Molecular Biology and Genetics from Dimocritus University of Thrace, Greece (2000-2005), where he developed a strong background in genetics and molecular biology.

Work Experience

In his current role as Global Principal Scientist & Clinical Director at DSM-Firmenich (2023-Present), Alexandros oversees scientific activities, driving innovation in dietary supplements and medical nutrition. Prior to this, he worked as an R&D Innovation Scientist and Project Manager at Nestle SA (2022-2023), leading the development of brain health products for Early Life Nutrition. In 2023, he also held the position of Medical, Scientific & Regulatory Affairs Manager at Nestle Nutrition, focusing on market communication and regulatory compliance. Alexandros previously served as Group Leader, Early Life Brain Metabolism at the University of Lausanne (2020-2022) and as Senior Scientist in Early Life Neuroscience (2016-2020), where he pioneered research in neurodevelopmental disorders.

SkillsĀ 

Alexandros is highly skilled in Innovation & Product Development, leading projects from concept to market. He is an expert in Clinical Research & Protocol Design, managing complex preclinical and clinical trials. His ability to lead multidisciplinary teams and drive Cross-functional Collaboration is complemented by his talent for Stakeholder Engagement & Market Alignment, ensuring alignment between research innovations and market needs. His Strategic Thinking, Problem-solving, and Emotional Intelligence are key to his success in high-impact research and business projects.

Awards & Honors

Throughout his career, Alexandros has earned more than 15 research awards, securing CHF 2.5 million in research funding. He has been awarded 7 patents as an inventor, reflecting his contributions to innovation in neuroscience and nutrition. In addition, he has delivered over 40 invited presentations at international conferences, establishing himself as a respected thought leader in his field.

Ā MembershipĀ 

Alexandros contributes to the scientific community as a Reviewer for leading neuroscience journals and serves as an Editor in scientific publications, ensuring the dissemination of high-quality research.

Teaching Experience

Alexandros is also an experienced educator, having delivered lectures in Neuroscience and Medical Sciences at the University of Lausanne and Kapodistrian University, Athens. In his academic roles, he has mentored over 20 junior scientists, fostering the next generation of researchers and innovators.

Research Focus

Alexandros’ research centers on Early Life Nutrition and its role in brain development. He is particularly focused on Neurodevelopmental Disorders such as Autism and Fragile X Syndrome. His work on Brain Energy Metabolism and Mitochondrial Function provides insights into neurotransmission and social behavior. Alexandros has also designed Preclinical and Clinical Research aimed at developing nutritional solutions to address these complex medical challenges.

Publications :Ā 

  • Activation of the 5-HT1A Receptor by Eltoprazine Restores Mitochondrial and Motor Deficits in a Drosophila Model of Fragile X Syndrome
    šŸ§  International Journal of Molecular Sciences ā€“ 2024
    DOI: 10.3390/ijms25168787
  • Aralar Sequesters GABA into Hyperactive Mitochondria, Causing Social Behavior Deficits
    šŸ§¬ Cell ā€“ 2020
    DOI: 10.1016/j.cell.2020.02.044
  • Conserved Tao Kinase Activity Regulates Dendritic Arborization, Cytoskeletal Dynamics, and Sensory Function in Drosophila
    šŸ”¬ The Journal of Neuroscience ā€“ 2020
    DOI: 10.1523/jneurosci.1846-19.2020
  • Domain-Specific Cognitive Impairments in Humans and Flies With Reduced CYFIP1 Dosage
    šŸ§© Biological Psychiatry ā€“ 2019
    DOI: 10.1016/j.biopsych.2019.04.008
  • SynGO: An Evidence-Based, Expert-Curated Knowledge Base for the Synapse
    šŸ§  Neuron ā€“ 2019
    DOI: 10.1016/j.neuron.2019.05.002
  • Mitochondrial Dysfunction in Autism Spectrum Disorder: Clinical Features and Perspectives
    šŸ§  Current Opinion in Neurobiology ā€“ 2017
    DOI: 10.1016/j.conb.2017.05.018
  • Autism Spectrum Disorders: Translating Human Deficits into Mouse Behavior
    šŸ Neurobiology of Learning and Memory ā€“ 2015
    DOI: 10.1016/j.nlm.2015.07.013
  • Learning and Behavioral Deficits Associated with the Absence of the Fragile X Mental Retardation Protein: What a Fly and Mouse Model Can Teach Us
    šŸ§  Learning & Memory (Cold Spring Harbor, N.Y.) ā€“ 2014
    DOI: 10.1101/lm.035956.114
  • Learning and Memory Deficits Resulting from Reduction of the Fragile X Mental Retardation Protein: A Metabotropic Glutamate Receptor-Mediated Inhibition of cAMP Signaling in Drosophila
    šŸ§  The Journal of Neuroscience ā€“ 2012
    DOI: 10.1523/JNEUROSCI.1347-12.2012
  • Selective Serotonin Reuptake Inhibitors for the Treatment of Hypersensitive Esophagus: A Randomized, Double-blind, Placebo-controlled Study
    šŸ’Š The American Journal of Gastroenterology ā€“ 2011
    DOI: 10.1038/ajg.2011.179

Lianyan Huang | Neuroscience | Best Researcher Award

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Ā Prof Lianyan Huang | Neuroscience | Best Researcher Award

professor / Ph.D. advisor at Sun-yat sen university Guangzhou, China

Dr. Lianyan Huang is a professor at Zhongshan School of Medicine, Sun Yat-sen University, with expertise in neuroscience. She completed her postdoctoral training at NYU and has received numerous honors, including the Guangdong Provincial Award. Her research focuses on neural coding mechanisms and neurological disorders, with key findings published in top journals. šŸ§ šŸ“ššŸ†

professional profile :

Awards and Honors

10th SCBA Meeting Scholarship (2004) šŸ…Excellent Postgraduate Scholarships of Guangdong Province (2006, 2009) šŸŽ“Academician Scholarship of Southern Medical University (2006) šŸ†Guangdong Provincial Award for Outstanding Young and Middle-Aged Clinical Medical Teachers (2023) šŸ†

Professional Work Experience

Professor and Ph.D. Advisor, Zhongshan School of Medicine, Sun Yat-sen University (2017-present) šŸ‘©ā€šŸ«Postdoctoral Fellow, NYU School of Medicine (2012-2017) šŸ§ Faculty and Lecturer, Southern Medical University (2008-2011) šŸ‘©ā€šŸ«Graduate Research Assistant, The First Military Medical University (2003-2006) šŸ‘©ā€šŸ”¬

Skills

Neuroscience Research šŸ§ Clinical Medicine šŸ©ŗCell Biology šŸ”¬Teaching and Advising šŸŽ“Leadership in Professional Committees šŸ‘©ā€šŸ«

Other Experience and Professional Memberships

  • 2006-present: Member, Society for Neuroscience of China šŸ§ šŸ”¬

publication:

Pain experience reduces social avoidance to others in pain: a c-Fos-based functional connectivity network study in mice

šŸ“… 2024 šŸ“° Cerebral Cortex šŸ§ 

Authors: Li, J., Qin, Y., Zhong, Z., Huang, L., Li, B.

Sexually dimorphic control of affective state processing and empathic behaviors

šŸ“… 2024 šŸ“° Neuron šŸ§ 

Authors: Fang, S., Luo, Z., Wei, Z., Huang, L., Li, B.

An insular cortical circuit required for itch sensation and aversion

šŸ“… 2024 šŸ“° Current Biology šŸ§¬

Authors: Zheng, J., Zhang, X.M., Tang, W., Huang, L., Li, B.

EF1Ī±-associated protein complexes affect dendritic spine plasticity by regulating microglial phagocytosis in Fmr1 knock-out mice

šŸ“… 2024 šŸ“° Molecular Psychiatry šŸ§ 

Authors: Su, P., Yan, S., Chen, K., Yang, G., Liu, F.

Differences in the neural basis and transcriptomic patterns in acute and persistent pain-related anxiety-like behaviors

šŸ“… 2023 šŸ“° Frontiers in Molecular Neuroscience šŸ§¬

Authors: Fang, S., Qin, Y., Yang, S., Li, B., Huang, L.

Distinct behavioral traits and associated brain regions in mouse models for obsessiveā€“compulsive disorder

šŸ“… 2021 šŸ“° Behavioral and Brain Functions šŸ§ 

Authors: Chen, X., Yue, J., Luo, Y., Li, B., Wen, S.

Enriched Environment Prevents Surgery-Induced Persistent Neural Inhibition and Cognitive Dysfunction

šŸ“… 2021 šŸ“° Frontiers in Aging Neuroscience šŸ§¬

Authors: Yang, S., Zhang, S., Tang, W., Huang, L., Li, B.

BDNF produced by cerebral microglia promotes cortical plasticity and pain hypersensitivity after peripheral nerve injury

šŸ“… 2021 šŸ“° PLoS Biology šŸ”¬

Authors: Huangi, L., Jin, J., Chen, K., Gan, W.-B., Yang, G.

Learning-dependent dendritic spine plasticity is impaired in spontaneous autoimmune encephalomyelitis

šŸ“… 2021 šŸ“° Developmental Neurobiology šŸ§ 

Authors: Huang, L., Lafaille, J.J., Yang, G.

Learning-Dependent Dendritic Spine Plasticity Is Reduced in the Aged Mouse Cortex

šŸ“… 2020 šŸ“° Frontiers in Neural Circuits šŸ§¬

Authors: Huang, L., Zhou, H., Chen, K., Chen, X., Yang, G.