Carmen Vivar | Neuroscience | Best Researcher Award

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Dr. Carmen Vivar | Neuroscience | Best Researcher Award

 Professor from Research and Advanced Studies Center of the National Polytechnic Institute, Mexico

Dr. Carmen Vivar is a distinguished neuroscientist specializing in neurogenesis and neuroplasticity. She is currently a professor at the Center for Research and Advanced Studies (CINVESTAV) of the National Polytechnic Institute in Mexico City. Dr. Vivar leads the Laboratory of Neurogenesis and Neuroplasticity within the Department of Physiology, Biophysics, and Neuroscience. Her research primarily focuses on the effects of physical activity on brain function, particularly how exercise influences neurogenesis and cognitive processes. Dr. Vivar has an extensive publication record, contributing significantly to the understanding of hippocampal function and its role in learning and memory. Her work has been widely cited, reflecting her impact on the field of neuroscience.

Professional Profile

Education

Dr. Vivar earned her Ph.D. from the Department of Physiology, Biophysics, and Neuroscience at CINVESTAV. During her doctoral studies, she focused on the electrophysiological properties of hippocampal neurons and their role in synaptic plasticity. Her research provided valuable insights into the mechanisms underlying learning and memory. This strong foundation in cellular neuroscience has been instrumental in shaping her subsequent research endeavors.

Professional Experience

Following her Ph.D., Dr. Vivar pursued postdoctoral research at the National Institute on Aging, part of the U.S. National Institutes of Health in Baltimore, Maryland. There, she investigated the impact of aging on neurogenesis and cognitive function. She also served as a guest researcher at the Skirball Institute of Biomolecular Medicine’s Kimmel Center for Biology and Medicine at New York University, where she studied the molecular mechanisms of synaptic plasticity. Dr. Vivar’s international experience has enriched her research perspective and collaborations.

Research Interests

Dr. Vivar’s research interests encompass adult neurogenesis, synaptic plasticity, and the effects of physical exercise on brain function. She is particularly interested in how voluntary physical activity enhances hippocampal neurogenesis and improves cognitive functions such as learning and memory. Her studies aim to bridge the gap between animal models and human applications, providing insights into potential therapeutic strategies for neurodegenerative diseases and age-related cognitive decline.

Research Skills

Dr. Vivar possesses expertise in electrophysiology, neurophysiology, and cellular neuroscience. She is skilled in techniques such as in vivo and in vitro electrophysiological recordings, immunohistochemistry, and behavioral assessments related to learning and memory. Her proficiency in these methodologies enables her to investigate the intricate relationships between neuronal activity, synaptic plasticity, and behavior.

Awards and Honors

Throughout her career, Dr. Vivar has received recognition for her contributions to neuroscience. Her research has garnered significant citations, reflecting its impact on the scientific community. Additionally, she has been invited to speak at various international conferences and seminars, highlighting her expertise in the field. Her role as a guest speaker at events such as the Florida Atlantic Neuroscience Seminar Series underscores her standing in the scientific community.

Conclusion

Dr. Carmen Vivar’s dedication to understanding the mechanisms of neurogenesis and neuroplasticity has significantly advanced the field of neuroscience. Her research on the interplay between physical activity and brain function offers promising avenues for therapeutic interventions in neurodegenerative diseases and cognitive aging. Through her extensive experience and expertise, Dr. Vivar continues to contribute to the scientific community’s understanding of the brain’s capacity for adaptation and regeneration.

Publications Top Notes​

  1. Title: Running Reverses Chronic Stress‐Induced Changes in Serotonergic Modulation of Hippocampal Granule Cells and Altered Behavioural Responses
    Authors: Carmen Soto, Lazaro P. Orihuela, Grego Apostol, Carmen Vivar
    Year: 2025

  2. Title: Entorhinal cortex–hippocampal circuit connectivity in health and disease
    Authors: Melissa Hernández-Frausto, Carmen Vivar
    Year: 2024

  3. Title: Running throughout Middle-Age Keeps Old Adult-Born Neurons Wired
    Authors: Carmen Vivar, Benjamin D. Peterson, Alejandro Pinto, Emma Janke, Henriette van Praag
    Year: 2023

  4. Title: Rabies Virus Tracing of Monosynaptic Inputs to Adult-Born Granule Cells
    Author: Carmen Vivar
    Year: 2022

  5. Title: Long-term taurine administration improves motor skills in a tubulinopathy rat model by decreasing oxidative stress and promoting myelination
    Author: Carmen Vivar
    Year: 2021

  6. Title: Exercise and Hippocampal Memory Systems
    Authors: Voss, M.W.; Soto, C.; Yoo, S.; Sodoma, M.; Vivar, C.; van Praag, H.
    Year: 2019

  7. Title: Running changes the brain: The long and the short of it
    Authors: Vivar, C.; Van Praag, H.
    Year: 2017

  8. Title: Running reorganizes the circuitry of one-week-old adult-born hippocampal neurons
    Authors: Sah, N.; Peterson, B.D.; Lubejko, S.T.; Vivar, C.; Van Praag, H.
    Year: 2017

  9. Title: Adult hippocampal neurogenesis, aging and neurodegenerative diseases: Possible strategies to prevent cognitive impairment
    Author: Vivar, C.
    Year: 2015

  10. Title: Plant-derived flavanol (-)epicatechin mitigates anxiety in association with elevated hippocampal monoamine and BDNF levels, but does not influence pattern separation in mice
    Authors: Stringer, T.P.; Guerrieri, D.; Vivar, C.; Van Praag, H.
    Year: 2015

  11. Title: Running rewires the neuronal network of adult-born dentate granule cells
    Author: Carmen Vivar
    Year: 2015

 






	


	

	






	
	

		


Yashar Sarbaz | Neuroscience | Best Researcher Award
			

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Assoc. Prof. Dr. Yashar Sarbaz | Neuroscience | Best Researcher Award


Full-Time Faculty, ECE department at University of Tabriz, Iran


Dr. Yashar Sarbaz is a distinguished Iranian researcher specializing in biomedical engineering, with a focus on neurodegenerative disease modeling. Born on May 20, 1981, in Tabriz, Iran, he has consistently demonstrated academic excellence and a profound commitment to advancing medical science through interdisciplinary approaches. Dr. Sarbaz’s work integrates bioelectric engineering, control systems, and computational neuroscience, aiming to develop innovative solutions for complex neurological disorders. His extensive research has significantly contributed to the understanding and potential treatment of diseases such as Parkinson’s and Huntington’s.


Professional Profile



Education


Dr. Sarbaz’s academic journey commenced at the University of Tabriz, where he earned his Bachelor of Science in Electronic Engineering in 2002, graduating at the top of his class with a GPA of 17.44/20. He then pursued a Master of Science in Control Engineering at Sharif University of Technology, completing his degree in 2004 with a GPA of 18.19/20 and again ranking first in his class. His master’s thesis focused on modeling Parkinson’s disease and its treatment. In 2011, Dr. Sarbaz obtained his Ph.D. in Bioelectric Engineering from Amirkabir University of Technology. His doctoral research, titled “Modeling Parkinson Disease Using Chaotic Theory,” showcased his ability to apply complex mathematical frameworks to biomedical challenges, reflecting his interdisciplinary expertise.


Professional Experience


Dr. Sarbaz’s professional career began as a teaching assistant in the Department of Electrical Engineering at the University of Tabriz from 1998 to 2002. He continued in this role at Sharif University of Technology between 2002 and 2004, concurrently serving as a research assistant. From 2004 to 2006, he was a member of the academic staff at Sahand University of Technology. In 2005, he contributed as the Vice Scientific Committee Chair for the 12th Iranian Conference on Biomedical Engineering. Following his Ph.D., Dr. Sarbaz held teaching positions at Azad Islamic University and later returned to Sahand University. Since 2012, he has been a faculty member in the Department of Emerging Technologies at the University of Tabriz, where he continues to engage in teaching and research.


Research Interests


Dr. Sarbaz’s research interests are diverse and interdisciplinary, encompassing the modeling and simulation of biological systems, particularly neural diseases. He is proficient in system identification, the design of compensators and controllers, and the development of electronic circuits. His expertise extends to chaos theory, evolutionary and genetic algorithms, neural networks, and optimization techniques. Dr. Sarbaz is also deeply involved in electrophysiology and computational neuroscience, focusing on the design of rehabilitation systems. His work aims to bridge the gap between engineering and medicine, utilizing advanced computational methods to address complex biomedical challenges.


Research Skills


Dr. Sarbaz possesses a robust set of research skills that align with his interdisciplinary interests. He is adept at mathematical modeling and simulation of biological systems, employing system identification techniques to understand and predict system behaviors. His proficiency in designing electronic circuits and control systems is complemented by his application of chaos theory to model complex physiological phenomena. Dr. Sarbaz utilizes evolutionary and genetic algorithms for optimization problems and applies neural network methodologies to interpret complex data patterns. His skills in electrophysiology and computational neuroscience are instrumental in developing innovative rehabilitation systems and advancing the understanding of neural disorders.


Awards and Honors


Throughout his academic and professional career, Dr. Sarbaz has been recognized for his contributions to biomedical engineering and neuroscience. He consistently graduated at the top of his class during his academic pursuits, reflecting his dedication and excellence. His role as Vice Scientific Committee Chair at the 12th Iranian Conference on Biomedical Engineering in 2005 highlights his leadership within the scientific community. While specific awards and honors are not detailed in the provided information, Dr. Sarbaz’s extensive publication record and active participation in academic conferences underscore his respected status in his field.


Conclusion


Dr. Yashar Sarbaz exemplifies a commitment to advancing biomedical engineering through interdisciplinary research and education. His academic excellence, professional experience, and diverse research interests have positioned him as a leading figure in the modeling and treatment of neurodegenerative diseases. Dr. Sarbaz’s work not only contributes to the scientific understanding of complex neurological disorders but also holds promise for developing innovative therapeutic strategies. His dedication to integrating engineering principles with medical research continues to inspire and drive progress in the biomedical field.




Publication Top Notes










    

  1. 

    A robust method for Parkinson’s disease diagnosis: Combining electroencephalography signal features with reconstructed phase space images
    

      

    • Author(s): Farnaz F. Garehdaghi, Yashar Y. Sarbaz
      • 

    • Year: 2025
      • 

    

    2. 

  2. 

    Cortical complexity alterations in motor subtypes of Parkinson’s disease: A surface-based morphometry analysis of fractal dimension
    

      

    • Author(s): Yousef Y. Dehghan, Yashar Y. Sarbaz
      • 

    • Year: 2024
      • 

    

    3. 

  3. 

    The influence of mental calculations on brain regions and heart rates
    

      

    • Author(s): Morteza M. Jafari Malali, Yashar Y. Sarbaz, Sepideh S. Zolfaghari, Armin A. Khodayarlou
      • 

    • Year: 2024
      • 

    • Citations: 1
      • 

    

    4. 

  4. 

    EEG-based classification of Alzheimer’s disease and frontotemporal dementia: a comprehensive analysis of discriminative features
    

      

    • Author(s): Mehran M. Rostamikia, Yashar Y. Sarbaz, Somayeh S. Makouei
      • 

    • Year: 2024
      • 

    • Citations: 2
      • 

    

    5. 

  5. 

    Extracting brain behavior change in patients with migraine by quantitative analysis of electroencephalogram signal of patients compared to healthy people
    

      

    • Author(s): Yashar Y. Sarbaz, Farnaz F. Garehdaghi, Saeed S. Meshgini
      • 

    • Year: 2024
      • 

    

    6. 



 

















	


	

	






	
	

		


Jiangang Duan | Neuroscience | Best Researcher Award
			

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Prof. Jiangang Duan | Neuroscience | Best Researcher Award


Chief Physician at Xuanwu Hospital, Capital Medical University, China










Dr. Jiangang Duan is a distinguished neurologist and researcher at the Department of Emergency and Neurology, Xuanwu Hospital, Capital Medical University, Beijing, China. With over two decades of clinical and academic experience, he specializes in cerebral venous thrombosis (CVT), ischemic stroke, and neuroprotective therapies. His groundbreaking work includes the development of diagnostic imaging techniques, exploration of biomarkers for venous infarcts, and innovative non-drug therapies for ischemic stroke. Dr. Duan is also a dedicated mentor and educator, shaping the next generation of neurologists through his teaching and supervision of postgraduate students. His extensive research has been published in prestigious journals, and he has contributed to the creation of national guidelines for the management of cerebrovascular diseases.


Professional Profile



Education


Dr. Duan holds a Ph.D. and M.D. in Neurology from West China Hospital, Sichuan University (2004–2007), where his dissertation focused on the neuroprotective effects of acupuncture in ischemic stroke models. He earned an M.S. in Human Anatomy and Histoembryology from West China College of Basic and Forensic Medicine (2001–2004), researching ganglioside GM1’s role in neural stem cell differentiation. His academic journey began with a B.S. in Clinical Medicine from Inner Mongolia Medical College (1991–1996), establishing a strong foundation for his future contributions to neuroscience.


Professional Experience


Dr. Duan is an Associate Professor at the Department of Emergency and Neurology, Capital Medical University, Beijing, since 2015. His clinical and research roles involve pioneering treatment strategies for CVT and ischemic strokes. He previously served as a visiting scholar at the Chinese University of Hong Kong (2012–2013), contributing to long-term studies on cardiovascular risks in diabetic patients. Dr. Duan’s work at Xuanwu Hospital includes innovative projects like using DOACs for CVT treatment, evaluating glucocorticoid efficacy, and exploring NF-κB-NLRP3 inflammasome signaling in thrombosis pathogenesis. His efforts have significantly influenced the field of cerebrovascular disease management in China and beyond.


Research Interests


Dr. Duan’s research primarily focuses on the mechanisms and treatments of cerebrovascular disorders, particularly CVT and ischemic strokes. His interests extend to the role of inflammation in thrombosis, novel non-drug therapies for neuroprotection, and the efficacy of anticoagulants like Dabigatran in CVT management. He also investigates biomarkers, such as serum Claudin-5, for predicting venous infarcts and utilizes advanced imaging techniques like MRBTI to evaluate thrombosis stages. His translational research bridges clinical and preclinical studies, aiming to improve diagnostics, treatments, and outcomes for patients with cerebrovascular diseases.


Research Skills


Dr. Duan is proficient in advanced diagnostic imaging methods, including MRBTI, and skilled in conducting both retrospective and prospective studies. He excels in randomized controlled trials, having evaluated the safety and efficacy of anticoagulants and glucocorticoids in cerebrovascular diseases. His expertise in biomarker identification and inflammasome signaling pathways demonstrates his command of molecular and clinical neurology. Additionally, Dr. Duan is adept at statistical analysis, multidisciplinary collaboration, and guideline development, making him a leading figure in cerebrovascular research and clinical practice.


Honors and Awards


Dr. Duan has received numerous accolades, including the prestigious Chinese Medical Science and Technology Award (2019) for his work on non-drug therapies for ischemic stroke. In 2018, he was awarded a fellowship by the European Stroke Research Foundation, where he presented groundbreaking research at the 27th European Stroke Conference in Athens, Greece. He was also recognized with the Outstanding Mentor Management Award in 2021 for his exemplary guidance of postgraduate students. Earlier honors include a scholarship for master’s students at Sichuan University (2002–2003) and recognition for his contributions to cerebrovascular disease management guidelines in China.


Conclusion


Dr. Jiangang Duan is a strong contender for the Best Researcher Award. His robust track record in neurology research, impactful mentorship, and contributions to clinical practice guidelines highlight his expertise and dedication. While there is room to amplify his global impact through high-impact publications and leadership in international projects, his achievements already position him as a distinguished researcher in his field.


Publication Top Notes


    

  1. Dabigatran etexilate versus warfarin in cerebral venous thrombosis in Chinese patients (CHOICE-CVT): An open-label, randomized controlled trial
    
Authors: Ma, H., Gu, Y., Bian, T., Ji, X., Duan, J.
    
Journal: International Journal of Stroke
    
Year: 2024
    
Volume & Pages: 19(6), pp. 635–644
    
Citations: 2
    2. 

  2. Multicenter registry study of cerebral venous thrombosis in China (RETAIN-CH): Rationale and design
    
Authors: Bian, H., Wang, X., Liu, L., Wang, L., Ji, X.
    
Journal: Brain and Behavior
    
Year: 2024
    
Volume & Pages: 14(4), e3353
    3. 

  3. Night shift work was associated with functional outcomes in acute ischemic stroke patients treated with endovascular thrombectomy
    
Authors: Yu, W., Ma, J., Guo, W., Zhao, W., Ji, X.
    
Journal: Heliyon
    
Year: 2024
    
Volume & Pages: 10(4), e25916
    4. 

  4. Predicting Futile Recanalization in Acute Ischemic Stroke Patients Undergoing Endovascular Thrombectomy: The Role of White Blood Cell Count to Mean Platelet Volume Ratio
    
Authors: Yu, W., Jia, M., Guo, W., Song, H., Ji, X.
    
Journal: Current Neurovascular Research
    
Year: 2024
    
Volume & Pages: 21(1), pp. 6–14
    5. 

  5. Severe deep cerebral venous thrombosis associated with ulcerative colitis: one case report | 重 症 脑 深 静 脉 血 栓 形 成 并 溃 疡 性 结 肠 炎 一 例
    
Authors: Wang, J.-B., Gu, Y.-Q., Duan, J.-G.
    
Journal: Chinese Journal of Contemporary Neurology and Neurosurgery
    
Year: 2024
    
Volume & Pages: 24(3), pp. 193–198
    6. 

  6. Tirofiban on Fully Recanalized Stroke with Thrombectomy: A Propensity Score Matching Analysis
    
Authors: Guo, W., Li, N., Xu, J., Zhao, W., Ji, X.
    
Journal: Journal of Clinical Pharmacy and Therapeutics
    
Year: 2024
    
Volume & Pages: Article ID: 1171260
    7. 

  7. Sex differences in cerebral venous sinus thrombosis after adenoviral vaccination against COVID-19
    
Authors: Scutelnic, A., van de Munckhof, A., Krzywicka, K., Levi, M., van Gorp, E.C.M.
    
Journal: European Stroke Journal
    
Year: 2023
    
Volume & Pages: 8(4), pp. 1001–1010
    
Citations: 1
    8. 

  8. Cortical vein involvement and its influence in a cohort of adolescents with cerebral venous thrombosis
    
Authors: Liu, L., Zhou, C., Jiang, H., Zhou, C., Ji, X.
    
Journal: Thrombosis Journal
    
Year: 2023
    
Volume & Pages: 21(1), Article 78
    
Citations: 1
    9. 

  9. Impaired Dynamic Cerebral Autoregulation in Patients With Cerebral Venous Sinus Thrombosis: Evaluation Using Transcranial Doppler and Silent Reading Stimulation
    
Authors: Chen, S., Chen, H., Duan, J., Liu, R., Xing, Y.
    
Journal: Ultrasound in Medicine and Biology
    
Year: 2023
    
Volume & Pages: 49(10), pp. 2221–2226
    10. 

  10. Cerebral venous sinus thrombosis due to vaccine-induced immune thrombotic thrombocytopenia in middle-income countries
    
Authors: van de Munckhof, A., Borhani-Haghighi, A., Aaron, S., Ferro, J.M., Coutinho, J.M.
    
Journal: International Journal of Stroke
    
Year: 2023
    
Volume & Pages: 18(9), pp. 1112–1120
    
Citations: 3
    11. 





 







	


	

	






	
	

		


Zhongqing Sun | Neuroscience | Best Researcher Award
			

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Dr. Zhongqing Sun | Neuroscience | Best Researcher Award


Assistant Researcher at Xijing Hospital, China










Dr. Zhongqing Sun is an accomplished assistant researcher specializing in neurobiology, with a strong focus on neural regeneration and neuroprotection. His academic journey has led him through prestigious institutions such as The University of Hong Kong and Jinan University, contributing significantly to research on neurological diseases like Alzheimer’s, epilepsy, and stroke. As a leader in translational neuroscience, he integrates basic research with clinical applications, employing innovative techniques to explore potential therapies. Dr. Sun’s work combines cutting-edge molecular biology tools, including RNA-seq, live cell imaging, and stem cell therapies, to investigate new treatments for neurodegenerative diseases. His contributions extend through various high-impact publications and collaborative projects. He continues to drive forward research initiatives with the goal of improving the quality of life for patients with neurological conditions.


Professional Profile



Education:


Dr. Zhongqing Sun holds a Ph.D. in Orthopaedics and Traumatology from The University of Hong Kong, where his research focused on neural regeneration and repair. He completed his Master’s degree in Pharmacology at Jinan University, specializing in the regenerative aspects of the central nervous system, and his Bachelor’s degree in Preventive Medicine from Henan University of Chinese Medicine. This extensive educational background laid a solid foundation for his research in the field of neurology and regenerative medicine, particularly in the context of neurological diseases.


Professional Experience:


Dr. Sun’s professional experience spans multiple prestigious institutions. He is currently an Assistant Researcher at Xijing Hospital, The Fourth Military Medical University, where he leads translational research on common neurological diseases, such as Alzheimer’s disease and stroke. Prior to this, he worked as a research assistant at The University of Hong Kong, focusing on neurodegenerative diseases and eye health, specifically Alzheimer’s and glaucoma. Additionally, he gained valuable experience at The Chinese University of Hong Kong, where he investigated pain mechanisms and the role of microglia in neuropathic pain. He has also contributed to research in electrophysiological recording at the Shanghai Institute of Neuroscience.


Research Interests:


Dr. Sun’s primary research interests lie in the neural regeneration and neuroprotection of the central nervous system. His focus includes developing therapeutic strategies for common neurological conditions, such as Alzheimer’s disease, stroke, and epilepsy. He explores a variety of methodologies, including stem cell therapy, electrical stimulation, neuroinflammatory modulation, and the use of traditional Chinese medicine like Goji berries. His work aims to bridge basic neuroscience with clinical applications, particularly in the development of new treatments for neurodegenerative diseases.


Research Skills:


Dr. Sun is proficient in a wide range of advanced research techniques used to study the central nervous system and neurological diseases. His skills include primary cell culture, cell line maintenance, transgenic animal models, behavioral analysis, electrophysiology, immunostaining, and live cell imaging. He is also experienced in high-throughput molecular techniques such as RNA-seq, single-cell sequencing, Western blotting, and PCR. These technical competencies enable him to conduct in-depth studies on neuroprotection and regeneration, laying the groundwork for novel therapeutic approaches to neurological disorders.


Awards and Honors:


Dr. Zhongqing Sun has been recognized for his outstanding contributions to the field of neuroscience. His work on neural regeneration has earned him numerous accolades, including research grants and awards for innovation. He has received funding from prestigious institutions, such as The University of Hong Kong, and has contributed to several high-profile research projects in the field. His publications in top-tier journals like Biomaterials and Neural Regen Res further attest to his scientific leadership and the impact of his research. Additionally, he serves as a peer reviewer for journals, further validating his expertise and recognition within the scientific community.










Conclusion:


Zhongqing Sun has demonstrated exceptional promise and significant contributions to neuroscience, particularly in neurodegenerative diseases. His interdisciplinary approach to neural regeneration and neuroprotection, combined with his leadership in high-impact research projects, positions him as a strong contender for the Best Researcher Award. To strengthen his profile, expanding the clinical and public outreach of his research could further cement his influence in the field. Given his combination of innovative research, leadership, and academic rigor, he is a deserving candidate for the award.


Publication Top Notes:


    

  1. Targeting Microglia in Alzheimer’s Disease: Pathogenesis and Potential Therapeutic Strategies

      

    • Authors: Sun, Z., Zhang, X., So, K.-F., Jiang, W., Chiu, K.
      • 

    • Year: 2024
      • 

    • JournalBiomolecules
      • 

    • Volume: 14
      • 

    • Issue: 7
      • 

    • Article Number: 833
      • 

    • Citations: 0
      • 

    

    2. 

  2. Retinal safety and toxicity study of artesunate in vitro and in vivo

      

    • Authors: Lu, B.-W., Liang, Y.-X., Liu, J.-F., So, K.-F., Chiu, K.
      • 

    • Year: 2023
      • 

    • JournalAdvances in Ophthalmology Practice and Research
      • 

    • Volume: 3
      • 

    • Issue: 2
      • 

    • Pages: 47–54
      • 

    • Citations: 0
      • 

    

    3. 

  3. Effects of Goji with different origins or different extraction methods on primary mixed glial cells (不同产地或提取工艺枸杞对原代胶质细胞抗氧化及抗炎作用的影响)

      

    • Authors: Zheng, C., Zhu, R., Sun, Z., So, K.-F., Chiu, K.
      • 

    • Year: 2022
      • 

    • JournalKexue Tongbao/Chinese Science Bulletin
      • 

    • Volume: 67
      • 

    • Issue: 4-5
      • 

    • Pages: 376–384
      • 

    • Citations: 2
      • 

    

    4. 

  4. Lycium barbarum extract promotes M2 polarization and reduces oligomeric amyloid-β-induced inflammatory reactions in microglial cells

      

    • Authors: Sun, Z.-Q., Liu, J.-F., Luo, W., Hu, Y., Chiu, K.
      • 

    • Year: 2022
      • 

    • JournalNeural Regeneration Research
      • 

    • Volume: 17
      • 

    • Issue: 1
      • 

    • Pages: 203–209
      • 

    • Citations: 14
      • 

    

    5. 

  5. Electrical stimulation at nanoscale topography boosts neural stem cell neurogenesis through the enhancement of autophagy signaling

      

    • Authors: He, L., Sun, Z., Li, J., Zhou, Q., Chiu, K.
      • 

    • Year: 2021
      • 

    • JournalBiomaterials
      • 

    • Volume: 268
      • 

    • Article Number: 120585
      • 

    • Citations: 45
      • 

    

    6. 

  6. Electrical stimulation affects neural stem cell fate and function in vitro

      

    • Authors: Zhu, R., Sun, Z., Li, C., Chiu, K., He, L.
      • 

    • Year: 2019
      • 

    • JournalExperimental Neurology
      • 

    • Volume: 319
      • 

    • Article Number: 112963
      • 

    • Citations: 135
      • 

    

    7.