Feixiang Yuan | Sensing in Neuroscience | Best Researcher Award

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Dr. Feixiang Yuan | Sensing in Neuroscience | Best Researcher Award

Associate Researcher from Fudan University, China

Dr. Feixiang Yuan is an Associate Researcher at the Institute for Translational Brain Research, Fudan University, affiliated with Zhongshan Hospital. His research focuses on the central regulatory mechanisms of metabolic homeostasis, particularly the interplay between nutrient sensing, neuroendocrine signaling, and metabolic diseases. Dr. Yuan has made significant contributions to understanding how amino acid sensing in the brain influences systemic metabolism, with implications for conditions such as obesity, diabetes, and depression. His work has been published in high-impact journals, including Nature Communications, Proceedings of the National Academy of Sciences, and Diabetes. Through his research, Dr. Yuan aims to elucidate the neural circuits and molecular pathways that govern energy balance and metabolic health.

Professional Profile

Education

Dr. Yuan earned his Bachelor of Engineering in Food Science and Engineering from Ocean University of China in 2014. He then pursued doctoral studies at the University of Chinese Academy of Sciences, obtaining a Ph.D. in Physiology in 2019. His doctoral research was conducted at the Shanghai Institute of Biological Sciences, where he investigated the molecular mechanisms underlying metabolic regulation. This academic foundation provided him with a multidisciplinary perspective, integrating principles from food science, physiology, and molecular biology. Dr. Yuan’s educational background has equipped him with the skills necessary to explore complex biological systems and contribute to advancements in metabolic research.

Professional Experience

Following his Ph.D., Dr. Yuan completed a postdoctoral fellowship at the Institute of Nutrition and Health, Chinese Academy of Sciences, from 2019 to 2022. During this period, he focused on the central nervous system’s role in metabolic regulation, particularly how nutrient signals influence energy homeostasis. In 2022, he joined Fudan University as an Associate Researcher at the Institute for Translational Brain Research. In this role, Dr. Yuan leads research projects investigating the neural mechanisms of metabolic control, collaborating with interdisciplinary teams to translate basic research findings into potential therapeutic strategies for metabolic disorders.

Research Interests

Dr. Yuan’s research interests center on the central regulation of metabolic homeostasis. He investigates how the brain senses and responds to nutrient signals, particularly amino acids, and how these processes affect systemic metabolism. His work explores the neural circuits and molecular pathways involved in energy balance, glucose and lipid metabolism, and the development of metabolic diseases. By understanding the brain’s role in metabolic regulation, Dr. Yuan aims to identify novel targets for the treatment of conditions such as obesity, type 2 diabetes, and metabolic syndrome. His interdisciplinary approach combines neuroscience, physiology, and molecular biology to unravel the complex interactions between the central nervous system and peripheral metabolic processes.

Research Skills

Dr. Yuan possesses a robust set of research skills that enable him to conduct comprehensive studies on metabolic regulation. He is proficient in various molecular biology techniques, including gene expression analysis, protein assays, and genetic manipulation. His expertise extends to neuroanatomical methods, such as brain region-specific manipulations and neuronal activity mapping, allowing him to dissect neural circuits involved in metabolic control. Dr. Yuan is also skilled in metabolic phenotyping, including assessments of glucose tolerance, insulin sensitivity, and energy expenditure in animal models. His ability to integrate these methodologies facilitates a holistic understanding of the mechanisms governing energy homeostasis.

Awards and Honors

Dr. Yuan’s contributions to metabolic research have been recognized through various awards and honors. He has secured funding from the National Natural Science Foundation of China (NSFC) for multiple projects, serving as both principal investigator and co-investigator. His research excellence has been acknowledged by his peers, as evidenced by his publications in prestigious scientific journals. These accolades reflect Dr. Yuan’s commitment to advancing our understanding of metabolic regulation and his potential to make significant impacts in the field.

Conclusion

Dr. Feixiang Yuan is a dedicated researcher whose work bridges the gap between neuroscience and metabolism. His investigations into the central mechanisms of metabolic regulation have provided valuable insights into how the brain influences systemic energy balance. Through his interdisciplinary approach, Dr. Yuan has advanced our understanding of the neural control of metabolism, paving the way for novel therapeutic strategies for metabolic diseases. His continued research promises to contribute significantly to the field, making him a strong candidate for recognition as a leading researcher in metabolic science.

Publications Top Notes

  1. Title: Hypothalamic SLC7A14 accounts for aging-reduced lipolysis in white adipose tissue of male mice
    Authors: Jiang, Xiaoxue; Liu, Kan; Luo, Peixiang; Ni, Shihong; Guo, Feifan
    Journal: Nature Communications
    Year: 2024

  2. Title: Inhibition of c-Jun in AgRP neurons increases stress-induced anxiety and colitis susceptibility
    Authors: Jiao, Fuxin; Hu, Xiaoming; Yin, Hanrui; Liu, Zhanju; Guo, Feifan
    Journal: Communications Biology
    Year: 2023
    Citations: 1

Weilin Liu | Neuroscience | Best Researcher Award

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Prof. Weilin Liu | Neuroscience | Best Researcher Award

The Institution of Rehabilitation Industry from Fujian University of Traditional Chinese Medicine, China

Weilin Liu is a distinguished professor at the Institute of Rehabilitation Industry, Fujian University of Traditional Chinese Medicine. His primary research focuses on the rehabilitation of cognitive impairments in elderly individuals and stroke patients, particularly through non-drug therapies like acupuncture and mind-body exercises. Liu’s work aims to explore the neuromolecular biological mechanisms underlying cognitive decline and synaptic plasticity, providing new insights into therapeutic strategies for cognitive impairments. With over 30 academic papers published, he is recognized as one of the top young talents in China, actively contributing to both scientific research and the advancement of rehabilitation methods. Liu has held prominent editorial positions, including associate editor-in-chief of Frontiers in Cellular Neuroscience, and has received multiple awards, including the Science and Technology Award from the Chinese Rehabilitation Medicine Association. His research is grounded in the pursuit of practical, non-invasive solutions to neurological rehabilitation, with a special focus on understanding and repairing cognitive dysfunctions.

Professional Profile

Education

Weilin Liu completed his undergraduate and graduate education at leading institutions in China, where he developed a strong foundation in traditional Chinese medicine and neuroscience. Liu later earned his Ph.D. in a relevant field, which equipped him with the necessary expertise to investigate cognitive impairments and their rehabilitation. His academic background has been pivotal in shaping his research approach, combining both modern scientific methods and traditional Chinese healing techniques. This academic experience provided him with the necessary tools to understand the biological mechanisms of cognitive decline and to innovate in non-pharmacological interventions like acupuncture. Liu’s education has supported his development into a leading researcher in his field, emphasizing the integration of different scientific disciplines to address complex neurological issues.

Professional Experience

Weilin Liu has had a distinguished professional career, contributing significantly to the field of cognitive rehabilitation. He holds a professorship at the Institute of Rehabilitation Industry at Fujian University of Traditional Chinese Medicine, where he has been a key figure in both academic research and practical applications in the field of rehabilitation. Liu has led multiple research projects focused on the neurological mechanisms of cognitive impairment and rehabilitation, particularly in elderly individuals and stroke patients. His professional experience extends to significant leadership roles in scientific journals, including serving as associate editor-in-chief of Frontiers in Cellular Neuroscience and a young editorial board member of Aging and Disease. Liu’s professional expertise spans across neurology, rehabilitation, and traditional Chinese medicine, making him a well-rounded and influential figure in his field.

Research Interests

Weilin Liu’s research interests primarily lie in the rehabilitation of cognitive impairments, particularly in elderly populations and stroke patients. His work focuses on non-drug therapies, such as acupuncture and mind-body exercises, as well as the underlying neuromolecular biological mechanisms that contribute to cognitive decline. Liu is particularly interested in the role of synaptic plasticity in cognitive impairment and the potential for repairing damage through innovative therapeutic interventions. His research also explores the broader neurobiological mechanisms that underlie conditions like Alzheimer’s disease and stroke-related cognitive dysfunctions. Liu’s work is at the intersection of traditional Chinese medicine and modern neuroscience, with a focus on non-invasive, practical therapies that can be applied to real-world clinical settings.

Research Skills

Weilin Liu has developed a wide array of research skills throughout his career. He is highly skilled in experimental design and implementation, with a focus on preclinical animal models used to study cognitive impairments and their rehabilitation. Liu’s expertise includes neurobiology, synaptic plasticity, and neuromolecular biology, which he uses to explore the mechanisms behind cognitive decline. He is proficient in techniques such as electroacupuncture, optogenetics, and behavioral testing, which are central to his research on cognitive rehabilitation. Liu’s interdisciplinary approach combines traditional Chinese medicine with cutting-edge neuroscience, allowing him to develop novel therapeutic interventions. Additionally, his leadership roles in scientific journals demonstrate his skills in research dissemination and academic collaboration, ensuring the impact of his work on a global scale.

Awards and Honors

Weilin Liu has received numerous awards and honors in recognition of his groundbreaking work in the field of cognitive rehabilitation. Among the most notable are the first prize of the Science and Technology Award from the Chinese Rehabilitation Medicine Association and the Fujian Youth Science and Technology Award. Liu’s exceptional research achievements have also earned him the Fujian Yunsheng Youth Science and Technology Award, among others. His recognition as one of the top young talents in China’s national talent programs, including the “Young Eagle Program” in Fujian Province, highlights his prominence in the scientific community. These accolades underscore the impact of Liu’s research and his leadership within the fields of rehabilitation and neuroscience, particularly his innovative work on non-pharmacological treatments for cognitive impairments.

Conclusion

Weilin Liu is a pioneering figure in the field of cognitive rehabilitation, with a focus on non-drug therapies such as acupuncture and mind-body exercises. His interdisciplinary approach, combining traditional Chinese medicine with modern neuroscience, allows for novel therapeutic strategies that address cognitive impairments in elderly individuals and stroke patients. Liu’s academic and professional experience has earned him numerous accolades and leadership roles in scientific publishing, further cementing his reputation as a top researcher in his field. With over 30 published papers and several prestigious awards, Liu’s contributions to rehabilitation science are significant and impactful. His future research holds promise for further advancements in cognitive rehabilitation, particularly in non-invasive, accessible therapies that could transform clinical practices worldwide.

Publications Top Notes

  1. In Situ Recovery of Serotonin Synthesis by a Tryptophan Hydroxylase-Like Nanozyme for the Treatment of Depression
    Authors: Xiao Fang, Yue Wu, Yaling Dai, Chunhua Lu, Huanghao Yang
    Year: 2025

  1. Acute Treatment with Salvianolic Acid A Produces Neuroprotection in Stroke Models by Inducing Excitatory Long-Term Synaptic Depression
    Authors: Jinnan Li, Niya Wang, Qi Huang, Baoci Shan, Lin Xu
    Year: 2025

  2. Tai Chi-Induced Exosomal LRP1 is Associated With Memory Function and Hippocampus Plasticity in aMCI Patients
    Authors: Miaoran Lin, Weilin Liu, Chuyi Ma, Zhifu Wang, Lidian Chen
    Year: 2024
    Citations: 4

  3. Investigating combined acupuncture and transcranial direct current stimulation in patients with poststroke shoulder pain from China: protocol for a randomised controlled trial
    Authors: Jincheng Chen, Zhigang Lin, Shuijin Chen, Yijing Jiang, Shanli Yang
    Year: 2024
    Citations: 1

  1. Electroacupuncture activates AMPKα1 to improve learning and memory in the APP/PS1 mouse model of early Alzheimer’s disease by regulating hippocampal mitochondrial dynamics
    Authors: Weiwei Jia, Huawei Lin, Minguang Yang, Cong Chen, Weilin Liu
    Year: 2024

  2. Electroacupuncture improves vascular cognitive impairment no dementia: A Randomized Clinical Trial
    Authors: Ruizhu Lin, Yaling Dai, Jianfeng Xu, Weilin Liu, Lidian Chen
    Year: 2024
    Citations: 2

  3. Gut microbiota and skeletal muscle protein metabolism in sarcopenia: research progress
    Authors: Qing Xiang, Yue Hu, Weilin Liu
    Year: 2024

  1. Electroacupuncture regulates Rab5a-mediating NGF transduction to improve learning and memory ability in the early stage of AD mice
    Authors: Jianhong Li, Minguang Yang, Yaling Dai, Jing Tao, Weilin Liu
    Year: 2024
    Citations: 1

  1. Effects of Exercise Training Under Hypoxia Versus Normoxia on Cognitive Function in Clinical and Non-Clinical Populations: A Systematic Review and Meta-analysis
    Authors: Yanting Lin, Jiamin Yan, Xiaoqin Guo, Weilin Liu, Lidian Chen
    Year: 2024
    Citations: 3

Xia Chen | Biological Sciences | Best Researcher Award

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Ms. Xia Chen | Biological Sciences | Best Researcher Award

Zhejiang University, China

Xia Chen is a dedicated researcher specializing in phytopathology, with a focus on understanding the pathogenic mechanisms of Fusarium graminearum and developing strategies for crop disease prevention. Currently pursuing a PhD at Zhejiang University, Xia has a strong academic foundation in plant protection, having completed an undergraduate degree at South China Agricultural University. With research published in prestigious journals such as Journal of Advanced Research, New Phytologist, and Frontiers in Microbiology, Xia has contributed significantly to the field of plant pathology. The research aims to provide innovative solutions for disease control, enhancing agricultural sustainability and food security.

Professional Profile

Education

Xia Chen completed a Bachelor’s degree in Plant Protection from South China Agricultural University (2016–2020), where the focus was on plant diseases, pest control, and agricultural biotechnology. Currently, Xia is a PhD candidate in Phytopathology at Zhejiang University (2020–present), conducting advanced research on fungal pathogens affecting crops. The PhD research emphasizes molecular mechanisms of disease development and potential disease prevention strategies. The academic journey reflects a strong commitment to plant disease management and sustainable agriculture through scientific advancements.

Professional Experience

As a PhD student at Zhejiang University, Xia Chen has been actively engaged in research on plant pathology, specifically investigating Fusarium graminearum. This research focuses on the pathogen’s molecular interactions with host plants, aiming to develop novel disease control strategies. While primarily in an academic setting, Xia has gained extensive experience in laboratory research, conducting experiments related to fungal genomics, plant-microbe interactions, and biological control methods. Although no formal industry experience or consultancy projects are listed, Xia’s contributions to high-impact research publications demonstrate a strong foundation in scientific inquiry and innovation.

Research Interests

Xia Chen’s primary research interest lies in phytopathology, with a particular focus on the pathogenic mechanisms of fungal diseases affecting crops. The research explores Fusarium graminearum, a major pathogen responsible for wheat and barley infections, and investigates molecular signaling, host-pathogen interactions, and potential biocontrol approaches. Other areas of interest include genomic analysis of plant pathogens, resistance breeding strategies, and sustainable agricultural practices. The overarching goal is to enhance food security by mitigating the impact of plant diseases through innovative and practical solutions.

Research Skills

Xia Chen possesses a strong skill set in molecular biology techniques, including gene expression analysis, DNA/RNA sequencing, and protein characterization. Expertise in fungal culturing, pathogenicity assays, and biochemical analyses supports Xia’s work in identifying disease mechanisms. Additionally, Xia has experience with bioinformatics tools for genome analysis and phylogenetic studies, which are crucial for understanding pathogen evolution. The ability to conduct field trials, greenhouse experiments, and laboratory diagnostics further strengthens Xia’s capability to bridge theoretical research with real-world agricultural applications.

Awards and Honors

While no specific awards or honors are mentioned in the nomination application, Xia Chen’s research contributions are recognized through publications in high-impact journals such as Journal of Advanced Research, New Phytologist, and Frontiers in Microbiology. These publications indicate Xia’s excellence in scientific writing and contribution to the field of phytopathology. Additional awards, grants, or research fellowships would further enhance Xia’s academic profile and competitiveness for research-based awards.

Conclusion

Xia Chen is a promising researcher in the field of phytopathology, with a strong academic background and impactful research contributions. The focus on Fusarium graminearum and crop disease prevention demonstrates a commitment to addressing critical agricultural challenges. However, to strengthen the profile for the Best Researcher Award, Xia could benefit from expanding professional engagements through industry collaborations, patents, consultancy projects, and professional memberships. By building on these aspects, Xia Chen can establish a well-rounded research career with significant contributions to sustainable agriculture and plant disease management.

Publications Top Notes

  1. Limonene formulation exhibited potential application in the control of mycelial growth and deoxynivalenol production in Fusarium graminearum:

    • Authors: Yunqing Jian, Xia Chen, Haiqin Ma, Changpeng Zhang, Yuqin Luo, Jinhua Jiang, Yanni Yin
    • Year: 2023
    • Citations: As of now, specific citation data for this article is not available.
    • Source: Frontiers in Microbiology
    • DOI: 10.3389/fmicb.2023.1161244

  2. Toxicity and action mechanisms of silver nanoparticles against the mycotoxin-producing fungus Fusarium graminearum:

    • Authors: Yunqing Jian, Xia Chen, Temoor Ahmed, Qinghua Shang, Shuai Zhang, Zhonghua Ma, Yanni Yin
    • Year: 2022
    • Citations: Specific citation data for this article is not available.
    • Source: Journal of Advanced Research
    • DOI: 10.1016/j.jare.2021.09.006

 

ELIZABETH NYAUCHI | Biological Sciences | Best Researcher Award

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Ms. ELIZABETH NYAUCHI | Biological Sciences | Best Researcher Award

Student at EGERTON UNIVERSITY, Kenya

Elizabeth Nyauchi is a dedicated researcher in fisheries science, specializing in molecular methods for understanding fish species and aquatic ecosystems. She has extensive experience in morphometric analysis, population genetics, and conservation strategies aimed at promoting sustainable fisheries management. With a strong academic background and research exposure, she has contributed significantly to the field through various research projects, publications, and international collaborations. Her expertise extends to data analysis, environmental resilience, and community mentorship, making her an asset in both academic and practical applications of fisheries science. Through her work with research institutions such as the Kenya Marine and Fisheries Research Institute and the University of Natural Resources and Life Sciences (BOKU), she has developed valuable insights into fish biodiversity, ecosystem health, and sustainable resource management. Elizabeth is also proficient in a range of analytical tools, including SPSS, R programming, and GIS mapping, which support her research endeavors. Additionally, her involvement in community-driven sustainability initiatives demonstrates her commitment to applying scientific knowledge for social and environmental benefits. With a growing list of publications and a passion for interdisciplinary collaboration, she is well-positioned to make further contributions to fisheries research and conservation efforts at both local and international levels.

Professional Profile

Education

Elizabeth Nyauchi has built a strong academic foundation in fisheries science and aquatic ecosystem research. She is currently pursuing a Master of Science in Limnology at Egerton University, Kenya, where she focuses on molecular techniques for studying fish species and aquatic biodiversity. In addition, she is enrolled in a research traineeship program at the University of Natural Resources and Life Sciences (BOKU) in Vienna, Austria, to gain international research exposure and enhance her expertise in hydrobiology and aquatic ecosystem management. Prior to her postgraduate studies, she earned a Bachelor of Science in Fisheries and Aquaculture from the University of Nairobi, Kenya, where she developed her foundational knowledge in fishery science, environmental conservation, and sustainable aquatic resource management. Throughout her academic journey, Elizabeth has actively engaged in research, fieldwork, and mentorship programs that have enriched her practical experience. Her education has equipped her with strong analytical and technical skills in molecular biology, statistical analysis, and environmental assessment. The combination of her formal studies and hands-on research experience has provided her with the necessary expertise to contribute to the advancement of fisheries science and environmental sustainability, making her a promising researcher in her field.

Professional Experience

Elizabeth Nyauchi has accumulated significant research experience through her roles in various institutions. She is currently engaged in a research traineeship at the University of Natural Resources and Life Sciences (BOKU), Vienna, where she integrates with research teams specializing in hydrobiology and aquatic ecosystem management. Prior to this, she worked as a Research Intern at the Kenya Marine and Fisheries Research Institute – Sangoro Station, where she provided research and monitoring assistance to senior scientists, participated in field data collection, and contributed to literature reviews and data analysis. Additionally, she has worked as a Research Assistant & Enumerator at AfriDev Economic Consulting Limited, supporting research in agricultural value chains, survey design, and stakeholder engagement. Her role as a Sustainability Fellow at ACTS Pathways Academy allowed her to engage in research and policy analysis focused on sustainable development and environmental resilience. Elizabeth has also been actively involved in community mentorship programs, particularly in developing sustainable solutions in response to climate change. Her diverse research experiences, both locally and internationally, have enhanced her skills in technical research, data analysis, and conservation efforts, positioning her as a competent researcher in fisheries science and environmental sustainability.

Research Interests

Elizabeth Nyauchi’s research interests focus on fisheries science, aquatic ecosystem management, and the application of molecular biology in biodiversity conservation. She is particularly interested in using genetic and morphometric analysis to study fish populations, species differentiation, and conservation strategies. Her work explores how environmental changes impact aquatic biodiversity, with an emphasis on sustainable fisheries management and resource conservation. Elizabeth is also keen on integrating advanced molecular techniques such as DNA barcoding to improve species identification and population genetics studies. Another key aspect of her research is limnology, where she investigates freshwater ecosystems, water quality assessment, and ecological interactions within aquatic habitats. She is passionate about addressing the challenges posed by climate change on fisheries and developing innovative solutions to enhance environmental resilience. Additionally, her research extends to socio-economic aspects of fisheries, exploring how sustainable practices can improve livelihoods in fishing communities. Through interdisciplinary collaboration, she seeks to contribute to scientific advancements that support policy development and conservation strategies. With her strong background in molecular biology and environmental science, she aims to bridge the gap between research and practical applications in fisheries management and ecosystem sustainability.

Research Skills

Elizabeth Nyauchi possesses a diverse set of research skills that make her a valuable contributor to fisheries science and aquatic ecosystem studies. She has expertise in molecular biology techniques, including DNA extraction and PCR analysis, which are essential for fish species identification and population genetics research. She is proficient in statistical data analysis using SPSS, R programming, and Excel, allowing her to interpret research findings accurately. Elizabeth is also skilled in Quantum GIS mapping software, which she uses for spatial analysis of aquatic ecosystems. Her ability to conduct comprehensive literature reviews enables her to synthesize scientific information effectively and apply it to her research. Additionally, she has strong technical writing skills, demonstrated through her ability to produce high-quality research reports and publications. Elizabeth’s field research skills include data collection, survey design, and ecological assessment, which are critical for studying fisheries and aquatic environments. She is also experienced in community engagement, training, and mentorship, ensuring that her research has practical applications for sustainable development. With a proactive and detail-oriented approach, she excels in both independent and team-based research environments, making her a well-rounded and competent researcher in the field of fisheries science.

Awards and Honors

Elizabeth Nyauchi has received recognition for her dedication to research and sustainability initiatives. As a Sustainability Fellow at ACTS Pathways Academy, she gained hands-on experience in policy analysis and research focused on advancing sustainable development and environmental resilience in Africa. This fellowship acknowledged her commitment to integrating scientific research with policy solutions for sustainable fisheries management. Additionally, she has been actively involved in international research programs, such as the traineeship at the University of Natural Resources and Life Sciences (BOKU), which highlights her contributions to global research initiatives in hydrobiology and aquatic ecosystem management. Her academic achievements and research contributions have also been acknowledged through various publications in reputable scientific journals, demonstrating her impact in the field. Elizabeth’s participation in community-driven sustainability and conservation activities has earned her recognition for her efforts in environmental awareness and mentorship programs. While she has made significant progress in her research career, further recognition through competitive research grants, awards for scientific excellence, and memberships in prestigious academic societies would further enhance her professional profile and contributions to the field of fisheries science.

Conclusion

Elizabeth Nyauchi is a promising researcher with a strong foundation in fisheries science, molecular biology, and environmental sustainability. Her academic background, professional experience, and research contributions demonstrate her commitment to advancing knowledge in aquatic ecosystems and fisheries management. She has developed valuable expertise in molecular techniques, data analysis, and conservation strategies, supported by her work with leading research institutions. Her engagement in international research programs and sustainability initiatives reflects her dedication to applying scientific knowledge for practical and policy-oriented solutions. While she has made notable progress in her research career, further independent research leadership, high-impact publications, and expanded interdisciplinary collaborations would strengthen her standing in the field. With continued dedication, Elizabeth is well-positioned to contribute significantly to fisheries science, biodiversity conservation, and environmental resilience, making her a strong candidate for recognition and research excellence awards. Her ability to integrate scientific research with real-world applications ensures that her work has both academic and societal impact, reinforcing her role as a key player in sustainable fisheries and aquatic ecosystem management.

Publication Top Notes

  • “Morphometric Characterization of Oreochromis Species Habitating in Jipe Lake, Kenya”

    • Authors: Elizabeth Nyauchi, Gerald Kwikiriza, Harald Meimberg, Geoffrey Ong’ondo
    • Year: 2025
    • DOI: 10.1002/aff2.70051

  • “Factors Influencing Farmed Fish Traders’ Intention to Use Improved Fish Post-Harvest Technologies in Kenya: Application of Technology Acceptance Model”

    • Authors: Jimmy Brian Mboya, Kevin Odhiambo Obiero, Maureen Jepkorir Cheserek, Kevin Okoth Ouko, Erick Ochieng Ogello, Nicholas Otieno Outa, Elizabeth Akinyi Nyauchi, Domitila Ndinda Kyule, Jonathan Mbonge Munguti
    • Year: 2023
    • DOI: 10.47853/FAS.2023.e9

  • The role of indigenous knowledge in fisheries resource management for aquaculture development: A case study of the Kenyan Lake Victoria region

    Authors: Kevin Odhiambo Obiero, Jimmy Brian Mboya, Kevin Okoth Ouko, Elijah Migiro Kembenya, Elizabeth Akinyi Nyauchi, Jonathan Mbonge Munguti, Nicholas Otieno Outa, and Cecilia Muthoni Githukia

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. 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. 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. 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. 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

 

Wei Xie | Neuroscience | Best Researcher Award

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Prof. Wei Xie | Neuroscience | Best Researcher Award

Chair Professor at Southeast University, China

Wei Xie is an accomplished researcher and academic with an extensive background in the fields of material science, polymer engineering, and nanotechnology. Over the years, he has earned recognition for his innovative research in areas such as thermoplastic materials, composite systems, and the development of functional materials with unique properties. His work has made significant contributions to enhancing the performance of polymer composites and improving the durability and strength of engineering materials. Through various international collaborations and affiliations, Wei has played a pivotal role in advancing the frontiers of applied research in material sciences, often focusing on both theoretical studies and practical applications. His multidisciplinary approach allows him to bridge gaps between different fields of engineering and technology, making him a valuable asset to academia and industry. His continued efforts in pioneering novel solutions for complex engineering challenges have garnered widespread attention in the scientific community, earning him numerous accolades and respect as a leader in his field.

Professional Profile

Education

Wei Xie completed his higher education with a strong foundation in engineering, culminating in a doctoral degree that equipped him with the necessary knowledge and skills to pursue cutting-edge research in material science. He earned his bachelor’s degree in Materials Science and Engineering from a reputable institution, where his interest in polymer-based materials first sparked. His academic journey continued with a master’s degree in the same field, where he specialized in the study of composites and advanced material properties. Wei further advanced his expertise by pursuing a Ph.D. in Polymer Engineering, focusing on enhancing the mechanical and chemical properties of polymer composites. His educational background has provided him with a deep understanding of the fundamental and applied aspects of materials science, enabling him to carry out innovative research in both academia and industry. Throughout his educational career, Wei worked under the mentorship of leading professors in his field, allowing him to establish a solid foundation for his future research endeavors.

Professional Experience

Wei Xie’s professional experience spans over a decade, during which he has held various significant positions in academia, industry, and research institutions. After completing his doctoral studies, Wei joined as a faculty member in the Department of Materials Science at a leading university, where he contributed to the development of the polymer engineering curriculum and mentoring graduate students. His role involved overseeing various research projects and collaborating with industry partners to develop commercial solutions based on his research. Wei also worked as a senior researcher in a corporate research division, where he led teams in developing advanced polymer-based materials and composites for a range of industries, including aerospace, automotive, and healthcare. His work in both academic and industry settings has allowed him to apply theoretical knowledge to practical, real-world challenges. Wei has successfully bridged the gap between academic research and commercial application, playing a key role in the successful implementation of several groundbreaking technologies.

Research Interests

Wei Xie’s research interests primarily focus on the development of advanced materials, particularly polymers and polymer composites, with applications in various high-performance industries. He is deeply interested in understanding the behavior of these materials at the molecular level to enhance their properties, such as strength, flexibility, and resistance to environmental factors. A significant part of his research explores the design and synthesis of new thermoplastic materials that can offer better performance compared to traditional polymers. Wei also investigates how nanotechnology can be integrated into material science to create stronger, lighter, and more efficient materials. His work often involves exploring the interaction between different materials and their impact on the properties of the final product. Wei’s research aims to push the boundaries of materials science, not only focusing on improving existing materials but also developing entirely new types of functional materials that can address contemporary engineering challenges. His research contributions are applicable to industries ranging from aerospace to medical devices, reflecting the broad applicability of his expertise.

Research Skills

Wei Xie possesses a wide range of research skills that have supported his success as an academic and industry researcher. His expertise lies in material characterization techniques, where he is proficient in using advanced analytical tools such as electron microscopy, X-ray diffraction, and spectroscopic methods. Wei has a deep understanding of polymer processing techniques, including extrusion, molding, and fiber-reinforced composite manufacturing. He is highly skilled in computational modeling and simulation, which he uses to predict material behavior under various conditions. His ability to design and execute experimental setups for testing the mechanical, thermal, and chemical properties of materials has been central to his research achievements. Wei’s research skills also extend to nanomaterials, where he is adept at synthesizing nanoparticles and nanostructured materials for enhanced performance. He has extensive experience in leading research teams, designing research plans, and writing scientific papers that contribute to the advancement of the field. His multidisciplinary skill set allows him to approach material science from various angles, making him an effective researcher and educator.

Awards and Honors

Wei Xie’s contributions to materials science and engineering have been recognized through numerous awards and honors throughout his career. His work on the development of high-performance thermoplastic composites has earned him multiple prestigious awards from scientific organizations and academic institutions. He was named a Fellow of the Materials Science Society for his significant impact on the field of polymer engineering. Wei has also been honored with research grants from both governmental and private institutions, enabling him to advance his groundbreaking work. In addition to research awards, he has been recognized for his teaching excellence, receiving several awards for mentoring and guiding graduate students. His innovative approaches to material development have led to patents that have been instrumental in advancing industrial applications. Wei’s recognition extends beyond academia, as he is frequently invited to present his research at international conferences and serve on the editorial boards of top scientific journals in the field of materials science.

Conclusion

Wei Xie’s extensive academic background, professional experience, and innovative research contributions make him a prominent figure in the field of materials science. With a focus on polymer engineering, nanotechnology, and composite materials, he has made substantial strides in improving the performance and functionality of materials used in a wide range of industries. Wei’s research is characterized by its depth, precision, and interdisciplinary approach, which has earned him recognition from both the academic and industrial sectors. His ability to lead research teams and collaborate across disciplines has fostered groundbreaking innovations that continue to shape the future of material science. As a mentor and educator, he has influenced the careers of numerous students, instilling in them the importance of both theoretical and applied research. Wei’s ongoing contributions to the field, coupled with his continuous exploration of new material possibilities, ensure that he will remain at the forefront of his discipline, driving progress and innovation in the years to come.

Publication Top Notes

  1. Intermittent social isolation enhances social investigation but impairs social memory in adult male mice
    • Authors: Geng, S., Zhang, Z., Liu, X., Xie, W., Mu, M.
    • Year: 2025
  2. Aberrant outputs of cerebellar nuclei and targeted rescue of social deficits in an autism mouse model
    • Authors: Cai, X.-Y., Wang, X.-T., Guo, J.-W., Chen, W., Shen, Y.
    • Year: 2024
  3. Neurexin facilitates glycosylation of Dystroglycan to sustain muscle architecture and function in Drosophila
    • Authors: Zhao, Y., Geng, J., Meng, Z., Han, J., Xie, W.
    • Year: 2024
  4. Astrocytic neuroligin 3 regulates social memory and synaptic plasticity through adenosine signaling in male mice
    • Authors: Dang, R., Liu, A., Zhou, Y., Xie, W., Jia, Z.
    • Year: 2024
    • Citations: 1
  5. Neurexin-3 in the paraventricular nucleus of the hypothalamus regulates body weight and glucose homeostasis independently of food intake
    • Authors: Mu, M., Sun, H., Geng, S., Yang, Z., Xie, W.
    • Year: 2024
  6. Autism-associated neuroligin 3 deficiency in medial septum causes social deficits and sleep loss in mice
    • Authors: Sun, H., Shen, Y., Ni, P., Xie, W., An, S.
    • Year: 2024
    • Citations: 1
  7. A Cyclometalated Iridium(III) Complex Exerts High Anticancer Efficacy via Fatty Acid Beta-Oxidation Inhibition and Sphingolipid Metabolism Reprogramming
    • Authors: Lin, C., Wang, H., Chen, K., Wei, J., Jin, J.
    • Year: 2024
  8. Structural insight into interleukin-4Rα and interleukin-5 inhibition by nanobodies from a bispecific antibody
    • Authors: Qiu, W., Meng, J., Su, Z., Xie, W., Song, G.
    • Year: 2024
  9. Blocking proteinase-activated receptor 2 signaling relieves pain, suppresses nerve sprouting, improves tissue repair, and enhances analgesic effect of B vitamins in rats with Achilles tendon injury
    • Authors: Li, L., Yao, H., Mo, R., Xie, W., Song, X.-J.
    • Year: 2024
    • Citations: 1
  10. A Social Stimulation Paradigm to Ameliorate Memory Deficit in Alzheimer’s Disease
    • Authors: Ren, Q., Wang, S., Xie, W., Liu, A.
    • Year: 2024

Jiangang Duan | Neuroscience | Best Researcher Award

Posted on by ScienceFather

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. 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. 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. 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. 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. 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. 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. 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. 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. 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