Prof. Jiaxing Zhang | Cognitive Neuroscience | Excellence in Research

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Prof. Jiaxing Zhang | Cognitive Neuroscience | Excellence in Research 🏆

Professor at Xiamen University,China 🎓

Dr. Jiaxing Zhang is a distinguished Professor at Xiamen University, specializing in brain hypoxia and its effects on cognitive function and emotions. His research focuses on how the brain adapts and remodels to hypoxia and reoxygenation, exploring neural mechanisms and compensatory regulatory functions in hypoxic conditions. Using advanced techniques such as MRI, molecular biology, and cognitive behavioral testing, Dr. Zhang conducts both human and animal model studies to explore how the brain and cardiovascular systems respond to oxygen deprivation and recovery.

Professional Profile 

Education 🎓:

Dr. Zhang completed his academic training in neuroscience and brain science, earning a Ph.D. that laid the foundation for his pioneering work on brain hypoxia and adaptation mechanisms.

Work Experience 💼:

He is currently a professor at Xiamen University, where he leads research projects focused on brain adaptation to hypoxia, collaborating internationally with other researchers in the field.

Skills 🔍

Dr. Zhang is proficient in advanced research methods, including magnetic resonance imaging (MRI), molecular biology, and cognitive behavioral testing. He also possesses strong interdisciplinary skills in neuroscience and bioengineering.

Awards and Honors 🏆

Dr. Zhang has received numerous recognitions for his scientific contributions, including the Distinguished Scientist Award, which highlights his impactful research on brain adaptation to high-altitude environments.

🤝 Memberships:

He is an active member of various professional scientific communities, contributing to advancements in brain science and hypoxia research.

Teaching Experience 👩‍🏫:

Dr. Zhang has extensive teaching experience, mentoring students and guiding research projects in brain science, neuroscience, and hypoxia adaptation.

Research Focus 🔬:

Dr. Zhang’s research primarily focuses on brain hypoxia and its effects on cognitive function, with a particular interest in high-altitude adaptation. His work provides critical insights into how the brain responds to low-oxygen environments and how these mechanisms can inform health interventions.

Conclusion 

Dr. Fatemeh Rezaei is a highly qualified candidate for the Outstanding Scientist Award. Her achievements in laser and plasma research, especially in laser-based medical applications, position her as a forward-thinking and impactful scientist. With a strong foundation in both education and research, along with meaningful contributions to science and society, Dr. Rezaei exemplifies the qualities of an outstanding scientist. Expanding her publication record and enhancing international collaborations would further amplify her research impact, making her an exceptional choice for this award.

📚 Publilcation 

    1. Correlating EPAS1 gene variations to hypoxic environments with structural and functional brain network adaptations of Tibetans in the Qinghai-Xizang Plateau
      • Year: 2024
      • Journal: Kexue Tongbao/Chinese Science Bulletin
      • Authors: Liu, Y., Fan, C., Zhang, X., Wang, X., Zhang, J.
    2. A longitudinal study on the impact of high-altitude hypoxia on perceptual processes
      • Year: 2024
      • Journal: Psychophysiology
      • Authors: Guo, F., Wang, C., Tao, G., Zhang, J., Wang, Y.
    3. Neuroplasticity of visual brain network induced by hypoxia
      • Year: 2024
      • Journal: Cerebral Cortex
      • Authors: Zhang, X., Liu, Y., Yuan, F., Wang, X., Zhang, J.
    4. Decrease in Cerebral Blood Flow after Reoxygenation Is Associated with Neurological Syndrome Sequelae and Blood Pressure
      • Year: 2023
      • Journal: Brain Sciences
      • Authors: Liu, Y., Yuan, F., Peng, Z., Zhang, R., Zhang, J.
    5. The change of attention network functions and physiological adaptation during high-altitude hypoxia and reoxygenation
      • Year: 2023
      • Journal: Physiology and Behavior
      • Authors: Song, R., Tao, G., Guo, F., Zhang, J., Wang, Y.
    6. Hypoxic White Matter Injury and Recovery After Reoxygenation in Adult Mice: Magnetic Resonance Imaging Findings and Histological Studies
      • Year: 2023
      • Journal: Cellular and Molecular Neurobiology
      • Authors: Liu, Y., Qiao, H., Du, W., Li, S., Zhang, J.
    7. Brain Structural and Functional Alterations in Native Tibetans Living at High Altitude
      • Year: 2023
      • Journal: Neuroscience
      • Authors: Zhang, X., Xie, W., Liu, Y., Ma, H., Zhang, J.
    8. Consistent differences in brain structure and functional connectivity in high-altitude native Tibetans and immigrants
      • Year: 2023
      • Journal: Brain Imaging and Behavior
      • Authors: Zhang, X., Xie, W., Du, W., Ma, H., Zhang, J.
    9. The human brain in a high altitude natural environment: A review
      • Year: 2022
      • Journal: Frontiers in Human Neuroscience
      • Authors: Zhang, X., Zhang, J.
    10. Resting‐State Neuronal Activity and Functional Connectivity Changes in the Visual Cortex after High Altitude Exposure: A Longitudinal Study
    • Year: 2022
    • Journal: Brain Sciences
    • Authors: Zhang, X., Kang, T., Liu, Y., Lin, J., Zhang, J.