Fang Wang | Biochemistry, Genetics and Molecular Biology | Best Researcher Award

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Dr. Fang Wang | Biochemistry, Genetics and Molecular Biology | Best Researcher Award

Maastricht University | Netherlands

Author Profile

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Early Academic Pursuits 📚

Dr. Fang Wang's academic journey began with a Bachelor’s degree in Pharmacology from Nanchang University, where she developed an oxidative stress model in LO2 cells to test stress amelioration compounds. She continued her studies with a Master's degree in Cell Biology at the same university, focusing on the role of progesterone adiponectin receptor 7 in reproduction and differences in protein post-translational modifications. Currently, she is pursuing a PhD in Cell Biology at Maastricht University, investigating substrate metabolism in diabetic cardiomyopathy and novel treatments using bioactive components from Traditional Chinese Medicine.

Professional Endeavors 🔬

With over seven years of experience, Dr. Wang has built a strong foundation in preclinical research, drug development, scientific communication, and project management. Her professional career includes internships at Shanghai ChemPartner Co., Ltd. and Jiangxi Zhby Biotech Co. Ltd., where she gained hands-on experience in molecular biology testing and research planning. Her current roles involve significant contributions to research in metabolic disorders and male infertility, with a focus on protein translocation and endosome pH regulation.

Contributions and Research Focus 🌟

Dr. Wang’s research primarily targets the intersection of metabolic disorders and drug development, specifically focusing on diabetic cardiomyopathy and the impact of Traditional Chinese Medicine on cardiac health. Her work includes investigating novel treatment strategies and exploring the mechanisms of substrate metabolism, protein translocation, and endosome pH regulation. Her expertise spans a wide range of molecular and cell biology techniques, including advanced imaging and bioinformatics.

Accolades and Recognition 🏆

Dr. Wang has made notable contributions to the field through her publications and presentations at various conferences. Her research on lipid-induced contractile dysfunction and diabetic cardiomyopathy has been recognized in leading journals and upcoming publications. Her work is highly regarded in the scientific community, reflecting her commitment to advancing healthcare solutions.

Impact and Influence 🌍

Dr. Wang's research has a profound impact on understanding and treating metabolic disorders, particularly in diabetic cardiomyopathy. Her innovative approaches and exploration of traditional medicine offer promising solutions for improving patient outcomes and advancing the field of metabolic disease research. Her contributions are shaping new therapeutic strategies and enhancing the quality of life for patients.

Legacy and Future Contributions 🚀

Dr. Wang's future endeavors are set to further explore and develop cutting-edge healthcare solutions. Her ongoing research aims to refine treatment strategies for metabolic disorders and improve the efficacy of drug development. By integrating advanced techniques and traditional medicine, she is poised to make significant strides in the field, contributing to a healthier future and advancing scientific knowledge.

 

Publications 📕

  • 📝 Specific Compounds Derived from Traditional Chinese Medicine Ameliorate Lipid-Induced Contractile Dysfunction in Cardiomyocytes
    • Authors: Fang Wang, Dietbert Neumann, Dimitrios Kapsokalyvas, Martijn Hoes, Francesco Schianchi, Jan Glatz, Miranda Nabben, Joost J. F. P. Luiken
    • Journal: International Journal of Molecular Sciences
    • Year: 2024
  • 📝 Glycolysis-Mediated Activation of v-ATPase by Nicotinamide Mononucleotide Ameliorates Lipid-Induced Cardiomyopathy by Repressing the CD36-TLR4 Axis
    • Authors: Shujin Wang, Han YinYing, Ruimin Liu, Hou M, Dietbert Neumann, Jun Zhang, Wang F, Yumeng Li, Zhao X, Francesco Schianchi et al.
    • Journal: Circulation Research
    • Year: 2024
  • 📝 Progestin and adipoQ receptor 7 (PAQR7) mediate the anti-apoptotic effect of P4 on human granulosa cells and its deficiency reduces ovarian function in female mice
    • Authors: Li J, Liu Y, He J, Wu Z, Wang F, Huang J, Zheng L, Luo T
    • Journal: Journal of Ovarian Research
    • Year: 2024
  • 📝 CD36 as a target for metabolic modulation therapy in cardiac disease
    • Authors: Glatz JFC, Wang F, Miranda Nabben, Luiken JJFP
    • Journal: Expert Opinion on Therapeutic Targets
    • Year: 2021
  • 📝 Diet-induced obesity is associated with altered expression of sperm motility-related genes and testicular post-translational modifications in a mouse model
    • Authors: Wang F, Chen H, Chen Y, Cheng Y, Li J, Zheng L, Zeng X, Luo T
    • Journal: Theriogenology
    • Year: 2020

 

Amr Khedr | Engineering | Best Researcher Award

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Mr. Amr Khedr | Engineering | Best Researcher Award

Perugia University | Italy

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Early Academic Pursuits

Mr. Amr Khedr commenced his academic journey with a Bachelor's degree in Mechanical Engineering from Alexandria University, graduating with distinction. During his undergraduate years, he delved into the intricacies of fluid mechanics, a precursor to his future endeavors in wind turbine aerodynamics. Subsequently, he pursued a Master's degree at Egypt Japan University of Science & Technology, specializing in Fluid Mechanics Lab and Energy Resources Engineering. Here, he explored innovative approaches to enhance the performance of high-lift airfoils for wind turbine applications, inspired by nature's design principles exemplified by the humpback whale. His pursuit of academic excellence continued as he embarked on a Ph.D. in Mechanical Engineering at Perugia University, focusing on the development of bio-inspired wind turbines for optimal energy harnessing.

Professional Endeavors

Mr. Khedr's professional journey is characterized by a blend of academic roles and research engagements. As a Teaching Assistant at Egypt Japan University of Science & Technology, he contributed significantly to courses ranging from Fluid Mechanics to Renewable Energy Resources, nurturing the next generation of engineers. Prior to this, he served in a similar capacity at Alexandria University, imparting knowledge in Fluid Mechanics to aspiring mechanical engineers.

Contributions and Research Focus

Mr. Khedr's research interests revolve around wind turbines, experimental aerodynamics, computational fluid dynamics (CFD), aeroelasticity, and fluid mechanics. His doctoral thesis on developing high-performance bio-inspired wind turbines reflects his commitment to exploring innovative solutions for sustainable energy generation. Through publications and projects, he has contributed to advancing knowledge in aerodynamics, particularly in optimizing airfoil designs for enhanced performance and efficiency.

Accolades and Recognition

Mr. Khedr's contributions to the field have garnered recognition, evidenced by his publications in reputable journals and conferences. His work on the influence of leading-edge tubercles on airfoil aerodynamics has been acknowledged in prestigious forums such as the ASME International Mechanical Engineering Congress and Exposition. Additionally, his involvement in research projects, such as aerodynamic upgrades of vertical axis wind turbines, underscores his impact on sustainable energy initiatives.

Impact and Influence

Mr. Khedr's research and academic endeavors have made a tangible impact on the field of mechanical engineering, particularly in the realm of renewable energy. By bridging theoretical insights with practical applications, his work has the potential to drive innovations in wind turbine technology, paving the way for more efficient and eco-friendly energy solutions.

Legacy and Future Contributions

As Mr. Khedr continues to expand his research horizons and contribute to academia, his legacy lies in his dedication to sustainable engineering practices and his quest for technological advancements in renewable energy. With a focus on bio-inspired designs and computational modeling, he is poised to shape the future of wind energy technology, leaving a lasting imprint on the pursuit of a greener and more sustainable world.

Notable Publications

Critical Issues in the Moving Reference Frame CFD Simulations of Small Horizontal Axis Wind Turbines 2024

Aerodynamic upgrades of a Darrieus vertical axis small wind turbine 2023 (6)

Study of blockage and wakes for an on-shore Wind Farm using SCADA data and CFD simulations 2022

Interpretation of wind turbine performance decline with age based on SCADA data analysis 2022

A Numerical Study Into the Influence of Leading Edge Tubercles on the Aerodynamic Performance of a Highly Cambered High Lift Airfoil Wing at Different Reynolds Numbers 2020 (6)