Edyta GLOGOWSKA | Cell Metabolism | Best Researcher Award

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Dr. Edyta Glogowska | Cell Metabolism | Best Researcher Award

Dr.  Edyta Glogowska, CNRS-IPMC-UniCA,  France.

Dr. Edyta Glogowska is a passionate and accomplished biomedical researcher with a strong academic background in biotechnology and life sciences. From her early beginnings in dental engineering to earning a PhD in red blood cell physiology from the University Pierre and Marie Curie, her academic journey reflects a deep commitment to advancing human health through science. Her postdoctoral research at the Institute of Molecular and Cellular Pharmacology (IPMC) highlights her expertise in cell physiology, electrophysiology, and molecular biology, with a special focus on macrophage Piezo1 channels and their role in atherosclerosis. She is a skilled communicator and team collaborator, recognized for her academic excellence and contributions to hematology and immunopathology.

Profile

Scopus

🎓 Early Academic Pursuits

Dr. Edyta Glogowska’s journey into the world of life sciences began with a strong foundation in biotechnology and medical sciences. She earned her Master of Engineering in Biotechnology Processing from Wroclaw University of Science and Technology, where she graduated with highest honors. Even earlier, she had already laid a unique cornerstone for her biomedical interests through specialized training as a Dental Engineer at the Marie Curie Medical Vocational School. Her pursuit of deeper scientific knowledge led her to France, where she undertook her PhD in Biological and Life Sciences at the University Pierre and Marie Curie, Paris VI. Conducted at the prestigious Station Biologique in Roscoff, her doctoral research focused on red blood cell physiology and was awarded with the highest honors—a testament to her early dedication and scientific promise.

🔬 Professional Endeavors

Dr. Glogowska’s professional career has been marked by a steadfast commitment to cell and molecular biology, electrophysiology, and the biochemistry of proteins. Her postdoctoral research at the Institute of Molecular and Cellular Pharmacology (IPMC) in Sophia Antipolis (2021–2024) showcases her hands-on expertise with mice experimentation and patch-clamp techniques, placing her at the cutting edge of biomedical research. Working under the guidance of Dr. Eric Honoré, she explored the role of macrophage Piezo1 channels regulated by lipids, a study with far-reaching implications in understanding and potentially treating atherosclerosis.

🧬 Contributions and Research Focus

Throughout her academic and postdoctoral years, Dr. Glogowska has focused her research on the physiology and pathophysiology of cells, particularly red blood cells and immune cells like macrophages. Her interest lies in understanding how cellular mechanisms contribute to broader medical conditions, such as cardiovascular diseases. By integrating electrophysiology with molecular biology, she brings a comprehensive approach to biomedical questions, bridging the gap between basic research and therapeutic application. Her work on Piezo1 not only contributes to our understanding of mechanotransduction in macrophages but also holds promise for future translational research.

🏅 Accolades and Recognition

Dr. Glogowska’s scholarly excellence has been consistently recognized. She graduated with highest honors both for her Master’s and PhD degrees, a rare academic distinction that underscores her dedication and intellectual rigor. She has also been an active member of the French Society of Hematology, aligning herself with leading experts in her field and staying abreast of the latest developments in blood cell research. These accolades reflect her respected standing within the scientific community.

🌍 Impact and Influence

Beyond technical expertise, Dr. Glogowska is praised for her team coordination and communication skills, qualities that have enabled her to contribute meaningfully to collaborative research environments. Her scientific efforts in understanding lipid–ion channel interactions in macrophages directly influence the broader field of cardiovascular immunology. By elucidating the role of Piezo1 channels in inflammatory processes, her research provides foundational knowledge that can inspire novel pharmacological interventions.

🔎 Legacy and Future Contributions

Dr. Glogowska continues to strive toward a future where her research leads to medical breakthroughs in inflammation and cardiovascular disease. She is particularly interested in translational science, where laboratory discoveries transition into clinical applications. Her strong background in biotechnology, dentistry, and molecular biology uniquely equips her to explore cross-disciplinary challenges in human health. As she advances, she aims to bridge research with clinical solutions, contributing to a legacy of innovation in life sciences.

Publication

Title: Potentiation of macrophage Piezo1 by atherogenic 7-ketocholesterol
Authors: Edyta Glogowska, Gregor P. Jose, Ana Rita Dias Araújo, Laurent Yvan-Charvet, Éric R. Honoré
Year: 2025

Title: Piezo1 in PASMCs: Critical for Hypoxia-Induced Pulmonary Hypertension Development
Authors: Fenja Knoepp, Shariq Abid, Amal Houssaïni, Éric R. Honoré, Serge Adnot
Year: 2025

Title: Pharmacological activation of PIEZO1 in human red blood cells prevents Plasmodium falciparum invasion
Authors: Rakhee Lohia, Benoit Allegrini, Laurence Berry, Éric R. Honoré, Kai Wengelnik
Year: 2023

Title: A machine-learning algorithm integrating baseline serum proteomic signatures predicts exercise responsiveness in overweight males with prediabetes
Authors: Candela Diaz-Canestro, Jiarui Chen, Yan Liu, Michael Andrew Tse, Aimin Xu
Year: 2023

Title: Adipose-targeted triiodothyronine therapy counteracts obesity-related metabolic complications and atherosclerosis with negligible side effects
Authors: Kang Chen, Lai Yee Cheong, Yuan Gao, Hannah Xiaoyan Hui, Aimin Xu
Year: 2022

Title: Author Correction: Adipocyte Piezo1 mediates obesogenic adipogenesis through the FGF1/FGFR1 signaling pathway in mice
Authors: Shengpeng Wang, Shuang Cao, Malika Arhatte, Éric R. Honoré, Stefan Offermanns
Year: (Correction Published) — Likely 2021 or 2022

Title: Piezo1 and Piezo2 foster mechanical gating of K2P channels
Authors: Edyta Glogowska, Malika Arhatte, Franck C. Chatelain, Amanda Jane Patel, Éric R. Honoré
Year: 2021

Title: Adipocyte Piezo1 mediates obesogenic adipogenesis through the FGF1/FGFR1 signaling pathway in mice
Authors: Shengpeng Wang, Shuang Cao, Malika Arhatte, Éric R. Honoré, Stefan Offermanns
Year: 2020

Title: Piezo Ion Channels in Cardiovascular Mechanobiology
Authors: Dominique Douguet, Amanda Jane Patel, Aimin Xu, Paul Michel Vanhoutte, Éric R. Honoré
Year: (Not explicitly stated, likely ~2020 based on context)

Title: TMEM33 regulates intracellular calcium homeostasis in renal tubular epithelial cells
Authors: Malika Arhatte, Gihan S. Gunaratne, Charbel El Boustany, Éric R. Honoré, Amanda Jane Patel
Year: 2019

 

 

✅ Conclusion

Driven by curiosity and guided by precision, Dr. Glogowska continues to make meaningful strides in biomedical research. Her work stands at the intersection of basic science and medical application, with the potential to influence future therapeutic strategies for cardiovascular and inflammatory diseases. With her versatile skill set and visionary approach, she is well-positioned to leave a lasting impact on the scientific and medical communities. As she moves forward, Dr. Glogowska aspires to further bridge laboratory discoveries with clinical innovations, fostering a legacy of scientific excellence and translational breakthroughs.

 

linlin zhang | physical exercise promote cognition | Best Researcher Award

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Dr. Linlin Zhang | physical exercise promote cognition | Best Researcher Award

Dr. linlin zhang, henan normal universoty, China.

Zhang Linlin is a dedicated researcher and educator whose academic journey spans from a strong foundation in physical education to a specialized focus on exercise physiology and neurobiology. Through her undergraduate, master’s, and Ph.D. studies, she has cultivated expertise in the physiological and neurological effects of exercise, particularly in relation to cognitive function and neurodegenerative diseases. Her professional career at Henan Normal University has allowed her to further develop her research while inspiring the next generation of scholars. With an impressive portfolio of publications and accolades, her contributions to the field have significantly enhanced the understanding of exercise as a therapeutic tool for brain health.

Profile

Scopus

✨ Early Academic Pursuits ✨

Zhang Linlin’s journey in academia began with a strong passion for physical education and human science. She pursued her undergraduate studies at Luoyang Normal University, Henan Province, where she earned a degree in Physical Education (2011-2015). This foundational phase allowed her to explore key disciplines such as pedagogy, sports anatomy, and exercise physiology, shaping her understanding of the intricate relationship between physical activity and human health. Fuelled by a desire to deepen her expertise, she continued her education at the Capital Institute of Physical Education (2015-2018), specializing in Sports Human Science for her master’s degree. Here, she refined her knowledge of sports training, rehabilitation, and neurophysiology, setting the stage for her future research endeavors.

🔬 Professional Endeavors 🔬

Zhang Linlin’s commitment to academic excellence led her to pursue a Ph.D. in Sports Human Science at Fujian Normal University (2019-2022), where she engaged in cutting-edge research on exercise physiology and neurobiology. Her doctoral studies provided her with hands-on experience in experimental techniques such as brain localization, microdialysis sampling, Western Blot analysis, and ELISA, equipping her with a robust scientific skillset. Upon completing her Ph.D., she secured a teaching and research position at the School of Physical Education, Henan Normal University (2022-Present), where she continues to inspire students while advancing her research on the intersection of exercise and brain health.

🌍 Contributions and Research Focus 🌍

A central theme in Zhang Linlin’s research is understanding how physical exercise influences brain health, particularly in neurodegenerative and cognitive disorders. She has extensively studied the effects of treadmill exercise and wheel running on synaptic plasticity, neuroinflammation, and neurotransmitter modulation in models of vascular dementia and Alzheimer’s disease. Her work has unveiled critical insights into the neuroprotective mechanisms of exercise, demonstrating its role in enhancing recognition memory, reducing microglial activation, and preserving dopamine and serotonin levels in the brain. By integrating molecular biology and behavioral neuroscience, her research bridges the gap between exercise physiology and neurobiological health.

🌟 Accolades and Recognition 🌟

Zhang Linlin’s outstanding contributions to her field have earned her numerous prestigious awards. She was honored with the Outstanding Graduate Thesis Award in 2022, reflecting the high impact and quality of her research. Additionally, she secured first-class scholarships for graduate students in both 2020-2021 and 2021-2022, a testament to her academic excellence and dedication. In recognition of her potential, she was also selected for the Outstanding Doctoral Dissertation Cultivation Project in 2020, further solidifying her position as a leading researcher in exercise neurobiology.

📚 Impact and Influence 📚

With an impressive publication record, Zhang Linlin has significantly contributed to the scientific community. As the first author, she has published five influential papers, including one SSCI paper, three SCI papers, and one paper in a domestic authoritative core journal. Her research has appeared in prestigious journals such as Scientific Reports, Physiology & Behavior, and Behavioural Brain Research, gaining recognition for its novel findings on exercise-induced neuroprotection. Additionally, she has co-authored multiple studies and played a key role in editing the book Exercise and Health, further extending her impact on the academic and professional domains.

🤖 Legacy and Future Contributions 🤖

Zhang Linlin envisions a future where exercise is widely recognized as a powerful intervention for cognitive and neurological disorders. She aims to continue her research on the molecular pathways through which physical activity enhances brain function, with the goal of translating her findings into clinical applications. By mentoring the next generation of scholars and collaborating with interdisciplinary experts, she seeks to further expand the understanding of exercise physiology in neurological health. Her unwavering dedication to science and education ensures that her legacy will inspire future researchers and health professionals in the pursuit of knowledge and well-being.

 

publication

Title: Treadmill exercise pretreatment ameliorated structural synaptic plasticity impairments of medial prefrontal cortex in vascular dementia rat and improved recognition memory

Authors: L. Zhang, Y. Chen, Y. Fan, L. Shi

Year: 2024

🎯 Conclusion 🎯

Zhang Linlin’s research bridges the gap between physical activity and neurobiological health, providing valuable insights into the protective effects of exercise on cognition and neurological disorders. Her work not only advances scientific knowledge but also holds promise for real-world applications in disease prevention and rehabilitation. With a strong commitment to education, research, and innovation, she continues to pave the way for future advancements in exercise neuroscience. As she moves forward in her career, her legacy will undoubtedly inspire further exploration into the powerful connection between movement and brain health.