Zhuofeng Lin | Myocardial infarction | Best Researcher Award

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Prof. Dr. Zhuofeng Lin | Myocardial infarction | Best Researcher Award 

Prof. Dr. Zhuofeng Lin, Guangdong Medical University, China

Prof. Dr. Zhuofeng Lin is the Dean of the Experimental Animal Center and Dean of the Innovational Center of Cardiometabolic Disease at Guangdong Medical University, China. His research focuses on cross-organ communication in cardiovascular and metabolic diseases, particularly the role of metabolic hormones and obesity. He has made significant contributions to understanding FGF21 metabolic regulation, impacting blood glucose stability, blood pressure control, and anti-atherosclerosis therapies. His work also explores new targets for anti-myocardial infarction, heart failure, and vascular calcification drugs, driving innovation in metabolic and cardiovascular medicine. His research is widely recognized in international medical science.

AUTHOR PROFILE

Google Scholar Profile

🎓EARLY ACADEMIC PURSUITS:

Prof. Dr. Zhuofeng Lin’s academic journey began with a strong foundation in medical sciences, focusing on cardiovascular and metabolic diseases. His early research explored physiological mechanisms and metabolic interactions, leading him to specialize in cross-organ communication and metabolic regulation. His education and initial training laid the groundwork for his extensive contributions to cardiometabolic research.

🏢PROFESSIONAL ENDEAVORS:

Prof. Lin has held prestigious positions at Guangdong Medical University, where he currently serves as:

  • Dean of the Experimental Animal Center 🐁
  • Dean of the Innovational Center of Cardiometabolic Disease 🫀

His leadership in these institutions has driven significant advancements in experimental research methodologies and the development of innovative treatment strategies for metabolic disorders.

🔍CONTRIBUTIONS AND RESEARCH FOCUS ON MYOCARDIAL INFARCTION:

Prof. Lin’s research is dedicated to practical applications, with a strong emphasis on:

  • Cross-organ communication in cardiovascular and metabolic diseases
  • Pathogenesis of cardiometabolic disorders linked to metabolic hormones and obesity
  • Fibroblast Growth Factor 21 (FGF21) and its role in metabolic regulation

His studies have provided groundbreaking insights into FGF21’s ability to regulate:
Blood glucose levels
Blood pressure stability
Anti-atherosclerosis mechanisms
Anti-Metabolic Dysfunction-Associated Steatohepatitis (MASH) therapies

Additionally, his work focuses on discovering new therapeutic targets for:
⚕️ Anti-myocardial infarction drugs
⚕️ Anti-heart failure treatments
⚕️ Anti-vascular calcification solutions

🌍IMPACT AND INFLUENCE:

Prof. Lin’s research has had a profound impact on global medical science, particularly in the fields of:
🔹 Metabolic disease management
🔹 Cardiovascular treatment innovations
🔹 Therapeutic drug development

His studies have influenced clinical practices, contributing to better patient outcomes in cardiovascular and metabolic health. His pioneering work in hormonal regulation and metabolic stability has inspired numerous scientists and researchers worldwide.

📄ACADEMIC CITES AND RECOGNITION:

Prof. Lin’s research is widely recognized in high-impact medical journals, with numerous citations supporting his theories. His work on FGF21 metabolic regulation is frequently referenced in the fields of endocrinology, cardiology, and metabolic research. He has been a keynote speaker at international medical conferences, sharing his insights with the global scientific community.

🚀LEGACY AND FUTURE CONTRIBUTIONS:

With an unwavering commitment to scientific innovation, Prof. Lin continues to shape the future of medical research. His ongoing projects aim to:
🔬 Develop novel cardiometabolic therapies
🔬 Enhance cross-organ communication research
🔬 Introduce cutting-edge treatments for heart disease and metabolic disorders

His legacy will be defined by his transformative contributions to medicine, paving the way for future breakthroughs in cardiovascular and metabolic health.

💡CONCLUSION:

Prof. Dr. Zhuofeng Lin is a pioneering leader in cardiometabolic research, making groundbreaking contributions to understanding metabolic regulation and cardiovascular health. His work on FGF21 has revolutionized approaches to blood glucose stability, blood pressure control, and anti-atherosclerosis treatments . With a vision for therapeutic innovation, he continues to explore new drug targets for heart failure, myocardial infarction, and vascular calcification . His impact on medical science is profound, shaping the future of metabolic and cardiovascular treatments. His dedication ensures lasting advancements in healthcare and patient well-being.

TOP NOTABLE PUBLICATIONS

Adiponectin mediates the metabolic effects of FGF21 on glucose homeostasis and insulin sensitivity in mice

Authors: Z Lin, H Tian, KSL Lam, S Lin, RCL Hoo, M Konishi, N Itoh, Y Wang, …
Journal: Cell Metabolism
Year: 2013

Fibroblast growth factor 21 prevents atherosclerosis by suppression of hepatic sterol regulatory element-binding protein-2 and induction of adiponectin in mice

Authors: Z Lin, X Pan, F Wu, D Ye, Y Zhang, Y Wang, L Jin, Q Lian, Y Huang, …
Journal: Circulation
Year: 2015

Serum levels of FGF-21 are increased in coronary heart disease patients and are independently associated with adverse lipid profile

Authors: Z Lin, Z Wu, X Yin, Y Liu, X Yan, S Lin, J Xiao, X Wang, W Feng, X Li
Journal: PLoS One
Year: 2010

Exercise alleviates obesity-induced metabolic dysfunction via enhancing FGF21 sensitivity in adipose tissues

Authors: L Geng, B Liao, L Jin, Z Huang, CR Triggle, H Ding, J Zhang, Y Huang, …
Journal: Cell Reports
Year: 2019

Lipocalin-2 mediates non-alcoholic steatohepatitis by promoting neutrophil-macrophage crosstalk via the induction of CXCR2

Authors: D Ye, K Yang, S Zang, Z Lin, HT Chau, Y Wang, J Zhang, J Shi, A Xu, …
Journal: Journal of Hepatology
Year: 2016

Circulating FGF21 levels are progressively increased from the early to end stages of chronic kidney diseases and are associated with renal function in Chinese

Authors: Z Lin, Z Zhou, Y Liu, Q Gong, X Yan, J Xiao, X Wang, S Lin, W Feng, X Li
Journal: PLoS One
Year: 2011

FGF21 prevents angiotensin II-induced hypertension and vascular dysfunction by activation of ACE2/angiotensin-(1–7) axis in mice

Authors: X Pan, Y Shao, F Wu, Y Wang, R Xiong, J Zheng, H Tian, B Wang, …
Journal: Cell Metabolism
Year: 2018

Adiponectin protects against acetaminophen-induced mitochondrial dysfunction and acute liver injury by promoting autophagy in mice

Authors: Z Lin, F Wu, S Lin, X Pan, L Jin, T Lu, L Shi, Y Wang, A Xu, X Li
Journal: Journal of Hepatology
Year: 2014

Pancreatic fibroblast growth factor 21 protects against type 2 diabetes in mice by promoting insulin expression and secretion in a PI3K/Akt signaling‐dependent manner

Authors: Y Pan, B Wang, J Zheng, R Xiong, Z Fan, Y Ye, S Zhang, Q Li, F Gong, …
Journal: Journal of Cellular and Molecular Medicine
Year: 2019

Dynamic change of serum FGF21 levels in response to glucose challenge in human

Authors: Z Lin, Q Gong, C Wu, J Yu, T Lu, X Pan, S Lin, X Li
Journal: The Journal of Clinical Endocrinology & Metabolism
Year: 2012

Quan Yuan | Cardiovascular| Best Researcher Award

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Prof. Quan Yuan | Cardiovascular | Best Researcher Award 

Prof. QuanYuan, Wuhan University, China

Professor Quan Yuan, a distinguished researcher at Wuhan University, specializes in analytical chemistry with a focus on developing innovative methods for complex sample analysis. His pioneering work includes creating high-sensitivity field-effect transistor-based biosensors for the detection of myocardial injury biomarkers, significantly advancing rapid and accurate heart disease diagnosis. With over 139 journal publications, an H-Index of 41, more than 6,070 citations, 9 patents, and 2 authored books, Professor Yuan’s contributions are widely recognized. As Deputy Editor of “Sensors & Diagnostics” and a key member of multiple professional committees, he exemplifies excellence in research, leadership, and scientific innovation.

Author Profile

Orcid Profile

Education:

Professor Quan Yuan has an outstanding educational background that has shaped his career in analytical chemistry and biosensor technology. He earned his undergraduate degree in Chemistry from a prestigious institution in China, where he developed a strong foundation in chemical principles and experimental techniques. He pursued his master’s degree, specializing in analytical methods, which laid the groundwork for his innovative research. Professor Yuan completed his Ph.D. in Analytical Chemistry, focusing on advanced biosensor development for medical applications. His academic journey reflects a commitment to excellence, equipping him with the expertise to contribute significantly to science, innovation, and education.

Professional Experience:

Professor Quan Yuan has extensive professional experience in both academia and industry. He has led multiple research projects, including the development of highly sensitive biosensors for myocardial injury biomarkers, which have advanced clinical diagnostic methods. As a Deputy Editor for prominent journals such as Sensors & Diagnostics and Chinese Journal of Chemistry, he actively contributes to the scientific community. Professor Yuan has collaborated on various consultancy projects and has worked with leading organizations to translate his research into practical applications. His contributions span across over 6,000 citations and numerous patents, solidifying his reputation as a leading figure in his field.

Research skills:

Professor Quan Yuan possesses exceptional research skills in analytical chemistry and biosensor development. His expertise lies in designing high-sensitivity detection methods, particularly for complex samples such as body fluids and tissues. He has developed a field-effect transistor-based biosensor capable of detecting multiple myocardial injury biomarkers, using advanced machine learning algorithms for risk assessment and prognosis monitoring. His proficiency in integrating circuit technology with biosensors has led to the creation of a portable analysis system for rapid clinical diagnostics. Professor Yuan’s skills in both experimental design and data interpretation, alongside his interdisciplinary approach, have significantly impacted the medical diagnostics field.

Awards and Honors:

Professor Quan Yuan has received numerous awards and honors in recognition of his groundbreaking contributions to analytical chemistry and biomedical diagnostics. His research has earned him significant recognition in the scientific community, including over 6,070 citations and an H-Index of 41. He holds 9 patents and has published extensively in prestigious journals. In addition to his research achievements, Professor Yuan serves as Deputy Editor for “Sensors & Diagnostics” and the “Chinese Journal of Chemistry.” He is actively involved in several professional committees, including the Chinese Chemical Society and the China Medical Equipment Association, showcasing his leadership in advancing scientific innovation.

Conclusion:

Professor Quan Yuan’s exceptional research and groundbreaking innovations in analytical chemistry, particularly in the development of advanced biosensors for heart disease diagnosis, make him a highly deserving candidate for the Best Researcher Award. His pioneering work has not only advanced scientific understanding but also led to practical applications in clinical diagnostics, improving patient care. With a remarkable publication record, numerous patents, and influential roles in editorial and professional committees, Professor Yuan’s leadership in both research and academia has significantly impacted the field. His ongoing contributions continue to shape the future of medical diagnostics and scientific innovation.

Top Notable Publications

Persistent luminescence encoding for rapid and accurate oral-derived bacteria identification

Authors: Not provided

Journal: Chinese Chemical Letters

Year: 2025

Staggered-Stacking Two-Dimensional Covalent Organic Framework Membranes for Molecular and Ionic Sieving

Authors: Not provided

Journal: ACS Nano

Year: 2024

Bio‐Inspired Multiple Responsive NIR II Nanophosphors for Reversible and Environment‐Interactive Information Encryption

Authors: Not provided

Journal: Advanced Materials

Year: 2024

Framework nucleic acid strategy enables closer microbial contact for programming short-range interaction

Authors: Not provided

Journal: Science Advances

Year: 2024

Defect Regulation Strategy of Porous Persistent Phosphors for Multiple and Dynamic Information Encryption

Authors: Not provided

Journal: Small Methods

Year: 2024

DNA Nanomaterial-Based Electrochemical Biosensors for Clinical Diagnosis

Authors: Not provided

Journal: ACS Nano

Year: 2024

Smart Persistent Luminescence Imaging for Early Diagnosis of Drug-Induced Liver Injury

Authors: Not provided

Journal: Chemical & Biomedical Imaging

Year: 2024

Thermodynamics and Kinetics‐Directed Regulation of Nucleic Acid‐Based Molecular Recognition

Authors: Not provided

Journal: Small Methods

Year: 2024

Bionic Potassium Ion Channel in Live Cells Repairs Cardiomyocyte Function

Authors: Not provided

Journal: Journal of the American Chemical Society

Year: 2024

Self‐Powered and Self‐Recoverable Multimodal Force Sensors Based on Trap State and Interfacial Electron Transfer

Authors: Not provided

Journal: Angewandte Chemie International Edition / Angewandte Chemie

Year: 2024