Dr SON DINH PHONG, DUYTAN UNIVERSITY, Vietnam
Dr. Dinh Phong Son is a dedicated researcher in molecular medicine at Duy Tan University, Vietnam. With a Ph.D. from Guangxi Medical University, China, and a background in laboratory medicine from Hue University of Medicine and Pharmacy, his research focuses on molecular biomarkers for early disease detection 🧪🔬. He explores the LncRNA/CircRNA/miRNA/gene/protein-drug interaction network and gene-editing techniques like CRISPR/Cas9 for targeted therapy. His work on cardiovascular disease and cancer diagnostics has been published in prestigious journals 📚🧑🔬. Passionate about advancing molecular biology, he aspires to contribute to innovative breakthroughs in disease research.
Publication Profile
orcid
Education
Dr. Dinh Phong Son 🎓 holds a degree in Laboratory Medicine Technique from Hue University of Medicine and Pharmacy, Vietnam, and a Ph.D. in Molecular Medicine from Guangxi Medical University, China. 🧬 His expertise lies in molecular biology, with a strong focus on disease biomarkers and gene-targeted therapies. 🏥🔬 With a solid academic foundation, he has contributed significantly to scientific advancements, particularly in precision medicine and diagnostics. His research aims to enhance medical treatments by identifying key genetic markers, paving the way for innovative therapeutic approaches. 🌍✨ Dr. Son’s dedication to science continues to drive breakthroughs in healthcare. 💡👨⚕️
Research and Innovations
Dr. Son Dinh Phong 🔬 is deeply engaged in advancing molecular biology through next-generation sequencing and online medical databases. His primary focus is identifying potential biomarkers for early disease detection, including diabetes, cardiovascular diseases, stroke, and cancer. 🧬🩺 His research also explores gene-targeted therapies, utilizing CRISPR/Cas9 for gene editing, overexpression, and silencing. 🏥 His studies on LncRNA/CircRNA/miRNA/gene/protein-drug interaction networks provide a foundation for future medical breakthroughs. 📊✨ Committed to innovation, Dr. Son’s ongoing work (2023-2025) aims to drive scientific progress, hoping for greater support to expand molecular biology research worldwide. 🌍💡
Research Contributions
Dr. Son Dinh Phong 🔬 is highly proficient in advanced molecular biology techniques, including PCR, qPCR, and sequencing analysis 🧪🧬. He specializes in CRISPR/Cas9 genome editing, RNA silencing, and overexpression assays, contributing to groundbreaking gene therapy research. 🏥 His expertise also includes cell culture, western blotting, and fluorescence in situ hybridization, essential for studying gene expression and protein interactions. 🔍🧫 Additionally, he excels in bioinformatics and molecular docking simulations, enabling in-depth analysis of gene interactions and drug responses. 💻💊 With a strong foundation in computational biology, Dr. Son continues to drive innovation in precision medicine and molecular diagnostics. 🚀✨
Editorial Appointments
Dr. Son Dinh Phong 🌍🔬 actively contributes to the global scientific community through his extensive research and publications. While specific editorial roles, consultancy projects, or industry collaborations may not be listed, his scholarly work reflects deep engagement in molecular biology and precision medicine. 🧬📖 His ORCID profile further validates his impactful contributions, showcasing his dedication to advancing medical research. 🏥✨ Through collaborations and scientific discourse, Dr. Son continues to push the boundaries of innovation, striving to enhance disease diagnostics and therapeutic strategies. His commitment to research ensures lasting contributions to the ever-evolving field of molecular medicine. 💡🚀
Research Focus
Dr. Son Dinh Phong’s research primarily focuses on cardiovascular diseases 🫀, non-coding RNAs 🧬, and bioinformatics-driven biomarker discovery 🖥️. His work explores circular RNAs (circRNAs) and microRNAs (miRNAs) in coronary heart disease (CHD) 🏥, revealing their role as competing endogenous RNAs (ceRNAs) in gene regulation. Additionally, he investigates serum miRNAs as potential diagnostic biomarkers for various cancers 🎗️ and employs computational approaches 🔬 to identify key regulatory networks in diseases like latent tuberculosis 🦠. His studies integrate molecular biology, genomics, and systems biology to advance precision medicine 🎯 and therapeutic innovations 💊 for complex diseases.
Publication Top Notes