Dr. nisreen kaddim, Ministry of Higher Education and Scientific Research, University of Babylon, Iraq
Dr. Nisreen Kaddim Radi is an Assistant Professor at the University of Babylon, specializing in molecular biology, genetics, PCR, and virology 🧬. Her research focuses on antimicrobial resistance, food safety, and innovative antibacterial films for medical applications 🏥. She has presented at international conferences and published extensively in high-impact journals 📚. Passionate about advancing science, she integrates computational and experimental approaches to explore anticancer and antibacterial agents ⚗️. With a commitment to research and education, Dr. Nisreen inspires students and contributes to scientific innovation 🌍.
Publication Profile
Google Scholar
Professional Background
Dr. Nisreen Kaddim Radi 🎓 is an Assistant Professor at the College of Science for Women, University of Babylon, specializing in molecular biology, genetics, PCR, and virology 🦠, with a focus on food safety and packaging 🍱. She is a member of the Arab Association for Science and Technology, Iraq branch, and serves on the Educational Guidance Committee at her college. Dr. Nisreen has published numerous research papers and actively participates in global conferences 🌍, including the 2022 International Conference on Sustainable Development Goals in Istanbul, ICAB 2022 at the University of Basrah, and ICAB2 2024, where she presented her studies on antimicrobial resistance, genetic variation, and immunological research
Memberships
Dr. Nisreen Kaddim Radi 🔬 is a dedicated researcher with significant contributions to molecular biology, genetics, and virology 🧬. Although she does not hold editorial positions or industry collaborations, her active engagement in scientific research strengthens her impact in the field. As a member of the Arab Association for Science and Technology 🌍, she remains connected to a network of experts, enhancing her academic and professional credibility. Through her research and participation in international conferences, Dr. Nisreen continues to contribute valuable insights to the scientific community, particularly in food safety and antimicrobial resistance 🦠.
Innovation in Methodology
Dr. Nisreen Kaddim Radi 🔬 combines computational simulations with experimental studies to develop innovative methods for enhancing the effectiveness of antibacterial and anticancer agents 🦠🎗️. Her dual-approach methodology integrates cutting-edge technology with practical applications, demonstrating a high level of scientific innovation 🚀. By bridging computational modeling with real-world experimentation, she contributes to advancing medical and pharmaceutical research, aligning perfectly with the award’s objectives 🏆. Her work not only improves therapeutic outcomes but also paves the way for more efficient and targeted treatments, reinforcing her role as a leading researcher in molecular biology and biotechnology 🧬.
Research Excellence
Dr. Nisreen Kaddim Radi 🔬 is pioneering the development of antibacterial films by integrating nanomaterials, polymers, and plant extracts 🌱🦠. Her innovative approach has profound implications for both medical and industrial applications 🏥🏭, positioning her at the forefront of antibacterial and anticancer material research 🎗️. Her groundbreaking study, Integrative Computational and Experimental Study of Propolis, Polyvinyl Alcohol, and Alhagi maurorum Complex as Anticancer and Antibacterial Agents 📜, showcases a multidisciplinary methodology, blending computational modeling with experimental validation 💻⚗️. This research enhances therapeutic potential, contributing to the advancement of novel biomedical materials and precision-targeted treatments 🚀.
Research Focus
Dr. Nisreen Kaddim Radi’s research primarily focuses on medical microbiology 🦠, immunology 🧬, and infectious diseases 🏥. Her work extensively explores viral infections such as Varicella Zoster Virus (VZV) 🏵️, Human Papillomavirus (HPV) 🎗️, and Hepatitis B Virus (HBV) 🦠, investigating genetic susceptibility and immune response. She also examines bacterial resistance 🧫, particularly in foodborne pathogens like E. coli, and studies immunological markers 🧪 in various infections. Her contributions in genetic polymorphisms 🔬, cytokine responses 🌡️, and molecular typing of pathogens highlight her expertise in understanding disease mechanisms and improving diagnostic approaches in infectious diseases and immunological disorders.