Amira Badr | Biochemistry | Best Researcher Award

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Prof. Amira Badr | Biochemistry | Best Researcher Award

Professor of Pharmacology and Toxicology, King Saud University, Saudi Arabia.

Dr. Amira Mohammad Abd Elrahim Mohammad Badr is an Associate Professor of Pharmacology and Toxicology at Ain Shams University, Egypt, and King Saud University, Saudi Arabia. She has over two decades of academic and research experience, having made significant contributions to pharmacological and toxicological sciences. Her expertise spans neuropharmacology, cardiovascular pharmacology, environmental toxicology, and chemotherapy-induced organ toxicity. Dr. Badr has published extensively in high-impact journals and participated in numerous national and international conferences. She has supervised several Master’s and PhD theses and served on thesis examination committees. Her academic excellence has earned her recognition among the world’s top 2% scientists by Stanford University. She is also actively involved in curriculum development, quality assurance, and faculty training programs. In addition to her academic achievements, Dr. Badr has contributed to peer review processes and editorial roles in prestigious journals. Her research continues to impact both scientific knowledge and public health policy.

Professional Profile 

Dr. Amira Badr holds a distinguished academic record in pharmaceutical sciences from Ain Shams University, Cairo, Egypt. She earned her Ph.D. in Pharmaceutical Sciences with a thesis focusing on the pharmacological outcomes of carvedilol and carnitine in treating myocardial infarction in rats. This was preceded by a Master’s degree, where she investigated the hepatoprotective effects of natural products. Her undergraduate education culminated in a Bachelor of Science in Pharmaceutical Sciences , where she graduated with top honors, ranking first among her peers. Throughout her academic journey, Dr. Badr has demonstrated consistent academic excellence, producing impactful research that led to journal publications at each level of study. Her educational background laid a solid foundation for her specialization in pharmacology and toxicology and provided her with critical analytical and experimental skills. These have fueled her passion for academic teaching, mentoring, and cutting-edge biomedical research over the years.

Experience 

Dr. Amira Badr possesses over 20 years of academic experience in pharmacology and toxicology. Her career began  as an instructor at Ain Shams University, followed by roles as an assistant lecturer and lecturer.  she transitioned to King Saud University, where she progressed from Assistant to Associate Professor. Parallel to her roles in Saudi Arabia, she maintained affiliations with Ain Shams University, reflecting her dual academic presence. Dr. Badr has taught numerous undergraduate and postgraduate courses in pharmacology, toxicology, and biochemistry. Her extensive teaching includes advanced topics such as neuropharmacology, pharmacogenomics, and industrial toxicology. She also served as a mentor for numerous graduation projects and supervised multiple Master’s theses. In addition to teaching, she has been involved in quality assurance, scientific committees, and student evaluation processes. Her multifaceted experience spans research leadership, academic governance, and scientific mentorship, demonstrating her deep commitment to both education and biomedical research.

Professional Development

Dr. Amira Badr has pursued comprehensive professional development, undertaking over 25 training courses spanning teaching methodologies, research ethics, scientific writing, technology in education, and leadership. At Ain Shams University, she completed programs on communication skills, teaching effectiveness, research methods, and exam evaluation. Later, she expanded her expertise through advanced courses in e-learning, stress management, sustainable development, and conference organization. At King Saud University, she undertook specialized training in microteaching, capstone course design, and digital tools such as Blackboard, EndNote, and Photoshop. She also completed training in project management and program learning outcome assessments, aligning her work with modern academic standards and national qualification frameworks. Her role as a trainer for new academic staff further illustrates her leadership in academic capacity building. These continued development efforts reflect her dedication to remaining at the forefront of academic excellence and innovation, enhancing both her teaching capabilities and research supervision effectiveness in a dynamic educational environment.

Skills & Expertise

Dr. Amira Badr brings a diverse skill set that spans research, teaching, leadership, and scientific communication. Her core competencies include experimental pharmacology, toxicological assessments, molecular biology techniques, and preclinical models of organ toxicity. She is adept at teaching undergraduate and postgraduate courses, having developed and delivered curricula in basic and advanced pharmacology, clinical toxicology, and pharmacogenomics. She is proficient in scientific writing, manuscript editing, and supervising graduate research, with many students successfully completing their theses under her guidance. Her technical capabilities include using academic platforms like Blackboard, EndNote, and CourseLab. Dr. Badr also demonstrates strong administrative and organizational skills, evident from her roles in academic committees, quality assurance, and faculty training. Her participation in workshops on leadership, time management, digital tools, and e-learning reflects a continuous drive for self-improvement. Her combination of scientific acumen, teaching excellence, and project leadership make her a well-rounded and highly effective academic professional.

Resarch Focus

Dr. Amira Badr’s research is centered on pharmacology and toxicology, with a specialized focus on organ protection from chemotherapy-induced damage, neuropharmacology, cardiovascular pharmacology, and metabolic disorders such as non-alcoholic fatty liver disease. She investigates protective mechanisms of natural compounds and pharmacological agents against oxidative stress, inflammation, and apoptosis in preclinical models. Her research integrates molecular pharmacology, pathophysiology, and experimental toxicology, particularly emphasizing the modulation of signaling pathways like TLR4/NF-κB, Notch, and SIRT1/Nrf2 in disease progression and drug response. She is also engaged in environmental toxicology, exploring the effects of pollutants such as microplastics and heavy metals on organ systems. Her translational approach aims to bridge bench-side discoveries with therapeutic potential. Notably, her recent work has explored drug delivery systems, phytotherapy, and molecular targets in cancer and kidney diseases. Dr. Badr’s holistic and multidisciplinary research positions her at the forefront of pharmacological innovation aimed at safer, more effective therapeutic strategies.

Awards & Recognitions

Dr. Amira Badr has earned notable recognition throughout her academic career. Most prominently, she has been included in Stanford University’s global list of the top 2% of scientists  based on Scopus-indexed data, reflecting her influential contributions to pharmacology and toxicology. With over 1088 citations and an h-index of 16 (Google Scholar), she has demonstrated consistent scholarly impact. She has served as the principal investigator of a research group funded by the Deanship of Scientific Research at King Saud University. Additionally, she holds the position of Academic Editor at Oxidative Medicine and Cellular Longevity and has reviewed over 40 manuscripts for top-tier ISI journals. Her extensive involvement in academic committees, research days, and scientific poster and oral presentations further underscores her leadership and commitment to scientific advancement. These honors validate her reputation as an accomplished researcher and educator in her field, both nationally and internationally.

Publication Top Notes 

Conclusion:

Dr. Amira Badr’s extensive research contributions, recognized scientific impact, and leadership in toxicology and pharmacology make her an outstanding contender for the Best Researcher Award. Her profile aligns strongly with the award’s core criteria: research excellence, originality, societal impact, and mentorship. With continued international collaboration and translational focus, she is poised to make even greater global contributions to biomedical science.

Seohee Han | Biochemistry | Best Researcher Award

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Mr. Seohee Han | Biochemistry | Best Researcher Award

Master’s degree student at Inje University in South Korea.

 

Han Seohee 👨‍🔬, a 26-year-old master’s student at Inje University 🎓, is a rising talent in the field of biomedical engineering and healthcare IT 💡. Specializing in Organ-on-a-Chip, Eye-on-a-Chip, and microfluidics 💧, he actively contributes to innovative research at the BioMEMS Lab 🔬. His expertise spans PDMS chip fabrication, TEER testing, drug screening 💊, and smart manufacturing using 3D printing 🖨️. With strong skills in AutoCAD, SolidWorks, and Fusion360 📐, Han Seohee is leading advancements in disease modeling and anti-aging healthcare technologies 👁️🧠. He is expected to graduate in August 2025 and continues to shape the future of medical research 🚀

Professional Profile

Orcid 

🔍 Summary of Suitability:

Han Seohee, a master’s student at Inje University specializing in biomedical engineering and healthcare IT, has demonstrated exceptional dedication to interdisciplinary research in organ-on-a-chip, eye-on-a-chip, bio-MEMS, and drug screening technologies. As a researcher at the BioMEMS Lab, his expertise spans PDMS chip fabrication, semiconductor processes (Su-8), TEER testing, and CAD-based microdevice design. He has actively contributed to innovative healthcare platforms, organoid-based disease models, and next-gen smart manufacturing systems.

🎓 Education

  • 📍 Inje University, Graduate School (2023 – Aug 2025, expected)

    • Master’s degree in Digital Anti-Aging Healthcare & Convergence Biomedical Engineering

    • Focus: Organ-on-a-Chip, BioMEMS, Microfluidics, Smart Healthcare IT

  • 📍 Inje University, Undergraduate (Completed)

    • Major in Biomedical Engineering

    • Strong foundation in medical devices, biosignals, and human physiology

🧪 Research Experience

  • 🧬 Researcher at BioMEMS Lab, Inje University

    • Working on Organ-on-a-Chip and Eye-on-a-Chip platforms

    • Developing PDMS-based microfluidic chips using SU-8 photolithography

  • 🧠 Participated in a project on depression treatment using brain organoid-on-a-chip

    • Drug efficacy testing using 3D tissue models

    • Integration of pharmacological data with bio-sensing technologies

  • 👁️ Led research on artificial eye models for vision diagnostics and smart device integration

    • Included lens design, curvature simulation, and 3D prototyping

  • 🧫 Conducted TEER (Transepithelial Electrical Resistance) measurements for barrier integrity testing in microfluidic platforms

  • 🛠️ Experience in smart manufacturing and 3D printing for biomedical applications

    • Designed parts using AutoCAD, SolidWorks, and Fusion360

  • 💊 Involved in new drug development and screening systems using organ-on-chip models

    • Mimicked physiological conditions for more accurate in-vitro analysis

Professional Development 🚀📖

🧠 Han Seohee has actively pursued professional growth through interdisciplinary research in biomedical engineering and healthcare IT. 💡 He developed expertise in Organ-on-a-Chip 🧬, Eye-on-a-Chip 👁️, and microfluidic systems using PDMS and SU-8 fabrication. 🔬 He sharpened his skills in 3D printing 🖨️, lens design 🛠️, and CAD software like AutoCAD and SolidWorks. 💊 Through drug screening, TEER testing ⚡, and organoid modeling, he deepened his understanding of pharmacological evaluation and disease mechanisms. 🧪 His active role in BioMEMS Lab research and smart healthcare projects demonstrates his commitment to innovation 🌐 and advancing next-generation biomedical solutions. 🚀

Research Focus 🔍🤖

🔬 Han Seohee’s research focuses on Biomedical Engineering and Healthcare IT Convergence 🧠, particularly in the development of advanced organ-on-a-chip platforms 🧬 like Eye-on-a-Chip 👁️. His work integrates microfluidics 💧, bio-MEMS technologies ⚙️, and semiconductor processes like SU-8 fabrication 🧱 to simulate human organ functions for drug screening 💊 and disease modeling 🧪. He contributes to projects involving smart manufacturing platforms 🖨️, artificial eye models, and anti-aging healthcare 🧓🏻➡️🧑🏻. His interdisciplinary approach bridges biomedical science, engineering, and digital healthcare innovation 🌐, pushing the boundaries of next-gen medical testing and personalized medicine 🧫.

🏆 Awards & Honors:

🏅 Best Poster Award – Recognized for presenting outstanding research on Eye-on-a-Chip at an academic conference.
🎖️ Research Excellence Grant Recipient – Awarded for high-impact work in biomedical engineering and drug screening.
🏆 Innovation in Smart Healthcare Award – Honored for contributions to anti-aging healthcare technology platforms.
📜 Academic Scholarship – Received competitive funding during graduate studies for academic excellence.
🔬 Top Young Researcher Recognition – Acknowledged for interdisciplinary work in organoid-on-a-chip and digital healthcare convergence.
👨‍🔬 Lab Leadership Recognition – Commended by BioMEMS Lab for contributions to research direction and project outcomes.

Publications & Citations 📚

📄 “Comparison of Wound Healing Effects of Different Micro-Patterned Hydrogels on the Skin of Secondary Intention Rat Model”Gels, 2025 | ✍️ Author: Han Seohee | 🔗 DOI: 10.3390/gels11040239 | 📅 Published: 2025 | 👥 Cited by: 0 (as of now) | 🧪 #WoundHealing #Hydrogels #Bioengineering

🔍 Conclusion:

Han Seohee exemplifies the spirit of next-generation biomedical innovation. His cross-disciplinary knowledge, practical lab experience, and future-focused research projects make him a strong contender for the Best Researcher Award. His work has the potential to revolutionize personalized medicine, disease diagnostics, and smart therapeutics, reflecting both academic excellence and real-world impact. 🌐🔬💡