Jameel Al-Tamimi | Biopharmaceutics | Best Researcher Award

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Jameel Al-Tamimi | Biopharmaceutics | Best Researcher Award

Dr. Jameel Al-Tamimi, King Saud University, Saudi Arabia

Dr. Jameel Al-Tamimi is a distinguished researcher with a Ph.D. in Immunogenetics from King Saud University, Riyadh, Saudi Arabia. His research focuses on immunology, particularly the role of Killer Immunoglobulin-like Receptors (KIRs) in leukemia. He has expertise in molecular techniques, immunology, and forensic entomology. Dr. Al-Tamimi has published numerous research articles and has contributed to various academic committees. His teaching experience spans courses in molecular biology, human physiology, and medical entomology.

Publication Profile

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Education

Dr. Jameel Al-Tamimi πŸŽ“ is a distinguished researcher with a Ph.D. in Immunogenetics (Excellent 4.9/5) from King Saud University, where his thesis explored the Role of Killer Immunoglobulin-like Receptors (KIRs) with HLA Ligands in Saudi Leukemia Patients 🧬. He also holds an M.Sc. in Entomology and Parasitology (Excellent 4.9/5), investigating the anti-inflammatory effects of Pachycondyla sennaarensis (Samsum Ant) venom in male albino rats 🐜πŸ§ͺ. Dr. Al-Tamimi earned his B.Sc. in Biology (Very Good 89.9/100) from Thamar University, Yemen, with research focused on physiological changes in viral hepatitis (HbsAg and HCV) patients at Thamar Hospital 🧫🦠.

Experience

Dr. Jameel Al-Tamimi πŸ§‘β€πŸ”¬ brings a wealth of academic and research experience. Since 2023, he has served on the Scientific Committee for the Researcher Support Program (RSPD) and Research Groups Program (RGP) at the Deanship of Scientific Research πŸ“š. At King Saud University, he contributed to key committees, including labs, academic accreditation, exams, and graduate studies πŸ›οΈ. He supervised both the endocrinology and immunology laboratories πŸ§ͺ and mentored undergraduate and master’s students πŸŽ“. Skilled in handling rats, mice, and insects πŸ­πŸ¦—, Dr. Al-Tamimi is also proficient in advanced molecular biology, immunology, and physiology techniques πŸ§¬πŸ”¬.

Awards

Dr. Jameel Al-Tamimi πŸŽ“ has been recognized for his academic excellence with several prestigious awards. In 2015, he received an acknowledgment certificate from the Chairman of the Center of Excellence in the Development of Science and Mathematics Education at King Saud University πŸ…, highlighting his contribution to scientific advancement. Earlier, in 2013, he was honored with a Certificate of Appreciation (General Prize) during the first Graduate Student Annual Scientific Meeting at KSU πŸ“œπŸŽ‰. These achievements reflect his dedication to academic excellence, innovation in research, and commitment to the scientific community πŸŒŸπŸ“š.

Research Focus

Dr. Jameel Al-Tamimi is a multidisciplinary biomedical researcher whose primary focus lies in oxidative stress, wound healing, diabetes, and nanoparticle therapeutics. His work spans nanomedicine, immunomodulation, and natural product pharmacology, particularly in evaluating the biological activities of camel milk peptides, selenium and zinc oxide nanoparticles, and bioactive plant extracts. Dr. Al-Tamimi’s studies contribute significantly to redox biology, diabetic complications, and biofabrication of therapeutic agents, offering innovative strategies for combating chronic diseases and enhancing healing processes. πŸ§«πŸ’ŠπŸ« His collaborative work reflects a strong emphasis on toxicology, regenerative medicine, and bio-nanotechnology.

Publication Top Notes

Camel milk peptide improves wound healing in diabetic rats by orchestrating the redox status and immune response

Wound healing of different molecular weight of hyaluronan; in-vivo study‏

Folic acid and melatonin mitigate diabetic nephropathy in rats via inhibition of oxidative stress‏

Synthesis, structural characterization of silver (I)-NHC complexes and their antimicrobial, antioxidant and antitumor activities‏

Potential effects of the combination of nicotinamide, vitamin B2 and vitamin C on oxidative-mediated hepatotoxicity induced by thioacetamide‏

Efficacy of a Methanolic Extract ofΒ Adansonia digitataΒ Leaf in Alleviating Hyperglycemia, Hyperlipidemia, and Oxidative Stress of Diabetic Rats‏

Antioxidant Bioactivity of Samsum Ant (Pachycondyla sennaarensis) Venom Protects against CCL4‐Induced Nephrotoxicity in Mice‏

Biofabrication of Zinc Oxide Nanoparticle fromΒ Ochradenus baccatusΒ Leaves: Broad‐Spectrum Antibiofilm Activity, Protein Binding Studies, andΒ In VivoΒ Toxicity …‏

Oliwia Kordyl | Drug Delivery Systems | Best Research Article Award

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Oliwia Kordyl | Drug Delivery Systems | Best Research Article Award

Ms. Oliwia Kordyl, Poznan Univeristy of Medical Sciences, Poland

Ms. Oliwia Kordyl (b. June 9, 1997) is a dedicated PhD student at Poznan University of Medical Sciences, specializing in 3D printed microneedles for targeted drug delivery. With a background in biotechnology from Adam Mickiewicz University, her work spans molecular biology, pharmaceutical technology, and reproductive genetics. Oliwia has held roles as a lab manager, molecular biologist, and biotechnologist, contributing to innovative projects and scientific conferences. She is skilled in advanced lab techniques and passionate about travel, fitness, and continuous learning.

Publication Profile

orcid

Education

Ms. Oliwia Kordyl is currently pursuing her Ph.D. (Nov 2023–Present) at the Poznan University of Medical Sciences in Poland, focusing on 3D printed microneedles for voriconazole delivery in treating local skin infections. Her research involves optimizing microneedle manufacturing, assessing physicochemical and pharmaceutical properties in vitro, and evaluating drug permeation ex vivo and microbiological effectiveness πŸ§ͺ🧬. She earned her M.Sc. and B.Sc. in biotechnology from Adam Mickiewicz University (2016–2021), where she explored DNA methylation in oligozoospermia and gene expression in spermatogenesis 🧫. Her academic journey began at K.K. BaczyΕ„ski Secondary School, specializing in biology, physics, and chemistry πŸ”¬πŸ“š.

Experience

Ms. Oliwia Kordyl completed a valuable internship at Novazym Polska in PoznaΕ„ from July to August 2019. During her time at this renowned biotechnology company, she gained hands-on experience in laboratory techniques and deepened her understanding of industrial biotechnology practices πŸ”¬πŸ’Ό. The internship provided her with practical insights into the daily operations of a biotech firm and allowed her to apply her academic knowledge in a real-world setting πŸ§ͺπŸ“Š. This experience not only enhanced her technical skills but also strengthened her passion for research and innovation in the field of biotechnology, laying a strong foundation for her future scientific endeavors πŸš€.

Awards

πŸ† Ms. Oliwia Kordyl has actively contributed to the scientific community through speeches and posters at esteemed conferences. She presented on sperm DNA methylation at the 21st Andrology Day (2019) 🧬 and the 21st European Testis Workshop (2021) in Barcelona. Her posters featured at ESHRE 2020, the European Human Genetics Conference (2021), and the 6th Polish Congress of Genetics (2022) showcased her expertise in epigenetics and sperm chromatin structure πŸ§«πŸ“Š. In 2023, she co-authored a poster on microneedles for transdermal drug delivery at PolGerSym10 πŸ’‰. Oliwia also co-authored a publication in the International Journal of Molecular Sciences (2022) πŸ“„πŸ“š.

Research Focus

Ms. Oliwia Kordyl’s research focuses on the development of innovative drug delivery systems, particularly microneedle-based technologies for transdermal applications. Her work combines 3D printing, pharmaceutical coatings, and hydrogel systems to enhance the treatment of bacterial and fungal skin infections. She also explores photodynamic therapy and nanotechnology for targeted drug release. Her interdisciplinary approach bridges materials science, biomedical engineering, and pharmaceutics. Additionally, her research extends to epigenetic analysis in human sperm, highlighting her interest in reproductive biology. Her work is at the frontier of personalized medicine, non-invasive therapies, and advanced pharmaceutical technologies.

Publication Top Notes

Optimization of LCD-Based 3D Printing for the Development of Clotrimazole-Coated Microneedle Systems

Microneedle-based arrays – Breakthrough strategy for the treatment of bacterial and fungal skin infections

Microneedle System Coated with Hydrogels Containing Protoporphyrin IX for Potential Application in Pharmaceutical Technology

Global 5mC and 5hmC DNA Levels in Human Sperm Subpopulations with Differentially Protaminated Chromatin in Normo- and Oligoasthenozoospermic Males

Alberto Leyva | Biopharmaceutics | Best Researcher Award

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Alberto Leyva | Biopharmaceutics | Best Researcher Award

Prof. Alberto Leyva, Center for Genetic Engineering and Biotechnology, Cuba

πŸ”¬ Prof. Alberto Leyva GΓ‘lvez (b. September 18, 1976) is a Cuban microbiologist and expert in biopharmaceutical systems. πŸŽ“ He holds a Master’s in Science and has served at the Center for Genetic Engineering and Biotechnology since 2003. 🏭 As Head of Critical Systems, he specializes in analytical validation, antibody purification, and regulatory compliance. πŸ“‘ With 18 scientific publications, he has led key projects in water treatment, system validation, and quality assurance. πŸ… A dedicated educator, he conducts training in biotechnology, validation, and risk management. His expertise ensures excellence in biopharmaceutical production and regulatory standards. βœ…

Publication Profile

Education

Professor Alberto Leyva is a distinguished microbiologist with a strong academic and research background. He earned his Licenciado en MicrobiologΓ­a degree in 2003 from the Universidad de la Habana πŸŽ“ and later obtained a Master en Ciencias. Currently, he serves as an Investigador Auxiliar πŸ§ͺ and holds the title of TecnΓ³logo de I Nivel in the field of biotechnology. Since September 2003, he has been contributing to groundbreaking research at the Centro de IngenierΓ­a GenΓ©tica y BiotecnologΓ­a πŸ”¬, where he continues to advance scientific knowledge. His dedication to microbiology and biotechnology makes him a key figure in his field.

Professional ExperienceΒ 

Professor Alberto Leyva has extensive experience in microbiology and biotechnology, specializing in immunochemical techniques and analytical method validation πŸ§ͺ. He has worked on antibody purification through affinity columns and has authored 18 scientific articles in international journals πŸ“š. His expertise includes design, qualification, and validation of critical systems such as water, pure steam, and compressed air πŸ’§. He has conducted FAT and SAT testing and participated in regulatory inspections . Additionally, he has contributed to water recovery and reuse in production plants and managed critical and auxiliary systems βš™οΈ. He also teaches courses on validation and maintenance in biopharmaceutical industries.

Global Scientific Influence

Professor Alberto Leyva has made a significant impact on the global scientific community through his publications in internationally recognized journals πŸŒπŸ“š. His research contributions in pharmaceutical, biotechnological, and regulatory fields have been widely cited, reflecting his influence on industry practices and scientific advancements πŸ§ͺπŸ’Š. Being fluent in Spanish and English πŸ—£οΈ, he actively engages with researchers worldwide, fostering international collaborations 🀝. His expertise extends beyond academia, shaping biopharmaceutical innovations and regulatory standards . Through his dedication and global reach, he continues to drive progress in microbiology and biotechnology, leaving a lasting mark on the scientific world.

Industry Impact

Professor Alberto Leyva has made a profound impact on the biopharmaceutical industry through his expertise in monoclonal antibodies, recombinant protein quantification, and process control πŸ§ͺπŸ’Š. His research plays a crucial role in healthcare advancements by ensuring precision in pharmaceutical production. Additionally, his work on water purification, air quality validation, and critical system design contributes to maintaining high industry standards πŸ’§. The practical applications of his research extend beyond academia, directly influencing industrial biotechnology and pharmaceutical innovations. His dedication to quality and efficiency continues to shape global biopharmaceutical manufacturing and regulatory practices.

Research Focus

Professor Alberto Leyva specializes in biopharmaceutical analysis πŸ§ͺ, with a research focus on stability-indicative assays and conformation-specific immunoassays 🧬 for biologics, particularly recombinant human gamma interferon (rhIFN-Ξ³) πŸ’‰. His work involves developing enzyme-linked immunosorbent assays (ELISA) πŸ₯ to assess the stability, integrity, and conformational changes of therapeutic proteins. This research is crucial for biopharmaceutical quality control πŸ”¬, ensuring the efficacy and safety of protein-based drugs. His expertise spans protein characterization, immunoassay development, and biologics stability testing, contributing to regulatory compliance πŸ“œ and the advancement of precision medicine .

Publication Top Notes

Stability-indicative and conformation-specific enzyme linked immunosorbent assay for analysis of recombinant human gamma interferon

Hui Xiao | Drug Discovery and Development | Pharmaceutical Innovation Achievement Award

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Hui Xiao | Drug Discovery and Development | Pharmaceutical Innovation Achievement Award

Dr Hui Xiao,regeneron,United States

Dr. Hui Xiao πŸ§ͺπŸ”¬ is a distinguished scientist specializing in biochemistry, structural biology, and mass spectrometry. With a strong focus on microtubule dynamics, protein interactions, and drug mechanisms, he has made significant contributions to understanding cellular processes. As a co-first author and lead researcher, his work has been published in esteemed journals like J. Mol. Biol., Biochemistry, and J. Biol. Chem.. His expertise spans hydrogen-deuterium exchange, proteomics, and molecular stabilization studies. Dr. Xiao’s research has advanced drug discovery, particularly in cancer therapeutics and protein biochemistry. πŸ“šπŸ” His innovative approaches continue to impact biomedical sciences globally. 🌍✨

Publication Profile

Scopus

Education

Dr. Hui Xiao πŸŽ“ holds a Ph.D. in Analytical Chemistry from the University of Massachusetts, Amherst (2005) and a degree in Applied Chemistry from Peking University, China (1992). Currently serving as an Associate Director at Regeneron Pharmaceuticals 🏒, he specializes in protein characterization using mass spectrometry. With over a decade at Regeneron, he has progressed through roles as a Senior Staff Scientist and Staff Scientist. Previously, he held academic positions at Albert Einstein College of Medicine 🧬, advancing from Instructor to Research Associate Professor. His expertise spans analytical chemistry, protein analysis, and therapeutic protein research, making significant contributions to biomedical science. πŸ”¬

Professional Impact

Dr. Hui Xiao πŸŽ“ is a distinguished scientist with over 20 years of experience in academia and the biotechnology industry. Currently, he serves as an Associate Director of Analytical Chemistry at Regeneron Pharmaceuticals 🏒, a leading biotech company. His expertise lies in mass spectrometry applications for protein characterization πŸ”¬, contributing to advancements in therapeutic development. Before joining Regeneron, Dr. Xiao held esteemed faculty positions at Albert Einstein College of Medicine 🧬, progressing from Instructor to Research Associate Professor. His extensive research and leadership have played a crucial role in bridging analytical chemistry with biopharmaceutical innovation, impacting drug discovery and development. πŸš€

Scientific Contributions

Dr. Hui Xiao πŸŽ“ is a leading expert in protein-ligand interactions, structural proteomics, and therapeutic protein analysis πŸ”¬. His pioneering work includes the application of hydrogen-deuterium exchange mass spectrometry (HDX-MS) for epitope mapping 🧩 and microtubule stabilization research. With a deep focus on drug characterization and regulatory sciences, his contributions have significantly advanced biopharmaceutical development πŸ’Š. His expertise in mass spectrometry-driven protein analysis has helped enhance the understanding of molecular mechanisms, improving therapeutic strategies. Through innovation and research, Dr. Xiao continues to play a vital role in shaping the future of biopharmaceutical science and drug discovery. πŸš€

Potential Considerations

Dr. Hui Xiao πŸŽ“ is a renowned expert in analytical and protein chemistry, with groundbreaking work in epitope mapping and protein characterization πŸ”¬. While his contributions significantly impact drug development, the Pharmaceutical Innovation Achievement Award πŸ† may prioritize direct advancements in drug discovery and novel pharmaceutical interventions πŸ’Š. His research has important regulatory and therapeutic implications, but highlighting specific drug innovations or regulatory breakthroughs he has led would further strengthen his case. By showcasing his role in pioneering pharmaceutical advancements, Dr. Xiao’s influence in shaping modern biopharmaceutical science can be fully recognized and appreciated. πŸš€

Research Focus

Dr. Hui Xiao’s research primarily focuses on analytical chemistry πŸ§ͺ, particularly in the quantitative analysis of biomolecules 🧬 using advanced mass spectrometry techniques βš–οΈ. His work involves CRISPR sgRNA modification analysis πŸ§¬πŸ”¬ and the development of LC-MS-based assays for biological therapeutics πŸ’Š. He specializes in phosphorothioate isomer detection πŸ”„ and liquid chromatography-multiple reaction monitoring-mass spectrometry (LC-MRM-MS) πŸ“Š for precise biomolecular quantification. His contributions are crucial in drug discovery πŸ₯, gene editing 🧬, and biopharmaceutical development πŸ’‰. His expertise bridges biotechnology πŸ”¬ and analytical methodologies πŸ“ˆ, advancing innovations in therapeutic monitoring and molecular diagnostics πŸ₯.

Publication Top Notes

Quantitative Analysis of Phosphorothioate Isomers in CRISPR sgRNA at Single-Residue Resolution Using Endonuclease Digestion Coupled with Liquid Chromatography Cyclic Ion Mobility Mass Spectrometry (LC/cIMS)

Generic Enrichment Method for Liquid Chromatography-Multiple Reaction Monitoring-Mass Spectrometry Assay for Quantitative Measurement of Biological Therapeutics in Serum