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

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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

Nibras Mohammed Sahi | Drug Delivery Systems | Women Researcher Award

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Nibras Mohammed Sahi | Drug Delivery Systems | Women Researcher Award

Assist. Prof. Dr. Nibras Mohammed Sahi, Ministry of Higher Education and Scientific Research, University of Babylon, Iraq

Dr. Nebras Mohammed Sahi πŸ¦‹, an Assistant Professor at the University of Babylon, specializes in entomology and plant extracts 🌿. Her research explores insect-derived products and medicinal plant applications in anticancer and antibacterial treatments πŸ§ͺ. She has contributed to high-impact journals πŸ“„ indexed in SCI and Scopus. Dr. Sahi prepared the propolis and Alhagi maurorum extract used in her latest research. Her work advances medicine, agriculture, and sustainability 🌍. With a citation index of 3, she actively collaborates on innovative biological studies. πŸ’‘πŸ”¬

Publication Profile

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Professional Background

Dr. Nibras Mohammed Sahi πŸ¦‹, an Assistant Professor, specializes in entomology and plant extracts, focusing on the study of insects and their beneficial products. Her research explores the diverse applications of insect-derived compounds in medicine πŸ’Š, agriculture 🌱, and sustainability 🌍. Through collaborations with universities and research institutions, she investigates innovative ways to harness the potential of insects for ecological and economic benefits. Driven by a passion for scientific discovery πŸ”¬, Dr. Sahi’s work contributes to advancements in bio-based solutions, aiming to enhance environmental conservation and agricultural productivity while promoting sustainable development.

Ongoing Research

Dr. Nibras Mohammed Sahi πŸ¦‹ is actively engaged in research on insect-derived products and plant extracts, with a particular focus on propolis 🐝 and Alhagi maurorum 🌿 for cancer 🧬 and antibacterial 🦠 applications. Her studies explore the therapeutic potential of these natural compounds, aiming to develop innovative solutions in medicine πŸ’Š and biotechnology. While her work aligns with prestigious award categories, highlighting specific project funding πŸ’°, collaborations 🀝, or research grants would further strengthen her academic profile. Through her dedication to scientific discovery πŸ”¬, Dr. Sahi contributes to advancements in natural product research and sustainable healthcare solutions.

Professional Memberships

Dr. Nibras Mohammed Sahi πŸ¦‹ has not listed any editorial appointments, active collaborations, or professional memberships. However, participation in scientific societies πŸ›οΈ, international conferences 🎀, or editorial boards πŸ“‘ would significantly enhance her academic profile. Engaging in peer-reviewed journals πŸ“š, contributing to scientific committees πŸ…, or collaborating on global research initiatives 🌍 would further establish her influence in the field of entomology and natural product research. Highlighting such professional engagements would strengthen her candidacy, showcasing her dedication to advancing scientific knowledge πŸ”¬ and fostering collaborations that drive innovation in medicine πŸ’Š, agriculture 🌱, and sustainability 🌿.

Research Focus

Assist. Prof. Dr. Nibras Mohammed Sahi’s research primarily focuses on microbiology 🦠, antibiotic resistance πŸ’Š, and bioactive compounds 🌱. His studies encompass pathogenic bacteria identification 🧫, antimicrobial activity testing πŸ§ͺ, and molecular genetics 🧬 related to infectious diseases. He has extensively investigated natural plant extracts 🌿 and fungal metabolites πŸ„ for their antibacterial and antifungal properties, along with genetic factors in diseases πŸ§‘β€βš•οΈ like hepatitis B and colorectal cancer. His work also extends to insecticidal bioactive compounds πŸͺ² and their effects. His research contributes significantly to public health πŸ₯, pharmacology πŸ’‰, and molecular diagnostics πŸ”¬.

Publication Top Notes

Molecular & Antibiotic Sensitivity Pattern Study of Acute Otitis Media, Tonsillitis & Periodontitis among Different Ages of Patients of Al-Hashmia General Hospital, Primary Care Centers & Private Clinic in Babylon Province

Analysis of Methanolic extract of Secondary Metabolites Released by Candida glabratus using GC-MS and Evaluation of Its Antimicrobial Activity

Detection of Bioactive Compounds of Raphanus sativus Using GC-MS and FT-IR Technical Analysis and Determination of its Anti-Bacterial and Anti-Fungal Activity.

Isolation and Identification of Some Pathogenic Bacteria from Otitis Media in Babylon Governorate

Antimicrobial Effect of the Crude Phenolic, Alkaloid and Terpenoid Compounds Extracts of Myrtus Communis L. against Human Gram-Negative Pathogenic Bacteria

Antimicrobial Effect of the Crude Phenolic, Alkaloid and Terpenoid Compounds Extracts of Myrtus Communis L. against Human Gram-Negative Pathogenic Bacteria