Ayda Ahmadi | Pancreatic Cancer | Best Researcher Award

Published on by Oncology

Ms. Ayda Ahmadi | Pancreatic Cancer | Best Researcher Award 

Student | Sahand University of Technology | Iran

Ms. Ayda Ahmadi is an emerging young researcher in biomedical and pharmaceutical engineering whose academic performance, early research productivity, and strong technical training collectively position her as a promising candidate for a Best Researcher Award. Currently pursuing her M.Sc. in Chemical Engineering with a specialization in Pharmaceutical Engineering at Sahand University of Technology, she holds a solid academic foundation built on a high-performing B.Sc. in Biomedical Engineering (Biomaterials) from Khayyam University. Her hands-on experience includes two extensive 240-hour internships at Samen Pharmaceutical Company—where she gained valuable skills in pharmaceutical formulation, sterile production systems, GMP-based quality control, and laboratory documentation—and in a Dental Prosthesis Laboratory, where she developed practical expertise in biomaterials fabrication relevant to tissue engineering and biomedical device applications. Ayda’s research output reflects her focus on advanced drug delivery systems, nanotechnology, and biomaterials, demonstrated through significant works such as the preparation and characterization of silica nanoparticles and aerogels for smart drug delivery, the design of targeted nanocarriers for anticancer drug delivery to pancreatic tumors, and the study of calcium sulfate for treating bone infections in diabetic patients. With manuscripts submitted and under review, she shows early publication initiative and a clear commitment to building a strong scientific portfolio. Her technical proficiency across COMSOL Multiphysics, MATLAB, Aspen HYSYS, OriginPro, and data management tools further enhances her research capability, supported by multiple certifications. Ayda’s research interests—spanning nanostructure functionalization, controlled antibiotic release, and biomedical applications of engineered materials—align strongly with global research priorities in precision medicine and therapeutic innovation. Motivated to participate in international conferences and collaborative projects, she demonstrates ambition, discipline, and scientific curiosity, making her a suitable and competitive candidate for recognition in young researcher or early-career researcher award categories.

Profile: ORCID

Featured Publications

  1. Ahmadi, A., Souri, A., & Moghaddas, J. S. (2025). Preparation, characterization, and application of silica nanoparticles and silica aerogel in smart drug delivery systems. Manuscript submitted for publication.

  2. Ahmadi, A., Souri, A., & Moghaddas, J. S. (2025). Design and development of smart nanocarriers for targeted delivery of anticancer drugs to pancreatic tumors: A review study. Manuscript under review.

  3. Ahmadi, A. (2024). Investigation of the effect of calcium sulfate in the treatment of bone infections in diabetic patients. Unpublished research project, Khayyam University.

  4. Ahmadi, A. (2024). Surface modification of silica aerogel for drug delivery in the treatment of bone infection in diabetic patients. Unpublished research study, Sahand University of Technology.

  5. Ahmadi, A., Souri, A., & Moghaddas, J. S. (2024). Development of functionalized nanostructures for controlled antibiotic release in infectious diseases. Unpublished manuscript.

Ms, Ayda Ahmadi’s research advances next-generation drug delivery systems and biomaterial-based therapeutics, contributing to safer, more effective treatments for cancer and infectious diseases. Her innovative work in nanotechnology and smart drug carriers supports global medical innovation by improving targeted therapy, reducing side effects, and addressing critical healthcare challenges.

Jaweher Bday | Cancer Research | Best Researcher Award

Published on by Oncology

Ms. Jaweher Bday | Cancer Research | Best Researcher Award 

PhD Student | Higher Institute of Biotechnology of Monastir | Tunisia

Ms. Jaweher Bday is a highly promising PhD researcher in biotechnology with a robust specialization in immuno-oncology, demonstrating strong potential and clear suitability for a Best Researcher Award through her scientific rigor, technical depth, and impactful research outputs. Her academic journey—from a bachelor’s degree in molecular and cellular biology, a research master’s in cell biology and physiology, to an ongoing PhD at the Higher Institute of Biotechnology of Monastir—illustrates continuous progression and dedication to cancer research. She has completed several competitive international research internships in leading laboratories in France, including the Bio PeroxIL Laboratory at the University of Burgundy and the INSERM U1307 Laboratory at the University of Nantes, enhancing her expertise in cell death mechanisms, tumor biology, and advanced molecular techniques. Her publication record is strong and growing, with peer-reviewed articles in recognized journals on topics such as arginase regulation in HPV infection, hybrid cell-death induction in breast cancer models, and the role of nitric oxide pathways in cervical carcinogenesis, along with an additional submitted manuscript on HPV circulating markers. Jaweher’s scientific maturity is evidenced by her active participation in conferences, including oral and poster presentations at national and international oncology and toxicology meetings, reflecting substantial dissemination of her research. Beyond laboratory excellence, she demonstrates leadership through major roles in the Tunisian Association of Biotechnology Students, including serving as President and spearheading scientific events and innovation-focused programs. Her teaching activities, spanning workshops, directed courses, and hands-on training, further showcase her commitment to academic development and knowledge transfer. Equipped with advanced laboratory skills, strong analytical proficiency using tools like FlowJo, ImageJ, SPSS, and GraphPad, along with extensive training in scientific writing, publishing, quality management, and pedagogy, she embodies the qualities of an emerging researcher with both scientific impact and community engagement. Overall, her achievements, productivity, international exposure, and leadership make her an excellent candidate for a Best Researcher Award.

Profile: ORCID

Featured Publications

  1. Souid, M., Bday, J., Souissi, S., Ghedira, R., Gabbouj, S., Shini-Hadhri, S., Toumi, D., Bergaoui, H., Zouari, I., Faleh, R., Zakhama, A., & Hassen, E. (2023). Arginase is upregulated in healthy women infected by oncogenic HPV types. Biomarkers, 28(7), 628–636.

  2. Bday, J., Souid, M., Pires, V., Gabbouj, S., Véjux, A., Lizard, G., & Hassen, E. (2025). Arginase activity inhibition with thymoquinone induces a hybrid type of cell death in MDA-MB-231 cell line. Journal of Biochemical and Molecular Toxicology, 39(2), e70130.

  3. Bday, J., Souid, M., Farhat, K. H., Macherki, Y., Ghedira, R., Gabbouj, S., Shini-Hadhri, S., Faleh, R., & Hassen, E. (2025). Involvement of endothelial nitric oxide synthase (eNOS) and nitric oxide (NO) levels in precancerous and cancerous cervical lesions. Nitric Oxide, 159, 176–185.

  4. Souid, M., Ghedira, R., Bday, J., Gabbouj, S., Shini-Hadhri, S., Hajji, A., Faleh, R., & Hassen, E. (Under review). Human Papillomavirus-16 circulating markers distribution among unvaccinated women. Infectious Diseases Now.

  5. Bday, J., Souid, M., Pires, V., Véjux, A., Lizard, G., & Hassen, E. (2025). Hybrid cell-death mechanisms in breast cancer: Insights from thymoquinone-mediated arginase inhibition. Manuscript in preparation.

Ms. Jaweher Bday’s work advances immuno-oncology by uncovering novel cellular and molecular mechanisms that can drive more precise cancer diagnostics and targeted therapies. Her research contributes to global health by improving understanding of HPV-related cancers and breast cancer biology, supporting innovations that can shape future clinical and translational applications. Through scientific leadership, teaching, and community engagement, she helps strengthen research capacity and fosters the next generation of biotechnology innovators.