Assoc. Prof. Dr. Zohreh Bagher | Iran University of Medical Sciences (IUMS) | Iran
Dr. Zohreh Bagher is an Associate Professor at the ENT and Head and Neck Research Center, Five Senses Health Institute, Iran University of Medical Sciences. She is an expert in tissue engineering and regenerative medicine with a strong background in anatomy and radiology. Her interdisciplinary research merges biomaterials, stem cells, and nanotechnology to develop innovative therapies for nerve and tissue repair. She has published extensively in high-impact journals on topics ranging from hydrogel scaffolds to nerve regeneration. With over a decade of experience, Dr. Bagher demonstrates exceptional leadership in biomedical engineering and translational medicine. Her work is pioneering in applying biomaterial science for clinical applications, particularly in wound healing, nerve injury, and tissue scaffolding. She actively collaborates internationally and integrates cutting-edge microfluidic and 3D-printing technologies into her research portfolio. Dr. Bagher’s commitment to science, education, and patient care positions her as a prime candidate for the Best Researcher Award.
Publication Profile:
Education:
Dr. Bagher completed her Ph.D. in Tissue Engineering at Iran University of Medical Sciences, specializing in the differentiation of Wharton’s Jelly-derived mesenchymal stem cells into motor neuron-like cells using advanced PCL/collagen nanofibrous scaffolds. Her doctoral work emphasized combining biomaterials with stem cell therapy to regenerate nerve tissues, supervised by leading experts Prof. Joghataei and Prof. Mirzadeh. Prior to her Ph.D., she earned a Master’s degree in Anatomy from Qazvin University of Medical Sciences, focusing on bone repair through comparative studies using hydroxyapatite/β-tricalcium phosphate and xenograft scaffolds in animal models, guided by Prof. Rajaei. Her academic journey began with a Bachelor’s degree in Radiology from Tehran University of Medical Sciences, laying a solid foundation in medical imaging and diagnostics. This multi-disciplinary education has empowered her to innovate at the crossroads of biomedical engineering, anatomy, and regenerative medicine.
Experience:
Dr. Bagher holds a faculty position as Associate Professor at the ENT and Head and Neck Research Center, Iran University of Medical Sciences, where she spearheads cutting-edge research on biomaterials and tissue engineering. Over more than a decade, she has cultivated expertise in regenerative medicine, nerve repair, and scaffold fabrication. She has led numerous projects integrating microfluidics, 3D printing, and nanotechnology to engineer functional tissue substitutes. Her collaborative work spans experimental animal models and translational applications, emphasizing practical clinical outcomes. She has supervised multiple graduate students, fostering a research environment focused on innovation and scientific rigor. Dr. Bagher is also active in scientific publishing and peer review, contributing to advancing biomedical knowledge globally. Her interdisciplinary skills in anatomy, radiology, and tissue engineering, combined with leadership at a prestigious research center, make her a prominent figure in medical science and a deserving candidate for the Best Researcher Award.
Research Focus:
Dr. Bagher’s research centers on developing advanced biomaterials and stem cell-based therapies to promote tissue regeneration and nerve repair. Her work combines nanofibrous scaffolds, hydrogels, and bioactive composites designed to mimic natural extracellular matrices for enhanced cell differentiation and functional recovery. Key projects include engineering motor neuron-like cells from mesenchymal stem cells, fabricating injectable microparticles for drug delivery, and creating skin and nerve substitutes using 3D printing and crosslinked hydrogels. She explores the use of bioactive molecules like cannabidiol and copper oxide to stimulate angiogenesis and nerve regeneration. Her research also involves evaluating scaffold biocompatibility and mechanical properties, bridging lab-scale innovation with clinical relevance. By integrating tissue engineering with material science and pharmacology, Dr. Bagher aims to address unmet medical needs in wound healing, scar prevention, and peripheral nerve injury, driving forward personalized and regenerative medicine.
Publications Top Notes:
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Fabrication of injectable dexamethasone-loaded hydrogel microparticle via microfluidic technique for biomedical applications
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Effectiveness of the injectable hyaluronic acid-based microparticles loaded with cannabidiol on rat sciatic nerve injury model
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Utilizing biomaterials for laryngeal respiratory mucosal tissue repair in an animal model
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A cellulose-based skin adhesive hydrogel incorporating N-acetyl-seryl-aspartyl-lysyl-proline peptide for enhanced wound healing and scar prevention in rabbit scar ear model in vivo
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Testicular extracellular matrix/gelatin-based scaffold using gas foaming to support spermatogonial stem cells
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Engineering of a CuO-Releasing 3D-Printed Bilayer Skin Substitute with Improved Angiogenesis: In Vitro and In Vivo Evaluations
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Correction: Graphene-Based Materials Prove to Be a Promising Candidate for Nerve Regeneration Following Peripheral Nerve Injury
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Vanadium ferrite-doped mesoporous bioactive glass-ceramics: controlled cisplatin delivery in chemohyperthermia
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Photo- and thermal-crosslinked GelMA/chitosan hydrogels: A novel approach to enhanced mechanical and biological properties
Conclusion:
Dr. Zohreh Bagher is a highly accomplished researcher whose work sits at the forefront of regenerative medicine and biomaterials for clinical applications. Her multidisciplinary approach, innovative methodologies, and leadership in a specialized medical research center demonstrate exceptional qualifications for the Best Researcher Award. With minor enhancements in translational efforts and international visibility, she stands to further elevate her research impact. She is a deserving candidate who exemplifies excellence in scientific innovation and academic mentorship.