student at Department of biomedical engineering, Science and research branch , islamic azad university, Tehran iran.
Melika Mirghaffari ๐ฎ๐ท is a Biomedical Engineering student at Islamic Azad University, Science and Research Branch, Tehran (2020โ2025). Her expertise includes biomedical materials, tissue engineering, and piezoelectric scaffolds ๐งฌ. She has co-authored several research articles on bone and skin tissue regeneration ๐ฆด and nanofibrous scaffolds. Melika is a Research Assistant at ZhinoGene Research Services Co. and a Gamma Camera SPECT Technician Assistant at Sana Nuclear Medicine Center. Proficient in Python, AI, Biorender, and lab techniques, she is fluent in Persian, Azerbaijani, and English ๐. Her interests include painting, mountaineering, and horseback riding ๐จ๐๏ธ.
Publication Profile
Orcid
๐ Education Background
Melika Mirghaffari is currently pursuing a Bachelor of Science in Biomedical Engineering (2020โ2025) at Islamic Azad University, Science and Research Branch, Tehran ๐๏ธ. She previously obtained a High School Diploma in Mathematics and Physics (2019โ2020) from Farzanegan 6 High School, Tehran ๐. Before that, she studied Natural Sciences at Farzanegan 6 High School, Tehran (2018โ2019) and Farzanegan High School, Marand (2017โ2018) ๐ฌ. Her strong academic foundation in science and engineering has fueled her passion for biomedical research, focusing on tissue engineering and regenerative medicine ๐งฌ.
๐ฆด Research Focus
Melika Mirghaffari specializes in biomedical engineering, focusing on tissue engineering, regenerative medicine, and biomaterials ๐งฌ. Her research explores electro-spun piezoelectric PLLA smart composites for bone fracture healing, leveraging biodegradable scaffolds to enhance tissue regeneration ๐ฆด๐ฌ. She investigates piezoelectric nanomaterials, 3D-printed scaffolds, and self-powered electrical stimulation for bone and skin tissue repair โก. Her work integrates biomechanics, material science, and medical imaging, contributing to next-generation regenerative therapies. Her studies aim to advance biodegradable and biocompatible implants for orthopedic and soft tissue engineering, promoting faster recovery and improved patient outcomes ๐ฅ.
Publication Top Notes
- “Electro-spun Piezoelectric PLLA Smart Composites as a Scaffold on Bone Fracture: A Review” โ Regenerative Therapy (๐๏ธ 2025) | ๐
- “Enhancing Skin Tissue Regeneration: Ultrasound-Activated Piezoelectric PLLA Scaffolds for Self-Powered Electrical Stimulation” โ (Revised, 2025) | ๐
- “Polycaprolactone/Barium Titanate 3D-Printed Scaffolds: Enhancing Bone Regeneration through Biodegradable Piezoelectric Composite Structures โ A Review” โ IMAT (๐๏ธ 2024) | ๐
- “AlginateโPVA Based Electrospun Piezoelectric Nanofibrous Scaffolds with BaTiO3 in Tissue Engineering: A Review” โ (In preparation) | ๐
- “Advances in Hydrophilic Coating Technologies for Angiography Guide Wires: Implications for Enhanced Performance” โ (In preparation) | ๐