Zalike Keskin Erdogan | Tissue Engineering | Best Researcher Award

Dr. Zalike Keskin Erdogan | Tissue Engineering | Best Researcher Award

Dr. Zalike Keskin Erdogan, Imperial College London, United Kingdom

Dr. Zalike Keskin Erdogan, PhD, is a Postdoctoral Research Associate at Imperial College London, specializing in microfluidic encapsulation of biosensors and tissue engineering. With a background in biomedical engineering and extensive experience in cell culture and biomaterials, she has led projects, authored numerous publications, and presented at international conferences. Dr. Keskin Erdogan’s research focuses on developing innovative solutions for regenerative medicine, particularly in neural tissue engineering and wound healing. She is an active member of several professional societies and has received prestigious awards for her contributions. πŸ§ͺπŸ”¬πŸ“š

 

Publication Profile:

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Education:

Dr. Zalike Keskin Erdogan’s academic journey reflects her dedication to advancing biomedical sciences. She earned her PhD in Medical Sciences from University College London, UK, specializing in neural tissue engineering with hydrogel-phosphate glass fiber constructs. During her doctoral studies, she published extensively, presented at international conferences, and received prestigious scholarships and travel funds. Her MSc in Biomaterials and Tissue Engineering from Ege University, Turkey, showcased her prowess in bioartificial skin development, while her BEng in Bioengineering laid the foundation for her mechanical characterization expertise. Dr. Keskin Erdogan’s academic achievements exemplify her commitment to pushing the boundaries of bioengineering. πŸŽ“πŸ”¬πŸ“š

 

Professional Experience:

Dr. Zalike Keskin Erdogan, PhD, is currently a Postdoctoral Research Associate at the Department of Chemical Engineering, Imperial College London, UK. Her expertise lies in the innovative field of microfluidic encapsulation, where she leads a project focusing on whole cell biosensors for co-culturing with mammalian cells and utilizing flow cytometry. With prior roles as a Research Assistant at Izmir Economy University and a Graduate Assistant at Ege University, Turkey, Dr. Keskin Erdogan has honed her skills in biomedical and bioengineering research. She actively mentors students, contributes to academic publications, and explores novel applications of hydrogel-based biomaterials. πŸ§ͺπŸ”¬πŸ“

 

Research Focus:

Dr. Zalike Keskin Erdogan’s research focus encompasses a wide range of areas within biomedical engineering and biomaterials science. Her work spans the development and characterization of novel biomaterials for various applications, including skin tissue engineering, drug delivery systems for glaucoma treatment, and scaffold design for bone defect treatment. Additionally, she investigates the utilization of bioprinted tissue constructs for neural injury repair and explores the implications of different substrates on cellular response, such as astrocytes. Dr. Keskin Erdogan’s multidisciplinary research endeavors aim to address critical challenges in regenerative medicine and tissue engineering, ultimately contributing to advancements in healthcare. πŸ§¬πŸ”¬πŸ©Ί

Publication Top Notes:

Novel keratin modified bacterial cellulose nanocomposite production and characterization for skin tissue engineering

Recent advances in drug delivery systems for glaucoma treatment

SIS/aligned fibre scaffold designed to meet layered oesophageal tissue complexity and properties

Crosslinking of poly (vinyl alcohol) nanofibres with polycarboxylic acids: Biocompatibility with human skin keratinocyte cells

A review of functionalised bacterial cellulose for targeted biomedical fields

Poly-Ξ΅-caprolactone/fibrin-alginate scaffold: a new pro-angiogenic composite biomaterial for the treatment of bone defects

Utilization of GelMA with phosphate glass fibers for glial cell alignment

Modular orthopaedic tissue engineering with implantable microcarriers and canine adipose-derived mesenchymal stromal cells

Therapeutic Application of an Ag-Nanoparticle-PNIPAAm-Modified Eggshell Membrane Construct for Dermal Regeneration and Reconstruction

Inclusion of calcium phosphate does not further improve in vitro and in vivo osteogenesis in a novel, highly biocompatible, mechanically stable and 3D printable polymer