Biomimetic Nanoengineered Materials for Advanced Drug Delivery
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Biomimetic Nanoengineered Materials for Advanced Drug Delivery is an indispensable guide for new developments in biomimetic nanoengineering for advanced drug delivery applications. Focusing on the fundamentals of a new type of nanocarriers for drug delivery in the most recent miRNA therapeutics, the book provides readers with detailed knowledge from the basics, to the most recent innovations. Early chapters of the book discuss a range of drug delivery techniques, including nanofibers, biomimetic polymers, 3D bioprinting, nanotechnology and radiofrequency sensitive nanocarriers. Later chapters…mehr

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Produktbeschreibung
Biomimetic Nanoengineered Materials for Advanced Drug Delivery is an indispensable guide for new developments in biomimetic nanoengineering for advanced drug delivery applications. Focusing on the fundamentals of a new type of nanocarriers for drug delivery in the most recent miRNA therapeutics, the book provides readers with detailed knowledge from the basics, to the most recent innovations. Early chapters of the book discuss a range of drug delivery techniques, including nanofibers, biomimetic polymers, 3D bioprinting, nanotechnology and radiofrequency sensitive nanocarriers. Later chapters explore miRNA therapeutics, magnetic nanoparticles, nanogel-based and ROS-mediated drug delivery systems.

The book is a vital reference for biomaterials and nanomedicine researchers and clinicians with an interest in advanced drug delivery.
Autorenporträt
Afeesh Rajan Unnithan is currently working as the KRF (Korean Research Fellow) at Chonbuk National University, South Korea. Dr. Afeesh also worked as the Assistant Research Professor at Chonbuk National University from 2013 to 2016. He completed Ph.D. in Bionanosystem Engineering from Chonbuk National University in 2013. Dr. Afeesh obtained his M.Tech in Nanomedicine from Amrita Centre for Nanosciences and Molecular Medicine and B.Tech in Biotechnology from Anna University, India. Dr. Afeesh's principal research interests are in the areas related to the preparation of Nanobiomaterials, Smart Drug Delivery systems, Hyperthermic Chemotherapy, Bioactive Nanostructured-Scaffolds, Electrospinning, 3D Bioprinting etc. He published around 40 peer reviewed research articles in high impact factor journals with 563 citations.

Arathyram Ramachandra Kurup Sasikala is currently working as an Assistant Research Professor at Chonbuk National University, South Korea. She obtained her Ph.D. in Bionanosystem Engineering from Chonbuk National University in August 2016. Dr. Arathy completed her MSc and BSc in Physics from University of Kerala, India. Dr. Arathy also worked as a Junior Research Fellow in National Remote Sensing Centre, ISRO (Indian Space Research Organization), India. Her principal research interest lies in the development of multifunctional therapeutic nanosystems incorporating both magnetic nanomaterials and drugs for the synergistic cancer theranostics by combining hyperthermia, chemotherapy and MRI. Dr. Arathy published her research works in high impact journals such as Advanced Functional Materials, Nanoscale, Acta Biomaterialia, Scientific Reports, Journal of Materials Chemistry B, ACS applied materials & interfaces, Chemical Engineering Journal etc.

Chan Hee Park is currently working as an Associate Professor in Department of Bionanosystem Engineering at Chonbuk National University, South Korea. He obtained his Ph.D. in Bionanosystem Engineering from Chonbuk National University in 2012. He worked for National Instruments (USA) from 2002 to 2009. Following that he worked as the Team Leader Senior Researcher at R&D Division, Chonbuk National University Automobile Parts & mold Technology Innovation Center, Jeonju. Prof. Park's research interests are related to Electrospun Nano composite materials for drug delivery, Microfluidics/Electroanalytical Biosensors, Biodegradable Metals, Regenerative Medicine, Nanomedicine etc. He published his research achievements in various peer reviewed journals with 2124 citations.