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Characterization of Biomaterials
In order to enhance the application potential of scaffolds in tissue engineering, comprehensive characterization of scaffold micro- and macro-structure, porosity, permeability and mechanical properties are required. In addition, before in vivo studies can be carried out, a complete assessment of the in vitro behavior of scaffolds, e.g. in selected cell culture studies, is required. The present chapter revises the wide range of methods applied to characterize scaffolds and emphasizes the need for a combination of different characterization techniques for understanding scaffold performance required for successful bone regeneration.
Cell Culture Technology
This textbook provides an overview on current cell culture techniques, conditions, and applications specifically focusing on human cell culture. This book is based on lectures, seminars and practical courses in stem cells, tissue engineering, regenerative medicine and 3D cell culture held at the University of Natural Resources and Life Sciences Vienna BOKU and the Gottfried Wilhelm Leibniz University Hannover, complemented by contributions from international experts, and therefore delivers in a compact and clear way important theoretical, as well as practical knowledge to advanced graduate students on cell culture techniques and the current status of research. The book is written for Master students and PhD candidates in biotechnology, tissue engineering and biomedicine working with mammalian, and specifically human cells. It will be of interest to doctoral colleges, Master- and PhD programs teaching courses in this area of research.
Recent Development of Electrospinning for Drug Delivery
Several promising techniques have been developed to overcome the poor solubility and/or membrane permeability properties of new drug candidates, including different fiber formation methods. Electrospinning is one of the most commonly used spinning techniques for fiber formation, induced by the high voltage applied to the drug-loaded solution. With modifying the characteristics of the solution and the spinning parameters, the functionality-related properties of the formulated fibers can be finely tuned. The fiber properties (i.e., high specific surface area, porosity, and the possibility of controlling the crystalline–amorphous phase transitions of the loaded drugs) enable the improved rate...
Advanced Glasses, Composites and Ceramics for High Growth Industries
‘Advanced Glasses, Composites and Ceramics for High-Growth Industries’ (CoACH) was a European Training Network (ETN) project (http://www.coach-etn.eu/) funded by the Horizon 2020 program. CoACH involved multiple actors in the innovation ecosystem for advanced materials, composed of five universities and ten enterprises in seven different European countries. The project studied the next generation of materials that could bring innovation in the healthcare, construction, and energy sectors, among others, from new bioactive glasses for bone implants to eco-friendly cements and new environmentally friendly thermoelectrics for energy conversion. The novel materials developed in the CoACH project pave the way for innovative products, improved cost competitiveness, and positive environmental impact. The present Special Issue contains 14 papers resulting from the CoACH project, showcasing the breadth of materials and processes developed during the project.
3D Printing for Implantable Medical Devices: From Surgical Reconstruction to Tissue/Organ Regeneration
Dr. Julien Barthes is Collaborative Project Manager at PROTiP MEDICAL SAS. All other Topic Editors declare no competing interests with regards to the Research Topic subject.
Characterization of Biomaterials
One of the key challenges current biomaterials researchers face is identifying which of the dizzying number of highly specialized characterization tools can be gainfully applied to different materials and biomedical devices. Since this diverse marketplace of tools and techniques can be used for numerous applications, choosing the proper characterization tool is highly important, saving both time and resources. Characterization of Biomaterials is a detailed and multidisciplinary discussion of the physical, chemical, mechanical, surface, in vitro and in vivo characterization tools and techniques of increasing importance to fundamental biomaterials research. Characterization of Biomaterials wil...
Novel Antibacterial Biomaterials for Medical Applications and Modeling of Drug Release Process
This book provides a comprehensive review of synthesis and physicochemical and biological characterization of novel antibacterial biomaterials produced according to original procedures and aimed at medical applications such as wound dressing, soft and hard tissue implants, drug delivery devices, and carriers for cell cultivation. It is intended for all researchers working in the fields of biomaterials and biomedical engineering, as well as medical professionals, science and engineering graduate students, academics, and industrial researchers. Includes in-depth discussions on synthesis and physicochemical characterization of novel poly vinyl alcohol-based hydrogels aimed at wound dressings an...
Advance of Polymers Applied to Biomedical Applications: Cell Scaffolds
This book is a printed edition of the Special Issue "Advance of Polymers Applied to Biomedical Applications: Cell Scaffolds" that was published in Polymers
Magnesium Alloys for Biomedical Applications
Magnesium alloys have enormous potential for use in biomedical implants. Magnesium Alloys for Biomedical Applications delves into recent advances and prospects for implementation and provides scientific insights into current issues posed by Mg alloy materials. It provides an overview of research on their mechanical and tribological characteristics, corrosion tendencies, and biological characteristics, with a particular emphasis on biomedical implants. Details the fundamentals of Mg alloys as well as necessary surface modifications of Mg alloys for biomedical use. Discusses emerging Mg alloys and their composites. Covers mechanical, tribological, and chemical properties, as well as fatigue an...
Engineering Synthetic Metabolons: From Metabolic Modelling to Rational Design of Biosynthetic Devices
The discipline of Synthetic Biology has recently emerged at the interface of biology and engineering. The definition of Synthetic Biology has been dynamic over time ever since, which exemplifies that the field is rapidly moving and comprises a broad range of research areas. In the frame of this Research Topic, we focus on Synthetic Biology approaches that aim at rearranging biological parts/ entities in order to generate novel biochemical functions with inherent metabolic activity. This Research Topic encompasses Pathway Engineering in living systems as well as the in vitro assembly of biomolecules into nano- and microscale bioreactors. Both, the engineering of metabolic pathways in vivo, as...
