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Author : Montse Charles-Harris Ferrer
Release : 2008
Genre :
Kind : eBook
Book Rating : 852/5 ( reviews)
Book Synopsis Development and Characterisation of Completely Degradable Composite Tissue Engineering Scaffold by : Montse Charles-Harris Ferrer
Download or read book Development and Characterisation of Completely Degradable Composite Tissue Engineering Scaffold written by Montse Charles-Harris Ferrer. This book was released on 2008. Available in PDF, EPUB and Kindle. Book excerpt:
Author :
Release : 2007
Genre :
Kind : eBook
Book Rating : /5 ( reviews)
Book Synopsis Development and Characterisation of Completely Degradable Composite Tissue Engineering Scaffolds by :
Download or read book Development and Characterisation of Completely Degradable Composite Tissue Engineering Scaffolds written by . This book was released on 2007. Available in PDF, EPUB and Kindle. Book excerpt: ABSTRACT The field of Tissue Engineering has developed in response to the shortcomings associated to the replacement of tissues lost to disease or trauma: donor tissue rejection, chronic inflammation, and donor tissue shortages. The driving force behind Tissue Engineering is to avoid these problems by creating biological substitutes capable of replacing the damaged tissue. This is done by combining scaffolds, cells and signals in order to create living, physiological, three-dimensional tissues. Scaffolds are porous biodegradable structures that are meant to be colonised by cells and degrade in time with tissue generation. Scaffold design and development is mainly an engineering challenge, and is the goal of this PhD thesis. The main aim of this thesis is to develop and characterise scaffolds for Tissue Engineering applications. Specifically, its objectives are: 1. To study, optimise and characterise two scaffold processing methods: Solvent Casting and Phase Separation. This is done by experiment design analysis. 2. To characterise the degradation, surface properties, and cellular behaviour of the scaffolds produced. The scaffolds are made of a composite of polylactic acid polymer and a calcium phosphate soluble glass. The comparison of the two processing methods reveals that in general, the solvent cast scaffolds have higher porosities and lower mechanical properties than the phase-separated ones. Two compositions containing 20 weight % and 50 weight % of glass particles were chosen for further characterisations including degradation, surface properties and cellular behaviour. The degradation of the scaffolds was studied for a period of 10 weeks. The evolution of various parameters such as: morphology, weight loss, mechanical properties, thermal transitions and porosity, was monitored. Scaffolds produced via solvent casting were found to be more severely affected by degradation than phase-separated ones. The surface properties of the scaffolds were measured by model.
Author : Paul Tomlins
Release : 2015-10-30
Genre : Technology & Engineering
Kind : eBook
Book Rating : 959/5 ( reviews)
Book Synopsis Characterisation and Design of Tissue Scaffolds by : Paul Tomlins
Download or read book Characterisation and Design of Tissue Scaffolds written by Paul Tomlins. This book was released on 2015-10-30. Available in PDF, EPUB and Kindle. Book excerpt: Characterisation and Design of Tissue Scaffolds offers scientists a useful guide on the characterization of tissue scaffolds, detailing what needs to be measured and why, how such measurements can be made, and addressing industrially important issues. Part one provides readers with information on the fundamental considerations in the characterization of tissue scaffolds, while other sections detail how to prepare tissue scaffolds, discuss techniques in characterization, and present practical considerations for manufacturers. Summarizes concepts and current practice in the characterization and design of tissue scaffolds Discusses design and preparation of scaffolds Details how to prepare tissue scaffolds, discusses techniques in characterization, and presents practical considerations for manufacturers
Author : naznin sultana
Release : 2012-12-15
Genre : Technology & Engineering
Kind : eBook
Book Rating : 025/5 ( reviews)
Book Synopsis Biodegradable Polymer-Based Scaffolds for Bone Tissue Engineering by : naznin sultana
Download or read book Biodegradable Polymer-Based Scaffolds for Bone Tissue Engineering written by naznin sultana. This book was released on 2012-12-15. Available in PDF, EPUB and Kindle. Book excerpt: This book addresses the principles, methods and applications of biodegradable polymer based scaffolds for bone tissue engineering. The general principle of bone tissue engineering is reviewed and the traditional and novel scaffolding materials, their properties and scaffold fabrication techniques are explored. By acting as temporary synthetic extracellular matrices for cell accommodation, proliferation, and differentiation, scaffolds play a pivotal role in tissue engineering. This book does not only provide the comprehensive summary of the current trends in scaffolding design but also presents the new trends and directions for scaffold development for the ever expanding tissue engineering applications.
Author : Tiziano Serra
Release : 2014
Genre :
Kind : eBook
Book Rating : /5 ( reviews)
Book Synopsis Development of 3D-printed biodegradable composite scaffolds for tissue engineering applications by : Tiziano Serra
Download or read book Development of 3D-printed biodegradable composite scaffolds for tissue engineering applications written by Tiziano Serra. This book was released on 2014. Available in PDF, EPUB and Kindle. Book excerpt: The design of smart biodegradable scaffolds plays a crucial role in the regeneration of tissues and restoration of their functionality. Advances in material science and manufacturing and in the understanding on the effects of bio-chemical and bio-physical signals on cell behavior, are leading to a new generation of 3D scaffolds. Recent developments in additive manufacturing, also known as 3D-printing, open new exciting challenges in tissue/organ regeneration by means of the fabrication of complex and geometrically precise 3D structures. This thesis aimed the development and characterization of 3D scaffolds for tissue regeneration. For this, a nozzle-based rapid prototyping system was used to combine polylactic acid and a bioactive CaP glass (coded G5) to fabricate 3-D biodegradable scaffolds. Firstly, optimization of the printing conditions represents a key challenge for achieving high quality 3D-printed structures. Thus, we stress the importance of studying the outcome of the plasticizing effect of PEG on PLA-based blends used for the fabrication of 3D-printed scaffolds. Results indicated that the presence of PEG not only improves PLA processing but also leads to relevant surface, geometrical and structural changes including modulation of the degradation rate of PLA-based 3D printed scaffolds. Secondly, the obtained scaffolds were fully characterized from the physic-chemical point of view. Morphological and structural examinations showed that 3D scaffolds had completely interconnected porosity, uniform distribution of the glass particles, and a controlled and repetitive architecture. In addition, incorporation of G5 particles increased both roughness and hydrophilicity of the scaffolds. Compressive modulus was dependent on the scaffold geometry and the presence of glass. Cell study revealed that G5 glass improved mesenchymal stem cell adhesion after 4 h. Additional biological characterization in terms of the inflammatory response were also carried out. Novel studies have pointed towards a decisive role of inflammation in triggering tissue repair and regeneration, while at the same time it is accepted that an exacerbated inflammatory response may lead to rejection of an implant. Thus, understanding and having the capacity to regulate the inflammatory response elicited by 3D scaffolds aimed for tissue regeneration is crucial. In this context, cytokine secretion and cell morphology of human monocytes/macrophages in contact with biodegradable 3D-printed scaffolds (PLA, PLA/G5 and chitosan ones) with different surface properties, architecture and controlled pore geometry was reported. Results revealed that even though the material itself induced the biggest differences, scaffold geometry also affected on the secretion of cytokines. These findings strengthen the appropriateness of these 3D platforms to study modulation of macrophage responses by specific parameters (chemistry, topography, scaffold architecture). Finally, novel scaffolds composed by two phases (PLA and PLA/G5), for use in guided bone regeneration (GBR) were evaluated. Structural, morphological changes were observed during the in vitro degradation of both PLA and PLA/G5 structures. Although mechanical properties decreased, PLA/G5 scaffolds still showed higher compressive modulus than PLA ones, confirming the reinforcing effect of glass particles after immersion time. In vivo implantation was carried out subcutaneously in mice up to 30 days. Results showed that PLA scaffolds induced mononuclear cell without activating any relevant angiogenic process, while PLA/G5 induced higher presence of multinucleated giant cells and consequently stimulated the vascularization process and further tissue regeneration. The technique/materials combination used in this PhD thesis led to the fabrication of promising fully degradable, mechanically stable, bioactive and biocompatible composite scaffolds with well-defined architectures valuable for TE applications.
