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Mechanical Characterization of Photo-crosslinkable Hydrogels with AFM

Author: Alyssa McKenna
Publisher:
ISBN:
Category : Colloids
Languages : en
Pages : 258

Book Description
Photo-crosslinkable hydrogel films are versatile materials for controlled drug delivery devices (Duncan, 2003), three-dimensional micro-assemblies, and components in microfluidic systems (Beebe et al., 2000). A hydrogel is a flexible network of polymer molecules which swells when placed in water but will not dissolve because of the chemical or physical interconnections, called crosslinks, between the long chains of polymer molecules. Because of the high water content, hydrogels are pliable and respond to environmental conditions since the degree of swelling in these networks depends on environmental conditions such as pH and temperature (Hilt et al., 2003). This flexibility and environmental sensitivity renders hydrogels versatile materials for applications. For instance, the probability that they will damage delicate system components during micro-assembly is lower, and they can be tailored to respond to specific environments. Consequently, it is important to understand both the mechanical properties and the dynamics responses of these materials when designing such applications. Therefore, my thesis uses an atomic force microscope (AFM) to measure indentation with each applied force and then determines the best model with which to determine the mechanical properties from these data. Hydrogels also have poroelastic and viscoelastic properties which affect stress relaxation and thus impact their behavior in the different applications above. On short time scales, viscoelastic materials respond to stresses as elastic solids. On longer time scales, however, viscoelastic materials behave under stress as viscous fluids (Lin, 51). In poroelastic materials, the fluid in the material migrates simultaneously with the deformation of the porous network (Cai et al., 2010). Relatively recently, poroelasticity has been identified as an important factor in the mechanical behavior of polymer gels (Galli et al., 2008). Photo-crosslinkable hydrogels are unique because they crosslink - the polymer chains bond to form the network - when exposed to ultraviolet (UV) light. Different dosages of UV light produce different mechanical properties, a feature which can be utilized when designing systems (Toomey et al., 2004). Although the mechanical properties of hydrogels have been studied extensively, the mechanical properties of photo-crosslinkable hydrogels have not been investigated thoroughly. To design accurate controlled drug delivery devices and other applications, we must both understand the stress relaxation of photo-patterned hydrogels and correlate the UV dosage and mechanical properties. We use AFM to examine the mechanical properties of poly(N-isopropylacrylamide) (PNIPAm), which is attached to a silanized silicon substrate with a HEMA adhesive layer. We primarily use the AFM to collect force versus indentation data. In order to extract mechanical properties, particularly the Young0́9s modulus (the ratio of stress to strain) of the materials, from these data, we will evaluate existing mechanical models. Originally, the Hertz model (Hertz, 1881) was used to correlate the indentation and force data to the mechanical properties of the materials. This model, however, does not consider the surface forces between the two contacting surfaces, rendering it inaccurate for hydrogel thin films, where surface forces are significant. The Johnson, Kendall, and Roberts model (Johnson et al., 1971), which includes surface forces, is more appropriate but does not account for viscoelastic and poroelastic effects. Therefore, we will evaluate these models and modify them as needed to account for the poroelasticity of hydrogels. Simultaneously, we study the stress relaxation in these materials in the context of the viscoelastic and poroelastic relaxation models.

Mechanical Characterization of Photo-crosslinkable Hydrogels with AFM

Author: Alyssa McKenna
Publisher:
ISBN:
Category : Colloids
Languages : en
Pages : 258

Basic Concepts on 3D Cell Culture

Author: Cornelia Kasper
Publisher: Springer Nature
ISBN: 3030667499
Category : Medical
Languages : en
Pages : 252

Book Description
This textbook shall introduce the students to 3D cell culture approaches and applications. An overview on existing techniques and equipment is provided and insight into various aspects and challenges that researchers need to consider and face during culture of 3D cells is given. The reader will learn the importance of physiological cell, tissue and organ models and gains important knowledge on 3D analytics. This textbook deepens selected aspects of the textbook “Cell Culture Technology”, which also is published in this series, while offering extended insight into 3D cell culture. The concept of the textbook encompasses various lectures ranging from basics in cell cultivation, tissue engineering, biomaterials and biocompatibility, in vitro test systems and regenerative medicine. The textbook addresses Master- and PhD students interested and/or working in the field of modern cell culture applications and will support the understanding of the essential strategies in 3D cell culture and waken awareness for the potentials and challenges of this application.

Hydrogels

Author: Lacramioara Popa
Publisher: BoD – Books on Demand
ISBN: 1789858755
Category : Technology & Engineering
Languages : en
Pages : 133

Book Description
Hydrogels, as three-dimensional polymer networks, are able to retain a large amount of water in their swollen state. The biomedical application of hydrogels was initially hampered by the toxicity of cross-linking agents and the limitations of hydrogel formation under physiological conditions. However, emerging knowledge in polymer chemistry and an increased understanding of biological processes have resulted in the design of versatile materials and minimally invasive therapies.The novel but challenging properties of hydrogels are attracting the attention of researchers in the biological, medical, and pharmaceutical fields. In the last few years, new methods have been developed for the preparation of hydrophilic polymers and hydrogels, which may be used in future biomedical and drug delivery applications. Such efforts include the synthesis of self-organized nanostructures based on triblock copolymers with applications in controlled drug delivery. These hydrogels could be used as carriers for drug delivery when combined with the techniques of drug imprinting and subsequent release. Engineered protein hydrogels have many potential advantages. They are excellent biomaterials and biodegradables. Furthermore, they could encapsulate drugs and be used in injectable forms to replace surgery, to repair damaged cartilage, in regenerative medicine, or in tissue engineering. Also, they have potential applications in gene therapy, although this field is relatively new.

Orthopedic Biomaterials

Author: Bingyun Li
Publisher: Springer
ISBN: 3319736647
Category : Medical
Languages : en
Pages : 614

Book Description
This book covers the latest advances, applications, and challenges in orthopedic biomaterials. Topics covered include materials for orthopedic applications, including nanomaterials, biomimetic materials, calcium phosphates, polymers, biodegradable metals, bone grafts/implants, and biomaterial-mediated drug delivery. Absorbable orthopedic biomaterials and challenges related to orthopedic biomaterials are covered in detail. This is an ideal book for graduate and undergraduate students, researchers, and professionals working with orthopedic biomaterials and tissue engineering. This book also: Describes biodegradable metals for orthopedic applications, such as Zn-based medical implants Thoroughly covers various materials for orthopedic applications, including absorbable orthopedic biomaterials with a focus on polymers Details the state-of-the-art research on orthopedic nanomaterials and nanotechnology

Soft Matter for Biomedical Applications

Author: Dr Helena S Azevedo
Publisher: Royal Society of Chemistry
ISBN: 1788017579
Category : Science
Languages : en
Pages : 788

Book Description
Dynamic soft materials that have the ability to expand and contract, change stiffness, self-heal or dissolve in response to environmental changes, are of great interest in applications ranging from biosensing and drug delivery to soft robotics and tissue engineering. This book covers the state-of-the-art and current trends in the very active and exciting field of bioinspired soft matter, its fundamentals and comprehension from the structural-property point of view, as well as materials and cutting-edge technologies that enable their design, fabrication, advanced characterization and underpin their biomedical applications. The book contents are supported by illustrated examples, schemes, and figures, offering a comprehensive and thorough overview of key aspects of soft matter. The book will provide a trusted resource for undergraduate and graduate students and will extensively benefit researchers and professionals working across the fields of chemistry, biochemistry, polymer chemistry, materials science and engineering, nanosciences, nanotechnologies, nanomedicine, biomedical engineering and medical sciences.

Switchable and Responsive Surfaces and Materials for Biomedical Applications

Author: Johnathan Zhang
Publisher: Elsevier
ISBN: 0857097172
Category : Technology & Engineering
Languages : en
Pages : 325

Book Description
Surface modification of biomaterials can ultimately determine whether a material is accepted or rejected from the human body, and a responsive surface can further make the material "smart" and "intelligent". Switchable and Responsive Surfaces and Materials for Biomedical Applications outlines synthetic and biological materials that are responsive under different stimuli, their surface design and modification techniques, and applicability in regenerative medicine/tissue engineering, drug delivery, medical devices, and biomedical diagnostics. Part one provides a detailed overview of switchable and responsive materials and surfaces, exploring thermo-responsive polymers, environmentally responsive polyelectrolytes and zwitterionic polymers, as well as peptide-based and photonic sensitive switchable materials. Further chapters include a detailed overview of the preparation and analysis of switchable polymer brushes and copolymers for biomedical application. Part two explores the biological interactions and biomedical applications of switchable surfaces, where expert analysis is provided on the interaction of switchable surfaces with proteins and cells. The interaction of stimuli-sensitive polymers for tissue engineering and drug delivery with biosurfaces is critiqued, whilst the editor provides a skillful study into the application of responsive polymers in implantable medical devices and biosensors. A comprehensive overview of switchable and responsive materials and surfaces Includes in depth analysis of thermo-responsive polymers, photonic sensitive materials and peptide-based surfaces Detailed exploration of biological interactions of responsive and switchable surfaces, covering stimuli-sensitive polymers for drug delivery, surfaces with proteins/cells and application of polymers in medical devices

Cellulose-Based Superabsorbent Hydrogels

Author: Md. Ibrahim H. Mondal
Publisher: Springer
ISBN: 9783319778297
Category : Technology & Engineering
Languages : en
Pages : 0

Book Description
With the prospect of revolutionizing specific technologies, this book highlights the most exciting and impactful current research in the fields of cellulose-based superabsorbent hydrogels with their smart applications. The book assembles the newest synthetic routes, characterization methods, and applications in the emergent area. Leading experts in the field have contributed chapters representative of their most recent research results, shedding light on the enormous potential of this field and thoroughly presenting cellulose-based hydrogel functioning materials. The book is intended for the polymer chemists, academic and industrial scientists and engineers, pharmaceutical and biomedical scientists and agricultural engineers engaged in research and development on absorbency, absorbent products and superabsorbent hydrogels. It can also be supportive for undergraduate and graduate students.

Click Chemistry

Author: Ram K. Gupta
Publisher: CRC Press
ISBN: 1040127320
Category : Technology & Engineering
Languages : en
Pages : 295

Book Description
Click chemistry involves highly efficient, reliable, and stereoselective reactions that can synthesize new materials cost-effectively. The first volume entitled “Click Chemistry: Fundamentals and Synthesis” covers the fundamentals, mechanisms, kinetics, and various approaches to synthesizing new materials making it suitable for synthetic chemists and researchers working in nanoscience and technology. The main objective of this book is to provide information about current, state-of-the-art development in click chemistry as well as challenges. Experts from around the world have contributed towards this book, making this a suitable textbook for students and providing new guidelines to researchers and industries working in these areas.

The Hardness of Metals

Author: David Tabor
Publisher: Oxford University Press
ISBN: 9780198507765
Category : Science
Languages : en
Pages : 196

Book Description
This book is an attempt to explain hardness measurements of metals in terms of some of their more basic physical properties. The intention is to provide, for physicists, engineers, and metallurgists, a better understanding of what hardness means and what hardness measurements imply. The author emphasises the physical concepts involved, so that non-mathematical readers can grasp and appreciate the general physical picture without needing to follow the more detailed mathematical treatment.

Tunable Hydrogels

Author: Antonina Lavrentieva
Publisher: Springer Nature
ISBN: 3030767698
Category : Science
Languages : en
Pages : 256

Book Description
This book reviews the current knowledge on tunable hydrogels, including the range of different materials and applications, as well as the existing challenges and limitations in the field. It covers various aspects of the material design, particularly highlighting biological responsiveness, degradability and responsiveness to external stimuli. In this book, readers will discover original research data and state-of-the-art reviews in the area of hydrogel technology, with a specific focus on biotechnology and medicine. Written by leading experts, the contributions outline strategies for designing tunable hydrogels and offer a detailed evaluation of the physical and synthetic methods currently employed to achieve specific hydrogel properties and responsiveness. This highly informative book provides important theoretical and practical insights for scholars and researchers working with hydrogels for biomedical and biotechnological applications.