Introductory Chapter: Seaweed-Derived Biomaterials PDF Download

Author: Sabyasachi Maiti
Publisher:
ISBN:
Category : Medicine
Languages : en
Pages :

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Introductory Chapter: Seaweed-Derived Biomaterials.

Author: Sabyasachi Maiti
Publisher:
ISBN: 1789848466
Category :
Languages : en
Pages : 76

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Author: Huu Hao Ngo
Publisher: Elsevier
ISBN: 0323961436
Category : Science
Languages : en
Pages : 342

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Book Description
Biomass, Biofuels, and Biochemicals: Algae-Based Biomaterials for Sustainable Development, Biomedical, Environmental Remediation and Sustainability Assessment, a new release in the Biomass, Biofuels, and Biochemicals series, covers algae-based biomaterials—the green and renewable material that can be produced from various micro- and macro-algae species and utilized for several applications, including biomedical healthcare and environmental remediation. The book provides assessments of the current development of algae-based biomaterials, delivering information on diverse feedstocks and technologies for biomaterial production with a perspective surrounding sustainable development. In addition, circular bioeconomy aspects are included, giving researchers a comprehensive, sustainable development view. This valuable addition to the series delivers a much-needed reference for today’s applications in biomedical and environmental remediation. Comprises the advanced production of algae-based biomaterials from various micro- and macro-algae feedstocks Describes up-to-date applications of algae-based biomaterials for environmental remediation, including pollutants and greenhouse gases Helps explain the sustainable development of algae-based biomaterials, looking at sustainable assessments and circular bioeconomy aspects

Author: Sougata Jana
Publisher: Springer Nature
ISBN: 9811653747
Category : Medical
Languages : en
Pages : 397

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Book Description
This book provides updated information on marine-based biomedical carriers and their therapeutic potential. Marine biomaterials and bio-based carriers show wide application in pharmaceutical and biomedical fields to deliver small and large molecules. Biomaterial-based composites, scaffolds, or matrix systems are sound systems for controlled and prolonged drug release in target sites and control the premature release of drugs or bioactive compounds. This book discusses essential topics such as the therapeutic potential of marine collagen, management of bone disorders, gene delivery, natural marine compounds in immunomodulation, theranostic applications, tissue engineering, and regeneration. It also describes the use of marine biopolymers in cancer therapy. Different chapters describe the tissue engineering techniques to develop these carriers. Marine biomaterial-based systems are popular for tissue engineering and biomedical imaging. This book is ideal for industry experts, students, and researchers in pharmaceutical sciences and pharmacology.

Author: Andy H. Choi
Publisher: Springer
ISBN: 9811388555
Category : Technology & Engineering
Languages : en
Pages : 550

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Book Description
This book presents the latest advances in marine structures and related biomaterials for applications in both soft- and hard-tissue engineering, as well as controlled drug delivery. It explores marine structures consisting of materials with a wide variety of characteristics that warrant their use as biomaterials. It also underlines the importance of exploiting natural marine resources for the sustainable development of novel biomaterials and discusses the resulting environmental and economic benefits. The book is divided into three major sections: the first covers the clinical application of marine biomaterials for drug delivery in tissue engineering, while the other two examine the clinical significance of marine structures in soft- and hard-tissue engineering, respectively. Focusing on clinically oriented applications, it is a valuable resource for dentists, oral and maxillofacial surgeons, orthopedic surgeons, and students and researchers in the field of tissue engineering.

Author: Jayachandran Venkatesan
Publisher: Elsevier
ISBN: 0128098171
Category : Science
Languages : en
Pages : 410

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Book Description
Seaweed Polysaccharides: Isolation, Biological, and Biomedical Applications examines the isolation and characterization of algal biopolymers, including a range of new biological and biomedical applications. In recent years, significant developments have been made in algae-based polymers (commonly called polysaccharides), and in biomedical applications such as drug delivery, wound dressings, and tissue engineering. Demand for algae-based polymers is increasing and represent a potential—very inexpensive—resource for these applications. The structure and chemical modification of algal polymers are covered, as well as the biological properties of these materials – including antithrombic, anti-inflammatory, anticoagulant, and antiviral aspects. Toxicity of algal biopolymers is also covered. Finally, the book introduces and explains real world applications of algal-based biopolymers in biomedical applications, including tissue engineering, drug delivery, and biosensors. This is the first book to cover the extraction techniques, biomedical applications, and the economic perspective of seaweed polysaccharides. It is an essential text for researchers and industry professionals looking to work with this renewable resource. Provides comprehensive coverage of the research currently taking place in biomedical applications of algae biopolymers Includes practical guidance on the isolation, extraction, and characterization of polysaccharides from sustainable marine sources Covers the extraction techniques, biomedical applications, and economic outlook of seaweed polysaccharides

Author: Se-Kwon Kim
Publisher: CRC Press
ISBN: 1466505648
Category : Medical
Languages : en
Pages : 843

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Book Description
Oceans are an abundant source of diverse biomaterials with potential for an array of uses. Marine Biomaterials: Characterization, Isolation and Applications brings together the wide range of research in this important area, including the latest developments and applications, from preliminary research to clinical trials. The book is divided into four parts, with chapters written by experts from around the world. Biomaterials described come from a variety of marine sources, such as fish, algae, microorganisms, crustaceans, and mollusks. Part I covers the isolation and characterization of marine biomaterials—bioceramics, biopolymers, fatty acids, toxins and pigments, nanoparticles, and adhesive materials. It also describes problems that may be encountered in the process as well as possible solutions. Part II looks at biological activities of marine biomaterials, including polysaccharides, biotoxins, and peptides. Chapters examine health benefits of the biomaterials, such as antiviral activity, antidiabetic properties, anticoagulant and anti-allergic effects, and more. Part III discusses biomedical applications of marine biomaterials, including nanocomposites, and describes applications of various materials in tissue engineering and drug delivery. Part IV explores commercialization of marine-derived biomaterials—marine polysaccharides and marine enzymes—and examines industry perspectives and applications. This book covers the key aspects of available marine biomaterials for biological and biomedical applications, and presents techniques that can be used for future isolation of novel materials from marine sources.

Author: Sougata Jana
Publisher: Springer Nature
ISBN: 9819988268
Category :
Languages : en
Pages : 427

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Book Description

Author: Sougata Jana
Publisher: Springer Nature
ISBN: 9811647879
Category : Medical
Languages : en
Pages : 453

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Book Description
This book is focused on marine based biomedical carriers for delivery of therapeutics. Marine biomaterials and bio-based carriers show wide applications in pharmaceutical as well as biomedical fields for delivery of small and large molecules. Biomaterial-based composites, scaffolds or matrix systems are promising systems for controlled and prolonged release of drug in target site and control the premature release of drugs or bioactive compounds. This book discusses the targeted delivery of drugs and therapeutic applications. It also describes the use of marine biopolymers in cancer therapy. Different chapters describe the tissue engineering techniques to develop these carriers. The marine biomaterial-based systems are widely used for tissue engineering, and biomedical imaging. This book is meant for industry experts, students and researchers in the area of pharmaceutical sciences, biomedical engineering and material science and pharmacology.

Author: Ryan Joseph Hickey
Publisher:
ISBN:
Category :
Languages : en
Pages :

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Book Description
Cells are complex active materials that display fascinating phenomena in response to changes in their physical environments. It is well established that the physical environment dictates cell fate and function; nevertheless, the standard method of culturing and studying cells is on stiff 2- dimensional Petri dishes and glass cover slips. The difference in the magnitude of the stiffness of the substrate in addition to the 2-dimensional character, leads to an incomplete and perhaps misleading picture of the cellular process under scrutiny. As such, an entire field has been dedicated to developing materials that more closely match the characteristics of the natural cellular milieu: biomaterials. Despite significant progress in the field, we are still far from fully recapturing the native environment. Importantly, many of the current strategies for engineering 3-dimensional biomaterials have specific applications yet lack flexibility to be adapted to a wide variety of functions. Our approach is to repurpose existing complex, readily available materials to create a platform for biomaterial production; our biomaterials are derived from plant tissue. Plants have evolved over millions of years to attain structures with intricate geometries for specialized functions. Due to the wide variety of plant structures, one can easily select a plant-based material with analogous features to the tissue of interest. A series of investigations are presented on these novel biomaterials to demonstrate this approach, quantify the mechanical properties, and study the cellular responses. First, we developed a method of processing plant materials to yield decellularized, cellulose-based, biocompatible scaffolds that can be repopulated with mammalian cells. We then created composite materials by casting hydrogels around the cellulose-based scaffolds, which allowed us to incorporate distinct temporal and spatial cues to the local cell populations. Spatial organization of tissues and tissue interfaces remains a primary challenge in biomedical engineering, as tissue interfaces mark complex transitional zones between distinct cell populations. Replicating and repairing this intricate delineation of cell types and mechanical profiles has proven to be a major concern in regenerative medicine. As such, we sought to develop a platform for engineered tissue interfaces, wherein components are combined in a modular fashion into a functional unit. The mechanical cues of the microenvironment affect a plethora of cellular processes, namely cell migration, proliferation, and differentiation. Consequently, the rheological properties of our decellularized, plant-based scaffolds were thoroughly investigated. An in-depth knowledge of the mechanics of the underlying substrate is required to guide future applications and refinements of this technology. The potential applications of these 3-dimensional constructs, as demonstrated through our findings, include designing in vitro models of tissue interactions, new biomaterials for in vivo applications, and studies on fundamental cellular processes. We highlight the significance of our results in a collection of scientific articles, which are presented in the body of this thesis (Chapters 2-5). This work is focused on the use of plant- derived cellulose materials, which forms a subsection of the cellulose biomaterial field. A review article centered on the use of cellulose materials for tissue engineering serves as an introductory chapter.