Bentham Science Publishers

This reference is a guide to biomaterial fabrication techniques. The book comprises ten chapters introducing the reader to a range of biomaterial synthesis while highlighting biomedical applications. Each chapter presents a review of the topic followed by updated information about relevant core and applied concepts in an easy to understand format. The first two chapters present vital information about biomaterial components, such as polymer nanocomposites and scaffolds, and the strategies used for their fabrication. The proceeding chapters explain the principles of the most widely used fabrication techniques, and their application in detail. These include freeze drying, electrospinning, 3D printing, multiphoton lithography, particulate leaching, supramolecular self assembly, solvent casting and melt molding. The book is an essential primer on biomaterial synthesis for students and early career researchers in the field of biomedical engineering, applied chemistry and tissue engineering.

Biomedical Applications of Perovskites: The Era of Bio-Piezoelectric Systems focuses on recent developments in the area of piezoelectric systems and their biomedical applications. A compilation of 19 edited chapters covers different piezoelectric materials, device designs, and their use cases. Readers will be familiarized with the many perovskite materials being used in research and development as well as the role they play in designing novel medical devices and biomaterials.

Key Features

- systematically explains the piezoelectric perovskite materials starting from their introduction, their structure and synthesis techniques

- explains the key materials used in devices such as pacemakers and nanogenerators

- highlights a range of applications including bone regeneration and growth, bone replacement, tissue engineering, dental science, neurotrauma and neurodegenerative disease treatment and bionic prosthesis

- discusses future challenges and the roadmap for piezoelectric perovskite materials

- Presents scientific references for advanced reading

The biophysics of diving and decompression in the human body are complex. The average individual experiences atmospheric pressure swings of 3% at sea level and over 20% at altitudes greater than a mile. Divers and their equipment can experience compressions and decompressions in orders of greater magnitude than pressures outside water, all within considerably shorter time spans. The understanding of the mechanics behind diving is based on absolute pressure and pressure changes. While these mechanics are readily quantified in physics, chemistry, and engineering applications, the physiological and medical aspects of pressure changes in living systems need to be understood clearly to assess the safety of routine divers.

This monograph is a compilation of a body of knowledge on biophysics, gas transport, bubble studies and physiological models used for diving and hyperbaric applications. Information in the monograph is divided into three parts that cover biophysics and models, data correlation and validation approaches and practical applications, respectively. The book is a useful resource for researchers and maritime professionals who wish to understand the biophysics behind underwater diving and decompression for the purpose of maritime operations as well as diving simulation applications.

Bio-based polymers are materials that are produced from renewable resources. Their biodegradable properties are the driver of worldwide interest among researchers and manufacturers in recent years due to the demand and need for alternatives to fossil fuel based polymers. The use of biodegradable polymers creates a sustainable industry. In contrast, the raw materials for synthetic polymers derived from petrochemicals will eventually deplete and most of them are non-biodegradable. Despite these advantages, bio-based polymers account for only a tiny fraction of the total global plastic market.

Non-biodegradability issues of synthetic pharmaceutical inactive ingredients strongly emphasized innovators towards the development of biopolymers. Recently natural biodegradable excipients gained significant attention due to their sustainability and engineered applications. Innovative technologies to transform these materials into value-added chemicals via novel graft-polymerization or co-processing techniques for the production of high-performance multifunctional and low-cost polymers with tunable structures are key parts of its sustainable development.

Biopolymers Towards Green and Sustainable Development elaborates on important issues that surround bio-based polymers. It gives the reader an overview of biopolymers, the impact of non-biodegradable polymers on the environment and health, emerging sources of biodegradable polymers, structural and morphological characterization techniques, thermomechanical properties, biodegradable plastics from biopolymers, pharmaceutical, biomedical, and textile applications, and pharmacokinetics and pharmacodynamics. with a brief on bibliometric. Moreover, a brief bibliometric meta-analysis on bio-based pharmaceutical excipients provides an update about teams involved in the development of polymeric research that may be of interest to anyone who wants to work on sustainable biopolymer projects.

Key Features

- provides an updated summary on recently discovered natural polymeric materials

- gives a thorough breakdown of the vast range of biopolymer applications including fabrication of conventional and novel drug delivery, polymeric scaffolds, composites, microneedles, and green synthesis of metallic nanoparticles,

-summarizes pharmacology and pharmacokinetics of the inactive pharmaceutical ingredient and excipients

- presents a bibliometric meta-analysis indicating potential collaboration between country, organization, institution, and authors with a view on recent ongoing trends with biopolymers.

Increased industrial and agricultural activity has led to the contamination of the earth's soil and groundwater resources with hazardous chemicals. The presence of heavy metals, dyes, fluorides, dissolved solids, and many other pollutants used in industry and agriculture are responsible for hazardous levels of water pollution. The removal of these pollutants in water resources is challenging. Bioremediation is a new technique that employs living organisms, usually bacteria and fungi, to remove pollutants from soil and water, preferably in situ. This approach is more cost-effective than traditional techniques, such as incineration of soils and carbon filtration of water. It requires understanding how organisms consume and transform polluting chemicals, survive in polluted environments, and how they should be employed in the field.

Bioremediation for Environmental Pollutants discusses the latest research in green chemistry and practices and principles involved in quality improvement of water by remediation. It covers different aspects of environmental problems and their remedies with up-to-date developments in the field of bioremediation of industrial/environmental pollutants. Volume 1 focuses on the bioremediation of heavy metals, pesticides, textile dyes removal, petroleum hydrocarbon, microplastics and plastics.

Waste management is one of the major challenges for environmental and public health organizations for maintaining safety standards in any area. Population growth and urbanization increase the difficulty in maintaining a sustainable waste management system. Bioremediation refers to the use of living organisms in processes designed to remove toxic chemicals present in waste material. Bioremediation represents a sustainable way to remove a range of environmental pollutants.

Bioremediation: Challenges and Advancements covers the subject of bioremediation in eight chapters that focus on a broad range of waste sources, their adverse impacts on the ecosystem, and the advanced strategies for their remediation. Each chapter also highlights the problems encountered in bioremediation processes.

Key features:

- Comprehensive coverage of bioremediation in 8 reader-friendly chapters

- Highlights methods and challenges of bioremediation in one volume.

- Introduces the reader to bioremediation

- Explains recent biotechnological methods for removing heavy metals and xenobiotic compounds

- Describes strategies including physical, chemical, and biological methods to mitigate radioactive waste from contaminated sites and water bodies

- Details the use of microbial-aided remediation techniques for the management of biomedical and electronic wastes, and its impact on the ecosystem

- Describes bioremediation technologies for decontamination of solid waste pollutants

- Showcases the application of Omics approaches such as genomics, transcriptomics, proteomics, and metabolomics to improve bioremediation processes.

- Covers bioremediation of agro-wastes

- Includes detailed references

This book is an informative reference for scholars (researchers, undergraduate and graduate students of environmental sciences, microbiology and biotechnology) professionals (environmental engineers) and researchers, giving each a good understanding of the significance of bioremediation in solid waste management and the restoration of contaminated sites.

Increasing public health concern about healthy lifestyles has sparked a greater demand among consumers for healthy foods. Natural ingredients and environmental friendly food production and processing chains are more aligned to meeting the demand for healthy food. There is a wide array of food additives and chemicals that have nutritional value. The biotechnological food production processes, therefore, vary for different types of food chemicals and ingredients accordingly.

Biotechnological Production of Natural Ingredients for Food Industry explains the main aspects of the production of food ingredients from biotechnological sources. The book features 12 chapters which cover the processes for producing and adding a broad variety of food additives and natural products, such as sweeteners, amino acids, nucleotides, organic acids, vitamins, nutraceuticals, aromatic (pleasant smelling) compounds, colorants, edible oils, hydrocolloids, antimicrobial compounds, biosurfactants and food enzymes.

Biotechnological Production of Natural Ingredients for Food Industry is a definitive reference for students, scientists, researchers and professionals seeking to understand the biotechnology of food additives and functional food products, particularly those involved in courses or activities in the fields of food science and technology, food chemistry, food biotechnology, food engineering, bioprocess engineering, biotechnology, applied microbiology and nutrition.

Biotechnology and Drug Development for Targeting Human Diseases is an insightful compendium on drug development technologies for professionals and students in biotechnology and pharmacology. This book meticulously explores the intersection of biotechnology with drug development, emphasizing its crucial role in creating new therapies for human disease.

Central to the book is the innovative use of biotechnology in understanding and treating diseases. It begins with an exploration of multi-omics profiles, shedding light on disease mechanisms and drug development. Subsequent chapters explain in silico methods for drug design, the role of natural products in antimicrobial applications and wound healing, and the use of viruses as carriers in biotechnology.

Key features of this reference include a blend of theoretical knowledge and practical insights, detailed analyses of molecular docking in drug discovery, the repurposing of drugs for various diseases, and the emerging field of omics technologies in drug interaction studies. Each chapter is comprehensive, offering current information backed by extensive references, making the book both a foundational and advanced resource.

This reference presents information about different facets of IoT and blockchain systems that have been recently proposed for practical situations. Chapters provide knowledge about how these technologies are applied in functions related to trust management, identity management, security threats, access control and privacy.

Key Features:

- Introduces the reader to fundamental concepts of IoT and blockchain technology

- reports advances in the field of IoT, ubiquitous computing and blockchain computing

- includes the applications of different frameworks

- explains the role of blockchains in improving IT security

- provides examples of smart grids, data transmission models, digital business platforms, agronomics and big data solutions

- Includes references for further reading

Blockchain Applications for Secure IoT Frameworks: Technologies Shaping the Future is a handy reference for information technology professionals and students who want updated information about applications of IoT and blockchains in secure operational and business processes.