Welcome to Loot.co.za!
Sign in / Register |Wishlists & Gift Vouchers |Help | Advanced search
|
Your cart is empty |
|||
Showing 1 - 25 of 46 matches in All Departments
Dosage Forms, Formulation Developments and Regulations, Volume One in the Recent and Future Trends in Pharmaceutics series, explores aspects of pharmaceutics, with an original approach focused on technology, novelties and future trends in the field. The book discusses the most recent developments in pharmaceutical preformulation and formulation studies, biopharmaceutics and novel pharmaceutical formulations, regulatory affairs, and good manufacturing practices. Exciting areas such as formulation strategies, optimization techniques, the biopharmaceutical classification system, and pharmaceutical aerosols are included. The field of pharmaceutics is highly dynamic and rapidly expanding day-by-day, so it demands a variety of amplified efforts for designing and developing pharmaceutical processes and formulation strategies. This is an essential reference for researchers in academia and industry as well as advanced graduate students in pharmaceutics.
This book covers the recent innovations relating to various bioactive natural products (such as alkaloids, glycosides, flavonoids, anthraquinones, steroids, polysaccharides, tannins and polyphenolic compounds, volatile oils, fixed oils, fats and waxes, proteins and peptides, vitamins, marine products, camptothecin, piperines, carvacrol, gedunin, GABA, ginsenosides) and their applications in the pharmaceutical fields related to academic, research and industry.
This book discusses the recent innovations in the development of various advanced biopolymeric systems, including gels, in situ gels, hydrogels, interpenetrating polymer networks (IPNs), polyelectrolyte complexes (PECs), graft co-polymers, stimuli-responsive polymers, polymeric nanoparticles, nanocomposites, polymeric micelles, dendrimers, liposomes and scaffolds. It also examines their applications in drug delivery.
Advanced Nanoformulations: Theranostic Nanosystems, Volume Three examines the applications of nanotherapeutic systems and nanodiagnostics in relation to polymeric nanosystems. In the last decade, numerous biopolymers have been utilized to prepare polymeric nanosystems for therapeutic applications. These biopolymers include polylactic acid, polylactide-co-glycolide, polycaprolactone, acrylic polymers, cellulose and cellulose derivatives, alginates, chitosan, gellan gum, gelatin, albumin, chontroitin sulfate, hyaluronic acid, guar gum, gum Arabic, gum tragacanth, xanthan gum, and starches. Besides these biopolymers, grafted polymers are also being used as advanced polymeric materials to prepare many theranostic nanocarriers and nanoformulations. This book explores the array of polymeric nanosystems to understand therapeutic potentials. It will be useful to pharmaceutical scientists, including industrial pharmacists and analytical scientists, health care professionals, and regulatory scientists actively involved in the pharmaceutical product and process development of tailor-made polysaccharides in drug delivery applications.
This book provides an overview of biocomposite chemistry, chemical modifications, characterization and applications in biomedicine, with emphasis on recent advances in the field. Authored by experts, the chapters discuss the design, development and selection of biomedical composites for a particular therapeutic application, as well as providing insight into the regulatory and clinical aspects of biomedical composite use. While this book is primarily intended for scientists from the fields of medical, pharmaceutical, biotechnological and biomedical engineering, it is also useful as an advanced text for students and research scholars.
This new volume, Natural Polymers for Pharmaceutical Applications, Volume 1: Plant-Derived Polymers, presents some of the latest research on the applications of natural polymers in drug delivery and therapeutics for healthcare benefits. Polymers and their applications from several plants are discussed in depth, including tamarind gum, gum Arabic, natural carbohydrate polymer gum tragacanth, pectin, guar gum and its derivatives, locust bean gum, sterculia gum, okra gum, and others. The use of the polymers derived from plants as potential pharmaceutical excipients is expanding day by day because of their stability in the biological system, drug-releasing capability, drug-targeting abilities, as well as their bioavailability.
Many polymers derived from various marine sources and microorganisms possess some important biological properties such as biocompatibility, biodegradability, and bioadhesivity that make them attractive as pharmaceutical excipients in various pharmaceutical dosage forms. Moreover, these polymers can be modified physically and/or chemically to improve their biomaterial properties. In this volume, Natural Polymers for Pharmaceutical Applications, Volume 2: Marine- and Microbiologically Derived Polymers, looks at how these polymers have been explored and exploited for pharmaceutical uses, such as in tablets, microparticles, nanoparticles, ophthalmic preparations, gels, emulsions, suspensions, etc. Some commonly used marine- and microbiologically derived polymers used as pharmaceutical excipients include alginates, agar-agar, gellan gum, carrageenan; chitosan, xanthan gum, and others. The book focuses on important recent advances from experts around the world on marine-derived polysaccharides and pharmaceutical applications of alginates, agar-agar, gellan gum, carrageenan, chitosan derivatives, xanthan gum.
In recent years, many animal-derived polymers have emerged as an attractive category of naturally derived polymers because of their advantageous physicochemical, chemical, and biological properties. The important biological properties of these natural polymers derived from animals are biocompatibility and biodegradation. These polymers are generally composed of repeated units of amino acids. Moreover, these polymers can be modified physically and/or chemically to improve their biomaterial properties. Natural Polymers for Pharmaceutical Applications, Volume 3: Animal-Derived Polymers looks at how these polymers can be exploited as pharmaceutical excipients in various pharmaceutical dosage forms, like microparticles, nanoparticles, ophthalmic preparations, gels, implants, etc. The commonly used animal-derived polymers used as pharmaceutical excipients are hyaluronic acid (hyaluronan), albumin, collagen, gelatin, chondroitin, etc.
This new volume explores the latest research on the use of alginate as a biopolymer in various biomedical applications and therapeutics. The uses of alginates and modified alginates discussed in this book include tissue regeneration, encapsulation and delivery of drugs, nucleic acid materials, proteins and peptides, genes, herbal therapeutic agents, nutraceuticals, and more. This book also describes the synthesis and characterizations of various alginate and modified alginate systems, such as hydrogels, gels, composites, nanoparticles, scaffolds, etc., used for the biomedical applications and therapeutics. Alginate, a biopolymer of natural origin, is of immense interest for its variety of applications in pharmaceuticals (as medical diagnostic aids) and in materials science. It is the one of the most abundant natural biopolymers and is considered an excellent excipient because of its non-toxic, stable, and biodegradable properties. Several research innovations have been made on applications of alginate in drug delivery and biomedicines. There needs to be a thorough understanding of the synthesis, purification, and characterization of alginates and its derivatives for their utility in healthcare fields, and this volume offers an abundance of information toward that end.
Gellan Gum as a Biomedical Polymer details key topics and fundamental aspects of gellan gum and its biomedical applications in drug delivery, proteins and peptides delivery, cell delivery, tissue engineering, wound dressings and enzyme immobilizations in developing high quality products. Sections introduce gellan gum, its source, production and gelation mechanism, discuss biomedical materials, and provides ways it can be used for biomedical applications. The book also examines the used of gellan gum as pharmaceutical excipients for drug delivery. Future developments and challenges round out the book’s coverage. With contributions for an international group of experts, this book is a useful reference for scientists, researchers and those in industry engaged in biomedical product development using natural polysaccharides.
Plant Polysaccharides as Pharmaceutical Excipients explores innovative techniques and applications of plant-derived polysaccharides as pharmaceutical excipients. Plant polysaccharides are sustainable, renewable and abundantly available, offering attractive properties in terms of water solubility, swelling ability, non-toxicity and biodegradability. These qualities have resulted in extensive exploration into their applications as excipients in a variety of pharmaceutical dosage forms. This book takes a comprehensive, application-oriented approach, drawing on the very latest research that includes sources, classification and extraction methods of plant polysaccharides. Subsequent chapters focus on plant polysaccharides for individual pharmaceutical applications, enabling the reader to understand their preparation for specific targeted uses. Throughout the book, information is supported by illustrations, chemical structures, flow charts and data tables, providing a clear understanding. Finally, future perspectives and challenges are reviewed and discussed.
This volume provides a thorough insight into the chemistry and mechanism of ionic gelations of various ionic biopolysaccharides, like alginate, gellan gum, pectin, chitosan, carboxymethyl cellulose, etc., and the applications of various ionically gelled biopolysaccharides in drug delivery fields, with chapters emphasizing the recent advances in the field by the experts. This book will be of interest to graduate students and academic and industry researchers from pharmacy, biotechnology, bioengineering, biomedical and material sciences fields.
Design and Applications of Theranostic Nanomedicines reviews the composition and design of various nanomedicines for theranostic applications, helping readers to make informed decisions when exploring novel treatments for disease. This book introduces readers to theranostic nanostructures as nanomedicines, beginning with a balanced look at the associated challenges, costs and benefits. The next section goes on to detail a range of different theranostic nanomedicines and their design, from nanodispersions and nanogels to exosomes and polymeric micelles. A variety of applications is covered, including in the treatment of pulmonary diseases, neurological disorders, cancers and more. The book also takes a look at the toxicological implications of nanotheranostics, an important aspect of any therapy or treatment. Design and Applications of Theranostic Nanomedicines provides a snapshot of the state-of-the-art, and will be of use to materials scientists, biomedical engineers and pharmaceutical scientists with an interest in nanotechnology and theranostics.
This book provides an overview of biocomposite chemistry, chemical modifications, characterization and applications in biomedicine, with emphasis on recent advances in the field. Authored by experts, the chapters discuss the design, development and selection of biomedical composites for a particular therapeutic application, as well as providing insight into the regulatory and clinical aspects of biomedical composite use. While this book is primarily intended for scientists from the fields of medical, pharmaceutical, biotechnological and biomedical engineering, it is also useful as an advanced text for students and research scholars.
This book covers the recent innovations relating to various bioactive natural products (such as alkaloids, glycosides, flavonoids, anthraquinones, steroids, polysaccharides, tannins and polyphenolic compounds, volatile oils, fixed oils, fats and waxes, proteins and peptides, vitamins, marine products, camptothecin, piperines, carvacrol, gedunin, GABA, ginsenosides) and their applications in the pharmaceutical fields related to academic, research and industry.
This book discusses the recent innovations in the development of various advanced biopolymeric systems, including gels, in situ gels, hydrogels, interpenetrating polymer networks (IPNs), polyelectrolyte complexes (PECs), graft co-polymers, stimuli-responsive polymers, polymeric nanoparticles, nanocomposites, polymeric micelles, dendrimers, liposomes and scaffolds. It also examines their applications in drug delivery.
Alginates in Drug Delivery explores the vital precepts, basic and fundamental aspects of alginates in pharmaceutical sciences, biopharmacology, and in the biotechnology industry. The use of natural polymers in healthcare applications over synthetic polymers is becoming more prevalent due to natural polymers' biocompatibility, biodegradability, economic extraction and ready availability. To fully utilize and harness the potential of alginates, this book presents a thorough understanding of the synthesis, purification, and characterization of alginates and their derivative. This book collects, in a single volume, all relevant information on alginates in health care, including recent advances in the field. This is a highly useful resource for pharmaceutical scientists, health care professionals and regulatory scientists actively involved in the pharmaceutical product and process development of natural polymer containing drug delivery, as well as postgraduate students and postdoctoral research fellows in pharmaceutical sciences.
This book explores the use of various plant polysaccharides for pharmaceutical purposes, including drug delivery. It examines the exploitation of plant polysaccharides' auxiliary functions to enhance drug release, stability, bioavailability and target specificity. Plant-derived materials are at the center of drug-delivery research thanks to their non-toxicity, biodegradability, ready availability, eco-friendliness and low extraction costs. These materials include polysaccharides, a class of naturally occurring polymers consisting of glucose monomers, which serve as storage carbohydrates in cereals, root vegetables, rhizomes, seeds, fruits, etc.
Advanced and Modern Approaches for Drug Delivery explores novel approaches currently used for drug delivery, including the must up-to-date techniques and technology. The approaches discussed allow pharmaceutical scientists to design effective drug delivery systems or devices for the management and treatment of numerous diseases and conditions. Detailed information on a wide variety of subjects, including dendrimers, lipid nanostructures, solid lipid nanoparticles, stimuli-responsive smart systems, self-assembled protein-drug nanoparticles, nanoconjugate formulations, nanofibers, iontophoretic systems, microneedle systems, ultra-sound triggered systems, targeted carrier-based intracellular delivery systems, resealed erythrocyte-based systems, 3 D-printing tool, site-specific monoclonal antibodies, and bio-inspired systems are all comprehensively discussed. With contributions from those in academia and industry, this book is an excellent reference for all those needing to understand drug delivery systems.
Nanostructured Materials for Tissue Engineering introduces the key properties and approaches involved in using nanostructured materials in tissue engineering, including functionalization, nanotechnology-based regenerative techniques, toxicological and biocompatible aspects. A broad range of nanomaterial types are covered, from polymer scaffolds and nanocomposites to gold nanoparticles and quantum dots. This book aids the reader in materials selection, as well as matching to the best applications, including bone, skin, pulmonary or neurological tissue engineering. Users will find this book to be an up-to-date review on this fast-changing field that is ideal for materials scientists, tissue engineers, biomedical engineers, and pharmaceutical scientists.
Novel Formulations and Future Trends, Volume Three in the Recent and Future Trends in Pharmaceutics series, explores aspects of pharmaceutics with an original approach focused on technology, novelties and future trends. It discusses the most important developments in drug delivery, including important and exciting areas such as mucosal, implantable, transdermal, gastroretentive, vaccine and targeted drug delivery systems. The field of pharmaceutics is highly dynamic and rapidly expanding day-by-day so it demands a variety of amplified efforts for designing and developing pharmaceutical processes and formulation strategies. This is an essential reference for researchers in academia and industry as well as advanced graduate students. New technologies are also explored including 3D printing and computational pharmaceutics.
Ionotropic Cross-Linking of Biopolymers: Applications in Drug Delivery provides in-depth insights and presents the latest advances in ionotropic cross-linked biopolymeric systems for drug delivery and related applications. Sections introduce the fundamentals of ionotropic cross-linking of biopolymers, including mechanisms, chemistry, cross-linking methods and gelation. Additional content delves into ionotropically cross-linked biopolymers based on a range of sources, including alginate, pectinate, carboxymethyl cellulose, gellan gum, chitosan, carboxymethylated gums, plant polysaccharide blends, and synthetic polymer blends. This is followed by a section focusing on ionotropically cross-linked biopolymeric systems, such as polymeric nanoparticles, microparticles, beads, and reinforced matrices. The last part of the book explores specific advanced drug delivery applications, before considering future opportunities and challenges in the field. This is a valuable resource for researchers and advanced students across polymer science, biomaterials, biomedicine, pharmaceutics, biotechnology, and chemistry, as well as scientists and R&D personnel working in pharmacy, drug delivery, and materials for biomedicine.
In recent years, many animal-derived polymers have emerged as an attractive category of naturally derived polymers because of their advantageous physicochemical, chemical, and biological properties. The important biological properties of these natural polymers derived from animals are biocompatibility and biodegradation. These polymers are generally composed of repeated units of amino acids. Moreover, these polymers can be modified physically and/or chemically to improve their biomaterial properties. Natural Polymers for Pharmaceutical Applications, Volume 3: Animal-Derived Polymers looks at how these polymers can be exploited as pharmaceutical excipients in various pharmaceutical dosage forms, like microparticles, nanoparticles, ophthalmic preparations, gels, implants, etc. The commonly used animal-derived polymers used as pharmaceutical excipients are hyaluronic acid (hyaluronan), albumin, collagen, gelatin, chondroitin, etc.
This book provides a holistic compilation on applications of carbon nanostructures, especially in advanced healthcare applications. It comprises chapters on utility of diverse multifunctional nanocarriers in drug delivery and biomedical applications, especially emphasizing on the synthesis and characterizations of nanosystems along with surface engineering approaches used for active targeting of the drugs. Moreover, the chapters also include the recent updates on the applications of the nanocarriers to fulfill the needs of various healthcare systems.
Tailor-Made Polysaccharides in Drug Delivery provides extensive details on all the vital precepts, basics and fundamental aspects of tailored polysaccharides in the pharmaceutical and biotechnological industry for understanding and developing high quality products. The book offers a comprehensive resource to understand the potential of the materials in forming new drug delivery methods. It will be useful to pharmaceutical scientists, chemical engineers, and regulatory scientists and students actively involved in pharmaceutical product and process development of tailored-made polysaccharides in drug delivery applications. The utilization of natural polymeric excipients in numerous healthcare applications demand the replacement of the synthetic polymers with the natural ones due to their biocompatibility, biodegradability, economic extraction and readily availability. The reality behind the rise in importance of these natural materials is that these sources are renewable if grown in a sustainable means and they can tender incessant supply of raw materials. Amongst these natural polymers, polysaccharides are considered as excellent excipients because of its non-toxic, stable, biodegradable properties. Several research innovations have been made on applications of polysaccharides in drug delivery. |
You may like...
|