Completely revised and updated, this third edition of Pharmaceutical Dosage Forms and Drug Delivery elucidates the basic principles of pharmaceutics, biopharmaceutics, dosage form design, and drug delivery - including emerging new biotechnology-based treatment modalities. The authors integrate aspects of physical pharmacy, chemistry, biology, and biopharmaceutics into drug delivery. This book highlights the increased attention that the recent spectacular advances in gene therapy and nanotechnology have brought to dosage form design and drug delivery. With the expiration of older patents and generic competition, the biopharmaceutical industry is evolving faster than ever. Apart from revising and updating existing chapters on the basic principles, this edition highlights the emerging emphasis on drug discovery, antibodies and antibody-drug conjugates as therapeutic moieties, individualized medicine including patient stratification strategies, targeted drug delivery, and the increasing role of modeling and simulation. Although there are numerous books on pharmaceutics and dosage forms, most cover different areas of the discipline and do not provide an integrated approach. The integrated approach of this book not only provides a singular perspective of the overall field, but also supplies a unified source of information for students, instructors and professionals, saving their time and money.

Organ Specific Drug Delivery and Targeting to the Lungs provides up to date information on the multidisciplinary field of particle engineering and drug delivery to the lungs, including advancements of nanotechnology. The text presents a unique, pragmatic focus with case studies, that help translate scientific understanding to practical implementation. In addition to highlighting the successful case studies, it also offers practical advice on watchouts, limitations, and 'bookend' boundaries involved in the stages of testing and development. Additional Features Include: Provides an account of particle engineering, discovery, biology, development, and delivery in relation with the advancements of nanotechnology, unlike any previous book. Brings together the leading experts and researchers in the field to critically assess and discuss various topics influencing drug delivery. Highlights the interplay of different scientific disciplines and the balance of requirements that are critical to molecule and product design. With the strategic focus on what matters during new product development, this book provides a guide to understanding and navigating new drug discovery and development for lung targets.

The field of molecular medicine covers the medical interventions targeting molecular structures and mechanisms that are involved in disease progression. In cancer, several molecular mechanisms have been shown to impact its progression, aggressiveness and chemoresistance. Increasing evidence demonstrates the role of nanotechnology and outcome of molecular therapy. Several books have discussed molecular biology and mechanisms involved in cancer, but this text gives an account of molecular therapeutics in cancer relating to advancements of nanotechnology. It provides a description of the multidisciplinary field of molecular medicines and its targeted delivery to cancer using nanotechnology. Key Features: Provides current information in the multidisciplinary field of molecular medicines and its targeted delivery to cancer using nanotechnology Presents important aspects of nanotechnology in the site-specific delivery of anticancer agents Includes up to date information on oligonucleotide and gene based therapies in cancer Describes small targeted molecules, antibodies and oligonucleotides which have shown to selectively target the molecular structures thereby influencing signal transduction Facilitates discussion between researchers involved in cancer therapy and nanoscientists

Completely revised and updated, this third edition of Pharmaceutical Dosage Forms and Drug Delivery elucidates the basic principles of pharmaceutics, biopharmaceutics, dosage form design, and drug delivery - including emerging new biotechnology-based treatment modalities. The authors integrate aspects of physical pharmacy, chemistry, biology, and biopharmaceutics into drug delivery. This book highlights the increased attention that the recent spectacular advances in gene therapy and nanotechnology have brought to dosage form design and drug delivery. With the expiration of older patents and generic competition, the biopharmaceutical industry is evolving faster than ever. Apart from revising and updating existing chapters on the basic principles, this edition highlights the emerging emphasis on drug discovery, antibodies and antibody-drug conjugates as therapeutic moieties, individualized medicine including patient stratification strategies, targeted drug delivery, and the increasing role of modeling and simulation. Although there are numerous books on pharmaceutics and dosage forms, most cover different areas of the discipline and do not provide an integrated approach. The integrated approach of this book not only provides a singular perspective of the overall field, but also supplies a unified source of information for students, instructors and professionals, saving their time and money.

Site-specific drug delivery and targeting attracts much research interest from both academia and industry, but because of the many challenges faced in the development of these systems, only a handful of targeted therapies have successfully made it into clinical practice. Focusing on the delivery technologies that utilize both systemic and local routes of administration, Targeted Delivery of Small and Macromolecular Drugs brings together field experts who summarize current progress and discuss novel ideas currently being explored to overcome these challenges. The contributors discuss the most promising strategies for drug targeting and also examine targeted drug delivery platforms and technologies at various stages of clinical and preclinical development, including: Active targeting Nucleic acid delivery and targeting Intracellular/organelle-specific strategies Prodrug strategies Organ or tissue-specific drug delivery Drug-polymer conjugates and micelles Stimuli-responsive systems The book demonstrates why targeted delivery is one of the most exciting contributions pharmaceutical sciences can make to drug therapy.

Emphasizing its uses in cancer and cardiovascular and autoimmune diseases, Pharmaceutical Perspectives of Nucleic Acid-Based Therapy presents a comprehensive account of gene therapy, from development in the laboratory to clinical applications. Internationally acclaimed scientists discuss the potential use of lipids, peptides and polymers for the in vivo delivery of nucleic acids, the genesis of structure-synthesis-function interrelationships and the evolutionary approaches of these gene carriers. The book also addresses the influence of a viable gene expression system on disease by controlling gene regulation, transcription, translation and replication.

Site-specific drug delivery and targeting is attracting much research interest from both academia and industry, but because of the many challenges faced in the development of these systems, only a handful of targeted therapies have successfully made it into clinical practice. Bringing together leading field experts, Targeted Delivery of Small and Macromolecular Drugs summarizes current progress with a focus on the novel ideas being explored to overcome these challenges.

Focuses on the Targeted Drug Delivery Technologies that Utilize
both Systemic and Local Routes of Administration
Leading experts discuss some of the most promising strategies for drug targeting. They also cover targeted drug delivery platforms and technologies at various stages of clinical and preclinical development, including:

? Active targeting
? Nucleic acid delivery and targeting
? Intracellular/Organelle-Specific Strategies
? Prodrug Strategies
? Organ or Tissue-Specific drug delivery
? Drug-Polymer Conjugates and Micelles
? Stimuli-Responsive systems

Targeted Delivery of Small and Macromolecular Drugs demonstrates why targeted delivery is one of the most exciting contributions pharmaceutical sciences can make to drug therapy.

Pharmaceutical Perspectives of Nucleic Acid-Based Therapeutics presents a comprehensive account of gene therapy, from development in the laboratory, to clinical applications, with an emphasis on cardiovascular and autoimmune diseases as well as cancer. Several internationally acclaimed scientists discuss the potential use of lipids, peptides and polymers for the in vivo delivery of nucleic acids, the genesis of structure-synthesis-function interrelationships and the evolutionary approaches of these gene carriers. How the components of a viable gene expression system would influence the disease state by controlling gene regulation, transcription, translation and replication are also systematically addressed.

eBook available with sample pages: 0203300963

Examples from various organs and diseases illustrate the potential benefit obtained when both therapeutic approaches are combined with delivery strategies. Representing the combined effort of several leading international research and clinical experts, this book, Emerging Trends in Cell and Gene Therapy, provides a complete account on and brings into sharp focus current trends and state-of-the-art in important areas at the interface of cell- and gene-based therapies. This book addresses the current fragmented understanding regarding these two research areas and fills the vast unmet educational need and interest of both students and researchers in academia and industry. Main features of the book: * Biological aspects of stem cell sources, differentiation and engineering. * Application of microfluidics to study stem cell dynamics * Potential clinical application of stem cells and gene therapy to specific human disease. * Utilization of biomaterials and stem cells in regenerative medicine with particular emphasis on spinal cord repair, ligament and bone tissue engineering. * Biomimetic multiscale topography for cell alignment.

Pharmaceutical Perspectives of Cancer Therapeutics covers a wide variety of therapeutic approaches including gene therapy, immunological therapy; cancer vaccines; strategy for solid tumors as well as for hematological cancers; methods to suppress tumor angiogenesis and metastasis; development and utilization of relevant animal models; introduction of new concepts such as cancer stem cells and new technologies, such as DNA and tissue microarrays; and RNA interference. In addition, clinical application, the development of DNA diagnosis biomarkers and cancer prevention, as well as the utilization of imaging in cancer therapy are also discussed. The use of synthetic carriers, such as lipids, polymers, and peptides for delivery and targeting of small molecules, proteins, and nucleic acids to cancer cells in vivo are discussed. Pharmaceutical Perspectives of Cancer Therapeutics also includes cancer therapy modality in surgery, chemotherapy, and radiotherapy, as well as in combination or multi-modality, giving our book a more focused view of cancer therapy.

Examples from various organs and diseases illustrate the potential benefit obtained when both therapeutic approaches are combined with delivery strategies. Representing the combined effort of several leading international research and clinical experts, this book, Emerging Trends in Cell and Gene Therapy, provides a complete account on and brings into sharp focus current trends and state-of-the-art in important areas at the interface of cell- and gene-based therapies. This book addresses the current fragmented understanding regarding these two research areas and fills the vast unmet educational need and interest of both students and researchers in academia and industry. Main features of the book: * Biological aspects of stem cell sources, differentiation and engineering. * Application of microfluidics to study stem cell dynamics * Potential clinical application of stem cells and gene therapy to specific human disease. * Utilization of biomaterials and stem cells in regenerative medicine with particular emphasis on spinal cord repair, ligament and bone tissue engineering. * Biomimetic multiscale topography for cell alignment.

The field of molecular medicine covers the medical interventions targeting molecular structures and mechanisms that are involved in disease progression. In cancer, several molecular mechanisms have been shown to impact its progression, aggressiveness and chemoresistance. Increasing evidence demonstrates the role of nanotechnology and outcome of molecular therapy. Several books have discussed molecular biology and mechanisms involved in cancer, but this text gives an account of molecular therapeutics in cancer relating to advancements of nanotechnology. It provides a description of the multidisciplinary field of molecular medicines and its targeted delivery to cancer using nanotechnology. Key Features: Provides current information in the multidisciplinary field of molecular medicines and its targeted delivery to cancer using nanotechnology Presents important aspects of nanotechnology in the site-specific delivery of anticancer agents Includes up to date information on oligonucleotide and gene based therapies in cancer Describes small targeted molecules, antibodies and oligonucleotides which have shown to selectively target the molecular structures thereby influencing signal transduction Facilitates discussion between researchers involved in cancer therapy and nanoscientists

Newcomers to the field of biopharmaceuticals require an understanding of the basic principles and underlying methodology involved in developing protein- and nucleic acid-based therapies for genetic and acquired diseases. Biomaterials for Delivery and Targeting of Proteins and Nucleic Acids introduces the principles of polymer science and chemistry, as well as the basic biology required for understanding how biomaterials can be used as drug-delivery vehicles. No book to date combines a discussion of high-tech biomaterials-based delivery of protein and nucleic acid drugs with the pharmaceutical or biocompatibility aspects. Featuring contributions from leading experts from around the world, this text discusses physiochemical parameters used for design, development, and evaluation of biotechnological dosage forms for delivery of proteins, peptides, oligonucleotides, and genes. The authors also present biological barriers to extravasation and cellular uptake of proteins and nucleic acids. Combining an introduction to biomaterial delivery with the latest developments in the field, this is a valuable reference for both the novice student and the practicing scientist on delivery of biomaterials, on biomedical polymers, and on polymer therapeutics. Understanding these core fundamentals is critical to moving on to more advanced study.