Polymers and Nanomaterials for Gene Therapy
“Polymers and Nanomaterials for Gene Therapy” by Ravin Narain, published by Elsevier S & T in 2016, offers a comprehensive overview of the advancements in gene therapy, particularly focusing on the design of carrier vectors for delivering oligonucleotides. This 302-page book delves into the significant developments in polymer science and nanotechnology, highlighting their roles in creating advanced materials for gene therapy applications.
Readers will find detailed discussions on non-viral vector systems, including cationic lipids, polymers, dendrimers, peptides, and nanoparticles, which are explored as potential methods for compacting DNA for systemic delivery. The book addresses the challenges faced by non-viral gene carriers, such as reduced transfection efficiency due to various cellular barriers. Additionally, it covers engineering techniques for polymers and nanomaterials, their interactions with DNA, and the current issues impacting non-viral gene therapy, making it a valuable resource for those interested in the intersection of genetics and medical technology.
Official synopsis Publisher
Polymers and Nanomaterials for Gene Therapy provides the latest information on gene therapy, a topic that has attracted significant attention over the past two decades for the treatment of inherited and acquired genetic diseases. Major research efforts are currently focused on designing suitable carrier vectors that compact and protect oligonucleotides for gene therapy.
The book explores the most recent developments in the field of polymer science and nanotechnology, and how these advancements have helped in the design of advanced materials. Non-viral vector systems, including cationic lipids, polymers, dendrimers, peptides and nanoparticles, are potential routes for compacting DNA for systemic delivery. However, unlike viral analogues that have no difficulty in overcoming cellular barriers and immune defense mechanisms, non-viral gene carriers consistently exhibit significant reduced transfection efficiency due to numerous extra- and intracellular obstacles. Therefore, biocompatibility and potential for large-scale production make these compounds increasingly attractive for gene therapy.
This book contains chapters on the engineering of polymers and nanomaterials for gene therapy, and how they can form complexes with DNA and avoid both in vitro and in vivo barriers. Other chapters describe in vitro, ex vivo, in vivo gene therapy studies, and the current issues affecting non-viral gene therapy.
- Explores current challenges in the research of genetic diseases
- Discusses polymers for gene therapy and their function in designing advanced materials
- Provides examples of organic and inorganic nanomaterials for gene therapy
- Includes labeling, targeting, and assays
- Looks at characterization, physico-(bio)chemical properties, and applications
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