INTEGRATION OF BIOMATERIALS FOR GENE THERAPY
Brings industrial practitioners and researchers together to discuss how the deeper integration of biomaterial platforms could play a significant role in enabling breakthroughs in the application of gene editing for the treatment of human disease.
This book comprises research and review articles from leading researchers with multidisciplinary experience. It discusses many broad topics, including nanoparticle-enabled gene therapy, inorganic nanocarrier-based gene delivery, non-viral delivery of nucleic acid, biocompatible hydrogels, silk, and polysaccharides-based gene delivery. Other gene delivery topics discussed include the use of smart and engineered biomaterials, combined therapy with growth factors and cell transportation, and the prospects and challenges in the treatment of different diseases, including cancer.
This book bridges the knowledge of pharmaceutics, engineering, basic science, and clinical research fields in a way that will help the research community expedite the clinical application of these therapies for various diseases and conditions.
Audience
A broad range of researchers, scientists, and engineers in diverse fields such as materials science, biomedicine, biomedical engineering, biology, chemistry, physics, biotechnology, pharmacology, toxicology, and formulation scientists.