By Vinod Labhasetwar, Diandra L. Leslie-Pelecky
An outline of nanotechnology and its potentialThe box of nanotechnology is present process swift advancements on many fronts. This reference offers a finished overview of varied nanotechnologies as a way to their biomedical functions. With chapters contributed by means of exotic scientists from varied disciplines, Biomedical purposes of Nanotechnology: reports contemporary advances within the designing of assorted nanotechnologies in response to nucleic acids, polymers, biomaterials, and metals Discusses biomedical nanotechnology in components resembling drug and gene supply Covers complex elements of imaging and diagnostics encompasses a bankruptcy at the factor of nanotoxicologyComplete with figures and tables, it is a useful, hands-on reference booklet for researchers in pharmaceutical and biotech industries, biomedical engineers, pharmaceutical scientists, pharmacologists, and fabrics scientists in addition to for the policymakers who have to comprehend the potential for nanotechnology. it's also a great source e-book for graduate-level scholars in pharmaceutical sciences, biomedical engineering, and different fields within which nanotechnology is taking part in an more and more vital function.
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Background and recent progress in targeting to the cell nucleus are discussed in more detail elsewhere . Genome Organization. No major efforts have been invested in directly mimicking viral genome organization. Nevertheless, researchers have used viral genomic elements in order to enhance the persistence of transfected gene expression. Viral promoters such as the CMV promoter are widely used to drive the expression of a transfected gene. Plasmids have been constructed that contain elements of Epstein–Barr virus in order to achieve extrachromosomal plasmid replication in eukaryotic cells (reviewed in Refs.
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J Appl Phys 2002;91:8549– 8551. 23. Chien CL, Sun L, Tanase M, Bauer LA, Hulgren A, Silevitch DM, Meyer GJ, Searson PC, Reich DH. Electrodeposited magnetic nanowires: Arrays, ﬁeld-induced assembly, and surface functionalization. J Magn Magn Mater 2002;249:146–155. 24. Reich DH, Bauer LA, Tanase M, Hultgren A, Chen CS, Meyer GJ. Biological applications of multifunctional magnetic nanowires (invited). J Appl Phys 2003;93:7275. 25. Tanase M, Felton EJ, Gray DS, Hultgren A, Chen CS, Reich DH. Assembly of multicellular constructs and microarrays of cells using magnetic nanowires.
Biomedical Applications of Nanotechnology by Vinod Labhasetwar, Diandra L. Leslie-Pelecky