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Nanotechnology in Biology and Medicine
Research Advancements & Future Perspectives
Pradipta Ranjan Rauta, Yugal Kishore Mohanta, Debasis Nayak, Pradipta Ranjan Rauta, Yugal Kishore Mohanta, Debasis Nayak
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eBook - ePub
Nanotechnology in Biology and Medicine
Research Advancements & Future Perspectives
Pradipta Ranjan Rauta, Yugal Kishore Mohanta, Debasis Nayak, Pradipta Ranjan Rauta, Yugal Kishore Mohanta, Debasis Nayak
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Información del libro
Nanotechnology in biology and medicine: Research advancements & future perspectives is focused to provide an interdisciplinary, integrative overview on the developments made in nanotechnology till date along with the ongoing trends and the future prospects. It presents the basics, fundamental results/current applications and latest achievements on nanobiotechnological researches worldwide scientific era. One of the major goals of this book is to highlight the multifaceted issues on or surrounding of nanotechnology on the basis of case studies, academic and theoretical articles, technology transfer (patents and copyrights), innovation, economics and policy management.
Moreover, a large variety of nanobio-analytical methods are presented as a core asset to the early career researchers. This book has been designed for scientists, academician, students and entrepreneurs engaged in nanotechnology research and development. Nonetheless, it should be of interest to a variety of scientific disciplines including agriculture, medicine, drug and food material sciences and consumer products.
Features
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- It provides a thoroughly comprehensive overview of all major aspects of nanobiotechnology, considering the technology, applications, and socio-economic context
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- It integrates physics, biology, and chemistry of nanosystems
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- It reflects the state-of-the-art in nanotechnological research (biomedical, food, agriculture)
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- It presents the application of nanotechnology in biomedical field including diagnostics and therapeutics (drug discovery, screening and delivery)
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- It also discusses research involving gene therapy, cancer nanotheranostics, nano sensors, lab-on-a-chip techniques, etc.
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- It provides the information about health risks of nanotechnology and potential remedies.
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- It offers a timely forum for peer-reviewed research with extensive references within each chapter
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Información
Section 1
Nanoscale Materials: Design, Manufacture, and Physicochemical Properties
1 Polymeric Nanostructures
Their Synthesis Approaches and Morphological and Physicochemical Characterizations
Debasis Nayak and Pradipta Ranjan Rauta
CONTENTS
1.1Introduction
1.2Types of Polymeric Nanoparticles
1.2.1Natural Polymeric Nanoparticles
1.2.2Synthetic Polymeric Nanoparticles
1.3Methods of Synthesis of Polymeric Nanoparticles
1.3.1Solvent Evaporation
1.3.2Nanoprecipitation
1.3.3Emulsification–Solvent Diffusion
1.3.4Salting Out
1.3.5Dialysis
1.3.6Supercritical Fluid Technology
1.4Characterization of Polymeric Nanoparticles
1.4.1Size and Morphology
1.4.2Surface Properties and Stability
1.4.2.1Zeta Potential
1.4.2.2Energy-Dispersive Spectroscopy
1.4.2.3Fourier Transform Infrared Spectroscopy
1.4.3X-Ray Diffraction
1.5Drug Loading Efficiency Studies
1.6Application of Polymeric Nanoparticles
References
1.1 Introduction
Nanobiotechnology is an amalgamation of material, chemical, and biological science with a common goal of manufacturing nanoparticles (NPs) that possess unique optical, magnetic, and biological properties. Basically, nanoparticles exhibit totally different characteristic properties from their bulk material owing to quantum confinement, which increases their surface-to-volume ratio, and their spectacular optical properties are due to the surface plasmon resonance (SPR) phenomenon (Fu & Yao, 2001). According to pharmaceutical science, nanoparticles are defined as submicronic solid therapeutics-carrying particles that are below 100 nm and/or can be biodegradable in nature; hence, in pharmaceutical terms they are referred as nanocapsules or nanospheres (Soppimath, Aminabhavi, Kulkarni, & Rudzinski, 2001). Further, based on their dimensions, nanomaterials can be categorized as follows. Zero-dimensional nanomaterials, such as nanoparticles, can be amorphous or crystalline and have applications in textiles and health care products. One-dimensional nanomaterials, such as thin film, have applications in various repository systems, biochemical sensors, laser systems, and magnetic and optical devices. Two-dimensional nanomaterials, such as carbon nanotubes (single and multi-walled), have applications in electrical and conductive devices. And three-dimensional nanomaterials, such as fullerenes, dendrimers, and quantum dots, have applications in electronics, diagnostics, and targeted drug delivery (Castagnola et al., 2017; Glezer, 2011).
Based on their composition, nanomaterials are a classified into metallic, ceramic, and polymeric nanoparticles. Metallic nanoparticles are basically composed from their metallic precursor materials, showing vibrant optical, electrical, magnetic, and biological properties owing to their large surface‐area‐to‐volume ratio, plasmon excitation, quantum confinement, and large surface energies (Buzea & Pacheco, 2017; Mody, Siwale, Singh, & Mody, 2010). Ceramic nanoparticles are mostly oxides, phosphates, nitrides, and carbides of various metallic and non-metallic elements. As ceramic nanoparticles are typically insulative to harsh chemical environments, electricity, and heat, they are mostly preferred in major orthopedic, dental, and other medical applications (Ajayan, Schadler, & Braun, 2006; Sternitzke, 1997).
Polymeric nanoparticles have the benefit of permitting the entrapment of bioactive molecules and defending them against hydrolytic and enzymatic degradation. Polymeric nanoparticles, the most versatile nanoparticles among the metallic and ceramic nanoparticles, are basically prepared from natural or synthetic polymers, which allows them to be utilized as drug carrier molecules for various drug delivery approaches (oral, parenteral, transdermal, and nasal). The polymeric nanoparticles provide a wide range of advantages such as the availability of a wide array of polymers which can be chosen according to their application, biodegradability, hemocompatibility, and targeted delivery to specified tissues (Farokhzad & Langer, 2009; Liu, Jiao, Wang, Zhou, & Zhang, 2008; Owens III & Peppas, 2006; R. Singh & Lillard Jr, 2009).
Polymers provide a complete diverse platform for drug delivery applications due to the presence of various natural polymers such as chitosan, gelatin, sodium alginate, albumin, and synthetic polymers such as polylactic acid (PLA), polyglycolic acid (PGA), poly(lactide co-glycolic acid) (PLGA), polyanhydrides, polyorthoesters, polycyanoacrylates, polycaprolactone, polyglutamic acid, poly (malic acid), poly(N-vinyl pyrrolidone), poly(methyl methacrylate), poly(vinyl alcohol) (PVA), poly(acrylic acid), polyacrylamide, poly(ethylene glycol) (PEG), and poly(methacrylic acid), which are biocompatible and biodegradable (Wang et al., 2007). Further, based on their preparatory routes, polymeric nanoparticles can be manufactured with various combinations that provide additional functional groups to the synthesized polymeric nanoparticle, which enables higher cell recognition and encapsulation efficiency for the targeted delivery of the encapsulated drug (Elsabahy & Wooley, 2012; Guterres, Alves, & Pohlmann, 2007). The modulation of polymers with nanotechnology offers multifaceted opportunities for designing polymeric nanoparticles with preferred shape, size, biocompatibility, and controlled drug release profile, which are exceptionally significant for biomedical applications. Supplementary to this, they can also be explored for their applicability in the biomedical field as nano-carriers for targeted delivery and as novel therapeutics with combinations of diverse natural and synthetic drug molecules (Shenhar, Norsten, & Rotello, 2005).
Pharmaceutically, polymeric nanoparticles are the most preferred nanoparticles owing to their considerably versatile physiochemistry, hemocompatibi...
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Estilos de citas para Nanotechnology in Biology and Medicine
APA 6 Citation
Rauta, P. R., Mohanta, Y. K., & Nayak, D. (2019). Nanotechnology in Biology and Medicine (1st ed.). CRC Press. Retrieved from https://www.perlego.com/book/1480168/nanotechnology-in-biology-and-medicine-research-advancements-future-perspectives-pdf (Original work published 2019)
Chicago Citation
Rauta, Pradipta Ranjan, Yugal Kishore Mohanta, and Debasis Nayak. (2019) 2019. Nanotechnology in Biology and Medicine. 1st ed. CRC Press. https://www.perlego.com/book/1480168/nanotechnology-in-biology-and-medicine-research-advancements-future-perspectives-pdf.
Harvard Citation
Rauta, P. R., Mohanta, Y. K. and Nayak, D. (2019) Nanotechnology in Biology and Medicine. 1st edn. CRC Press. Available at: https://www.perlego.com/book/1480168/nanotechnology-in-biology-and-medicine-research-advancements-future-perspectives-pdf (Accessed: 14 October 2022).
MLA 7 Citation
Rauta, Pradipta Ranjan, Yugal Kishore Mohanta, and Debasis Nayak. Nanotechnology in Biology and Medicine. 1st ed. CRC Press, 2019. Web. 14 Oct. 2022.