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Author: Anand Gupta
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Book Description
Polymeric micelles are nano-particulate core-shell structures that form spontaneously in aqueous solutions of block copolymers composed of hydrophilic and hydrophobic portions when their concentration surpasses the critical micelle concentration (CMC) at a given temperature. They are used as drug delivery systems for highly potent and extremely hydrophobic drugs such as anticancer or anti-inflammatory agents to enhance safety, efficacy, and solubility. Critical quality attributes of polymeric micelles, that tend to govern their destiny in the human body are their size and polydispersity. Ensuring manufacturing consistency for complex drug products such as polymeric nanoparticles is challenging. This can be attributed, in part, to the complex nature of the manufacturing processes and a lack of understanding of critical material attributes such as drug-polymer interactions and critical process parameters such as organic to aqueous phase ratios. Currently, the manufacturing of polymeric micelles in the pharmaceutical industry is via batch processing which has various disadvantages such as scalability, irreproducibility, down-time between batches and other issues leading to product waste, and increased expenses. To overcome potential batch-to-batch variation typically observed using traditional batch manufacturing processes, the current work focused on continuous processing of polymeric micelles and the establishment and assessment of key material attributes and process parameters. A modified continuous processing platform (based on the University of Connecticut prototype liposomal manufacturing platform) was successfully developed and built to produce polymeric micelles. Moreover, this study outlines the relationship between critical independent variables (such as polymer concentration, organic to aqueous flow rate ratios and temperature) and critical quality attributes (such as the size and polydispersity) of polymeric micelles produced by continuous processing. The controlled nanoprecipitation process achieved via co-axial co-flow and radial mixing of jets improved the control and reproducibility of polymeric micelle particle size and polydispersity compared to batch processing. Multiple design of experiments studies were implemented to produce polymeric micelles with controlled size in the range between 15 and 70 nm. Four different molecular weight block copolymers (i.e. PEG-PLA-4kD, and PEG-PCL 7kD, 14kD and 28kD) were investigated to produce polymeric micelles using the turbulent jet co-flow technology. Moreover, curcumin-loaded polymeric micelles, as an example of an API containing polymeric micelles, were produced to establish and validate the continuous processing system. Paclitaxel-loaded polymeric micelles were produced to demonstrate the system's capacity to produce Q1/Q2 equivalent drug product similar to the reference listed drug product: Genexol®PM.
Author: Anand Gupta
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Book Description
Polymeric micelles are nano-particulate core-shell structures that form spontaneously in aqueous solutions of block copolymers composed of hydrophilic and hydrophobic portions when their concentration surpasses the critical micelle concentration (CMC) at a given temperature. They are used as drug delivery systems for highly potent and extremely hydrophobic drugs such as anticancer or anti-inflammatory agents to enhance safety, efficacy, and solubility. Critical quality attributes of polymeric micelles, that tend to govern their destiny in the human body are their size and polydispersity. Ensuring manufacturing consistency for complex drug products such as polymeric nanoparticles is challenging. This can be attributed, in part, to the complex nature of the manufacturing processes and a lack of understanding of critical material attributes such as drug-polymer interactions and critical process parameters such as organic to aqueous phase ratios. Currently, the manufacturing of polymeric micelles in the pharmaceutical industry is via batch processing which has various disadvantages such as scalability, irreproducibility, down-time between batches and other issues leading to product waste, and increased expenses. To overcome potential batch-to-batch variation typically observed using traditional batch manufacturing processes, the current work focused on continuous processing of polymeric micelles and the establishment and assessment of key material attributes and process parameters. A modified continuous processing platform (based on the University of Connecticut prototype liposomal manufacturing platform) was successfully developed and built to produce polymeric micelles. Moreover, this study outlines the relationship between critical independent variables (such as polymer concentration, organic to aqueous flow rate ratios and temperature) and critical quality attributes (such as the size and polydispersity) of polymeric micelles produced by continuous processing. The controlled nanoprecipitation process achieved via co-axial co-flow and radial mixing of jets improved the control and reproducibility of polymeric micelle particle size and polydispersity compared to batch processing. Multiple design of experiments studies were implemented to produce polymeric micelles with controlled size in the range between 15 and 70 nm. Four different molecular weight block copolymers (i.e. PEG-PLA-4kD, and PEG-PCL 7kD, 14kD and 28kD) were investigated to produce polymeric micelles using the turbulent jet co-flow technology. Moreover, curcumin-loaded polymeric micelles, as an example of an API containing polymeric micelles, were produced to establish and validate the continuous processing system. Paclitaxel-loaded polymeric micelles were produced to demonstrate the system's capacity to produce Q1/Q2 equivalent drug product similar to the reference listed drug product: Genexol®PM.
Author: Chul Bum Park
Publisher:
ISBN:
Category :
Languages : en
Pages : 336
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Book Description
Author: Sachin Kumar Singh
Publisher: Springer Nature
ISBN: 9819903610
Category : Medical
Languages : en
Pages : 302
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Book Description
This book thoroughly reviews the advancements in design and applications of Polymeric Micelles (PMs) in drug delivery. It provides information on the synthesis of amphiphilic block copolymers and their types, functional chemistry for targeting and sensing, and biomedical applications. The book further provides the possibilities for designing PMs in a range of drug delivery approaches. The book addresses the molecular parameters of amphiphilic block copolymers that are required for functionalizing PMs for drug delivery applications. Additionally, the book presents recent advances in applications of PMs such as co-delivery, sensing, theranostics, delivery of nucleic acids, and proteins. Towards the end, it discusses different physico-chemical strategies to enhance the stability and drug retention of polymeric micelles and reviews the preclinical and clinical toxicity and immunogenicity-related aspects of polymeric micelles. This book is an invaluable source for academics, research, and industry professionals working in the field of polymeric micelles and drug delivery.
Author: N. K. Jain
Publisher: Springer Nature
ISBN: 9819980348
Category :
Languages : en
Pages : 505
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Book Description
Author: Glen S. Kwon
Publisher: CRC Press
ISBN: 9780824725327
Category : Medical
Languages : en
Pages : 680
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Book Description
Emphasizing four major classes of polymers for drug delivery-water-soluble polymers, hydrogels, biodegradable polymers, and polymer assemblies-this reference surveys efforts to adapt, modify, and tailor polymers for challenging molecules such as poorly water-soluble compounds, peptides/proteins, and plasmid DNA.
Author: Wayne F. Reed
Publisher: John Wiley & Sons
ISBN: 0470917385
Category : Technology & Engineering
Languages : en
Pages : 493
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Book Description
Offers new strategies to optimize polymer reactions With contributions from leading macromolecular scientists and engineers, this book provides a practical guide to polymerization monitoring. It enables laboratory researchers to optimize polymer reactions by providing them with a better understanding of the underlying reaction kinetics and mechanisms. Moreover, it opens the door to improved industrial-scale reactions, including enhanced product quality and reduced harmful emissions. Monitoring Polymerization Reactions begins with a review of the basic elements of polymer reactions and their kinetics, including an overview of stimuli-responsive polymers. Next, it explains why certain polymer and reaction characteristics need to be monitored. The book then explores a variety of practical topics, including: Principles and applications of important polymer characterization tools, such as light scattering, gel permeation chromatography, calorimetry, rheology, and spectroscopy Automatic continuous online monitoring of polymerization (ACOMP) reactions, a flexible platform that enables characterization tools to be employed simultaneously during reactions in order to obtain a complete record of multiple reaction features Modeling of polymerization reactions and numerical approaches Applications that optimize the manufacture of industrially important polymers Throughout the book, the authors provide step-by-step strategies for implementation. In addition, ample use of case studies helps readers understand the benefits of various monitoring strategies and approaches, enabling them to choose the best one to match their needs. As new stimuli-responsive and "intelligent" polymers continue to be developed, the ability to monitor reactions will become increasingly important. With this book as their guide, polymer scientists and engineers can take full advantage of the latest monitoring strategies to optimize reactions in both the lab and the manufacturing plant.
Author: Prashant L. Pingale
Publisher: Walter de Gruyter GmbH & Co KG
ISBN: 3111320847
Category : Science
Languages : en
Pages : 668
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Book Description
Nanotechnology can treat diseases by site-specific and target-oriented delivery of precise medicines. Nanomaterials improve the efficacy of drugs and selective diagnosis. The book covers detection and treatment. It explains the use of nanocarriers for a variety of diseases such as cardiovascular and respiratory diseases, cancer, and ulcerative colitis. It includes topical, transdermal, and ocular drug delivery and combined medication delivery.
Author: Dr. Inamuddin
Publisher: Elsevier
ISBN: 0443191948
Category : Technology & Engineering
Languages : en
Pages : 314
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Book Description
Nutraceuticals: Sources, Processing Methods, Properties, and Applications explores the impact of nutraceutical compounds on human health and their main pharmacological contributions. Organized into three parts, this book addresses nutraceutical production, applications for disease prevention and treatment, and current trends, especially the role of nutraceuticals in cosmeceutical. Nutraceuticals are a class of products that can help people improve their health, reduce the risk of disease, extend their lives, and control the structure and functioning of their bodies. However, due to multiple hurdles that prevent nutraceuticals from circulating in an active form in the body, their use is associated with diminished therapeutic efficacy. Recognizing this problem, the book explores the root of the nutraceutical delivery system and its codelivery methods with a focus on medicines. With contributions from experienced nutraceutical experts, this book serves as a valuable reference for nutrition researchers, food scientists, pharmacologists, and those who are researching and studying in related areas. Discusses nutraceutical applications and compounds and the current trends in this emerging field Explores the production of nutraceuticals Written and edited by experienced researchers in this field
Author: Kaur, Hardeep
Publisher: IGI Global
ISBN:
Category : Technology & Engineering
Languages : en
Pages : 846
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Book Description
The complexities of nanotechnology often hamper the discoveries of nanomaterials and their wide range of applications. Researchers face the challenge of keeping up with the rapid development of new materials and figuring out how they can be most efficiently and safely used. As scientists continue to explore the unique properties of nanoparticles, nanofibers, and other nanostructures, there is a growing need for a comprehensive resource to guide them through this intricate landscape. Discovery, Disruption, and Future Implications of Nanomaterials is a book that provides a curated collection of cutting-edge research and insights into the strategic importance of nanomaterials. It bridges the gap between theory and practice, covering fundamental principles to advanced applications in areas such as biomedicine, electronics, energy, and more. The book focuses on carbon-based materials for water treatment, gene/drug delivery, and nanotechnology's role in various fields, equipping readers with the knowledge to navigate the complexities of nanomaterial development and implementation.
Author: W. Hanisch
Publisher:
ISBN:
Category :
Languages : en
Pages : 13
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Book Description
