Development of Solid Lipid-polymer Hybrid Nanoparticles as Potential Oral Delivery Systems for Lipophilic Bioactive Compounds
Development of Solid Lipid-polymer Hybrid Nanoparticles as Potential Oral Delivery Systems for Lipophilic Bioactive Compounds

Author: Taoran Wang

Publisher:

Published: 2019

Total Pages:

ISBN-13:

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Solid lipid-polymer hybrid nanoparticles (SLPN) are nanocarriers made from a combination of polymers and lipids. By integrating the advantages of biocompatible lipid-based nanoparticles and gastrointestinal (GI)-stable polymeric nanoparticles, SLPN are the ideal delivery system for delivering lipophilic compounds orally. In this project, two novel preparation strategies were proposed to fabricate GI-stable SLPN: 1) Bovine serum albumin (BSA) and dextran were first conjugated through Maillard reaction and the conjugates were exploited as macromolecular emulsifier and surface coating layer to prepare SLPN by a solvent diffusion and sonication method. In this approach, the multilayer structure was formed by self-assembly of BSA-dextran micelles to envelope solid lipid via a pH- and heating-induced facile process with simultaneous surface deposition of pectin; 2) Dextran was first oxidized and functionalized with more surface aldehyde groups, and then the SLPN was fabricated through in situ conjugation between oxidized dextran and BSA-emulsified solid lipid. Both types of SLPN were applied to encapsulate lipophilic bioactive compounds, including curcumin and astaxanthin (ASTN). The major objectives of this dissertation were to 1) systematically study the fabrication parameters in two preparation strategies to prepare SLPN; 2) comprehensively characterize the structural and colloidal properties of as-prepared two types of SLPN; 3) explore and compare the encapsulation and delivery applications of SLPN for lipophilic bioactive compounds, including curcumin and ASTN. In summary, the surface-functionalized SLPN could significantly improve the physicochemical properties of lipid nanoparticles and expand their potential as oral delivery systems for lipophilic bioactive compounds.

Lipid Nanoparticles: Production, Characterization and Stability
Lipid Nanoparticles: Production, Characterization and Stability

Author: Rohan Shah

Publisher: Springer

Published: 2014-08-28

Total Pages: 105

ISBN-13: 3319107119

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​What are lipid nanoparticles? How are they structured? How are they formed? What techniques are best to characterize them? How great is their potential as drug delivery systems? These questions and more are answered in this comprehensive and highly readable work on lipid nanoparticles. This work sets out to provide the reader with a clear and understandable understanding of the current practices in formulation, characterization and drug delivery of lipid nanoparticles. A comprehensive description of the current understanding of synthesis, characterization, stability optimization and drug incorporation of solid lipid nanoparticles is provided. Nanoparticles have attracted great interest over the past few decades with almost exponential growth in their research and application. Their small particle size and subsequent high surface area make them ideal in many uses, but particularly as drug carrier systems. Nanoparticles made from lipids are especially attractive because of their enhanced biocompatibility imparted by the lipid. The work provides a detailed description of the types of lipid nanoparticles available (e.g. SLN, NLC, LDC, PLN) and how they range from imperfect crystalline to amorphous in structure. Current thoughts on where drugs are situated (e.g. in the core, or at the interface) and how this can be manipulated are discussed. The many techniques for production, including the author’s own variant of microwave heating, are fully discussed. Techniques for measuring arguably the most important characteristics of particle size and polydispersity are discussed, along with techniques to measure crystallinity, shape and drug capacity. Finally, a full chapter on techniques for measuring stability, both in the absence and presence of drugs, is discussed, along with suggestions on how to optimize that stability. This work appeals to students of colloid science, practitioners of research into drug delivery and academics alike.

Lipid Polymer Hybrid Nanoparticles
Lipid Polymer Hybrid Nanoparticles

Author: Nayab Tahir

Publisher:

Published: 2019

Total Pages: 0

ISBN-13:

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Applications of nanotechnology and material sciences emerge in the development of various novel drug delivery systems that have been proven as promising clinically. Among these, liposomes, noisome, polymeric carriers and lipid-based delivery system were extensively explored and enter into clinical trials and clinical applications. However, each system has its own pros and cons in term of different physicochemical, pharmacokinetics and therapeutics aspects. Lipid-polymer hybrid carriers merge the potential benefit of these structural components and can be prepared by different approaches to improve the therapeutic outcomes. In this chapter, we provide the useful insight about the lipid-polymer hybrid nanoparticles (LPHNPs) that can be prepared by using the different structural components including the synthetic and natural polymers and lipids. Among these, we also explain the various methods to prepare the LPHNPs with various desired characteristics. Finally, the various therapeutic and clinical applications have been presented briefly.

Bioactive Delivery Systems for Lipophilic Nutraceuticals
Bioactive Delivery Systems for Lipophilic Nutraceuticals

Author: Ming Miao

Publisher: Royal Society of Chemistry

Published: 2023-06-26

Total Pages: 464

ISBN-13: 183916557X

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There is growing interest in the food, supplements, cosmetics, and pharmaceutical industries in improving the healthiness of their products by incorporating lipophilic bioactive substances like oil-soluble vitamins (A, D and E), omega-3 fatty acids, and nutraceuticals (carotenoids, curcuminoids and flavonoids). However, there are many challenges that need to be overcome due to their poor water-solubility, chemical stability, and bioavailability. For this reason, there is interest in the development of effective encapsulation technologies to increase the efficacy of lipophilic bioactives. This book reviews the encapsulation systems currently available for delivering lipophilic bioactives, including their preparation, functionality, and application range, including nanoemulsions, emulsions, Pickering emulsions, HIPEs, microgels, organogels and liposomes. Chapters 1-2 review the biological activity of delivery systems and lipophilic bioactives. Chapters 3-5 describe the materials and preparation methods used to assemble delivery systems. Chapters 6-17 focus on the formation and application of different kinds of delivery systems. Chapter 18 discusses future trends in the development of bioactive delivery systems. Edited and authored by world renowned scholars, the book provides a state-of-the-art overview of the design, fabrication, and utilization of delivery systems for bioactives that will be useful for academic, government, and industrial scientists in fields such as pharmaceuticals, cosmetics, agriculture, chemical engineering, nutrition, and foods.

Lipid Nanoparticulate Drug Delivery Systems
Lipid Nanoparticulate Drug Delivery Systems

Author: Sudarshan Kumar Singh

Publisher:

Published: 2019

Total Pages: 0

ISBN-13:

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Hybrid lipid polymers significantly changed the postulation of low or less bioavailability of conventional drug delivery systems. Several drug delivery systems already exist for the encapsulation and subsequent release of lipophilic drugs with enhanced therapeutic efficacy and are well described in the scientific literature. Among these, lipid polymer-based nanoparticles have specifically come up for dermal, transdermal, mucosal, intramuscular, and ocular drug administration routes in the last 20 years. Moreover, lipid nanoparticles showed potential for active targeting of anticancer therapy, delivery of DNA or RNA materials, and use as a diagnostic imaging agent. Therefore, the multifarious nanostructured lipid carriers can reduce the undesired effects with maximum utilization of active moiety. In this, chapter a brief discussion is presented on the source of synthetic and natural lipid polymers with the use of surfactants. Moreover, a summary on formulation and pharmaceutical characterization of nanostructured lipid carriers considering solid lipid nanoparticles and vesicular drug delivery systems has been taken into consideration. In addition, a light on bioactive fortified with lipid nanoparticles was reviewed for maximizing its therapeutic efficacy. Furthermore, this chapter,Äôs focus to bring out the latest applications via recent scientific publications from the Scopus database on nanostructure carriers that showed promising application for the treatments of potentially life-threatening diseases has been summarized.

Hybrid Nanomaterials for Drug Delivery
Hybrid Nanomaterials for Drug Delivery

Author: Prashant Kesharwani

Publisher: Woodhead Publishing

Published: 2022-02-02

Total Pages: 408

ISBN-13: 0323903568

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Hybrid Nanomaterials for Drug Delivery covers a broad range of hybrid nanomaterials and nanocomposites used in drug delivery systems. The book reviews a variety of hybrid nanomaterials and structures, including polymer-lipid, chitosan-based, protein-inorganic, quantum dot hybrids, and more. The strengths, limitations and regulatory aspects of hybrid drug delivery systems are also discussed, allowing readers to make informed decisions when choosing to utilize hybrid nanomaterials. Users will find this to be an exciting and comprehensive look into this emerging area. It will be of particular interest to academics and researchers working in materials science, engineering, biomedical engineering, nanotechnology and pharmaceutical science. Multi nanocarrier-based hybrid systems are an emerging concept in the field of drug delivery that allow researchers to avoid some of the challenges faced when administering drugs, such as low bioavailability, development of drug resistance, toxicities, premature drug release, and therapeutic efficacy. Describes the properties, synthesis and application of hybrid nanomaterials for use in drug delivery systems Reviews a variety of hybrid nanomaterials and structures, including dendrimer, silica-based, polymer-metal, nanogel systems, and more Discusses the strengths, limitations and regulatory aspects of hybrid drug delivery systems

Lipid-Based Drug Delivery Systems
Lipid-Based Drug Delivery Systems

Author: Bhupendra Prajapati

Publisher: CRC Press

Published: 2023-12-01

Total Pages: 837

ISBN-13: 1000995739

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This book appraises the role of lipid-based drug delivery systems (LBDDSs) with respect to the bioavailability and controlled delivery of complex drug molecules for improving their clinical viability. It covers the latest developments and advancements in the field of drug delivery, and explores and compiles information on the current situation of lipid-based formulations used as versatile excipients and all their possible routes to improve therapeutic benefits. The book discusses novel formulations such as depot formulations, micro- and nanoemulsions, solid lipid nanoparticles (SLNs), nanostructured lipid carriers (NLCs), liposomes, nanoliposomes, micelles, nanosuspensions, lipid implants and inserts, and lipid nanotubes. It presents preparation methods of LBDDSs and their physicochemical properties, and portrays their various application angles and their impacts on drug-conveyance frameworks when employed in vitro and in vivo. The book is beneficial for researchers working on lipid-based drug formulations as well as biological and translational drug delivery. It is also a useful resource for course work of students of various academic degree programs such as pharmacy, health sciences, biotechnology, and microbiology; postgraduate and PhD students; and postdoctoral fellows researching on nanomedicine-based drug delivery systems.

Development, Characterization and Evaluation of Solid Lipid Nanoparticles as a Potential Anticancer Drug Delivery System
Development, Characterization and Evaluation of Solid Lipid Nanoparticles as a Potential Anticancer Drug Delivery System

Author: Meghavi Patel

Publisher:

Published: 2012

Total Pages: 83

ISBN-13:

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Solid lipid nanoparticles (SLNs) consist of spherical solid lipid particles in the nanometer size range, which are dispersed in water or in an aqueous surfactant solution. SLN technology represents a promising new approach to deliver hydrophilic as well as lipophilic drugs. The commercialization of SLN technology remains limited despite numerous efforts from researchers. The purpose of this research was to advance SLN preparation methodology by investigating the feasibility of preparing glyceryl monostearate (GMS) nanoparticles by using three preparation methods namely microemulsion technique, magnetic stirring technique and temperature modulated solidification technique of which the latter two were developed in our laboratory. An anticancer drug 5-fluorouracil was incorporated in the SLNs prepared via the temperature modulated solidification process. Optimization of the magnetic stirring process was performed to evaluate how the physicochemical properties of the SLN was influenced by systematically varying process parameters including concentration of the lipid, concentration of the surfactant, type of surfactant, time of stirring and temperature of storage. The results demonstrated 1:2 GMS to tween 80 ratio, 150 ml dispersion medium and 45 min stirring at 4000 RPM speed provided an optimum formulation via the temperature modulated solidification process. SLN dispersions were lyophilized to stabilize the solid lipid nanoparticles and the lyophilizates exhibited good redispersibility. The SLNs were characterized by particle size analysis via dynamic light scattering (DLS), zeta potential, transmission electron microscopy (TEM), differential scanning calorimetry (DSC), drug encapsulation efficiency and in vitro drug release studies. Particle size of SLN dispersion prepared via the three preparation techniques was approximately 66 nm and that of redispersed lyophilizates was below 500 nm. TEM images showed spherical to oval particles that were less dense in the core with a well-defined shell and the particle size was in agreement with the particle size analysis data obtained by DLS. DSC thermograms of the lyophilized SLNs indicate a reduction in the crystallinity order of GMS particles. The drug encapsulation efficiency was found to be approximately 30%. In vitro drug release studies from redispersed lyophilized SLNs showed that 17 % of the encapsulated drug was released within 2 h. The SLNs prepared in our lab demonstrated characteristics that can potentially be utilized in an anticancer drug delivery system. Future in vitro cell culture and in vivo animal model studies will delineate compatibility and utility of these formulations in biological systems.