Nanopharmaceutical Advanced Delivery Systems. Группа авторов

Nanopharmaceutical Advanced Delivery Systems - Группа авторов


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liquid lipid were explored by different research groups, which were used on a variety of routes such as parenteral, oral, dermal, ocular, or rectal and were thoroughly characterized [14, 15]. Nowadays, modified SLNs were known as nanostructured lipid carriers (NLCs) and nanoparticles lipid drug conjugates (LDCs) [13, 16, 17]. These carrier systems were able to resolve the issues observed with conventional SLNs.

      A lipid nanocarrier system provides the drug with smaller droplet sizes in solubilized form offering a large surface area, which increases the activity of pancreatic lipases for the hydrolysis of triglycerides, and this will enable the faster release of the drug. Neoral® (cyclosporin A) is a commercial product that is an excellent example of the utilization of these systems [18]. This carrier system has another advantage in that it can be used for clinical purposes because organic solvents can be avoided during the preparation process. A further advantage is that it is easy and cost-effective to produce.

      1.3.1 Liposomes

Schematic illustration of types of liposomes. (a) Unilamellar vesicle, (b) multilamellar vesicle, (c) immunoliposome, and (d) stealth liposomes.

      1.3.2 Solid Lipid Nanoparticles

      By definition, SLNs are submicron size nanoparticles composed of biocompatible and biodegradable solid lipids and are dispersed in aqueous surfactant solution; these mixtures are capable of providing a stable product for both lipophilic and hydrophilic drugs. For many years, they have become a promising platform for therapeutic drug delivery [37, 38] because they are simple, flexible, and stable for long term, have high drug loading efficacy, have potential for targeted responses [30, 31], have increased bioavailability, and do not require any special solvent and application versatility [33, 34]. SLNs for various routes of administrations such as dermal, parenteral, ocular, and rectal routes have been extensively studied and developed [39].

      1.3.3 Nanostructured Lipid Carriers System

Schematic illustration of a graphical representation of solid lipid nanoparticle.
S. No. Types Description
1. Imperfect type Disordered structure.The lipid arrangement between the crystal and the liquid lipid is unordered, which enhances the drug’s capacity to penetrate.
2. Amorphous type Lack of crystalline structure, which prevents/decreases drug leakage.
3. Multiple type Provides higher levels of liquid lipid than other systems.Achieves slow drug release and high drug loading capacity, thereby avoiding decomposition of solid lipid.Similar to w/o/w microemulsion.
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