Nanopharmaceutical Advanced Delivery Systems. Группа авторов
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Название: Nanopharmaceutical Advanced Delivery Systems

Автор: Группа авторов

Издательство: John Wiley & Sons Limited

Жанр: Программы

Серия:

isbn: 9781119711681

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СКАЧАТЬ of 10–100 nm with a droplet size. Droplets of emulsion were then spread into the gastrointestinal tract to meet the absorption point in SEDDS by emulsifying into the stomach [62]. SNEDDS is thermodynamically stable and the isotropic mixture of natural or synthetic oil, surfactant, and co-surfactant ability to form non-ionized (o/w) or (w/o) nanoemulsion dispersion under moderate agitation with particle diameter of 200 nm [66-67]. SNEDDS is important for oral absorption when formulating with medium-chain glyceride oils and non-ionic surfactants. In order to offer a large interfacial region between the oil and the aqueous phase, SNEDDs are of stable nanoemulsion. It enhances drug dissolution rate and increases drug formulation bioavailability. The formulation is usually incorporated into gelatin (soft/hard) or hydroxypropylmethyl cellulose capsules, which provides patient enforcement and is used commercially. The important factor in formulating liquid soft gelatin capsule is that the volume should be 1 g maximum [68].

      1.3.6 Crystalline Mesophases

S. No. Property SMEDDS SEDDS SNEDDS
1. Size <250 nm >300 nm <100 nm
2. Appearance Optically clear Turbid Optically clear
3. Hydrophilic–lipophilic balance (HLB) value >12 <12 >12
4. Classification of lipid-based drug delivery system Type IIIB Type II Type IIIB
5. Concentration of oil >20% 40-80% >20%
6. Concentration of surfactant 40-80% 30-40% 40-80%
7. Material Oil, surfactant, and co-solvents (both water soluble and insoluble excipients) Oil water insoluble surfactant Oils without surfactants (e.g., tri-, di-, and monoglycerides)
8. Characteristics SMEDDS create with aqueous soluble elements SEDDS create without aqueous soluble elements Nondispersing requires digestion
9. Advantages Clear dispersion, absorption of drug without digestion Improbable loss of solvent, capacity on dispersion Good solvent capacity for many drug formulations.
10. Disadvantages Less easily digested Turbid o/w dispersion Poor solvent capacity until drug is lipophilic

      Cubosomes and hexosomes have generated great attention as they are the first to have molecular, multilevel, mesophasic, and nanoparticle observed structural compounds. They can be administrated through various routes thus providing versatility in the administration of various drugs. Internal structure defined before dispersion by liquid crystal mesophases of amphiphiles offers complex topologies; they can carry a higher volume of drug with long-term release [75]. Size ranges vary in the nanometer range, which allows similar surfactant to uniformly distribute and prevent aggregation. Since it possesses the curvature in the internal structure of crystalline mesophases, large volume of the drug can be loaded, which increases the potential for drug targeting [76, 77]. Due to the amphiphilic nature of liquid crystal forming lipid (polar head and lipophilic tail), they arrange themselves into a cubic or hexagonal phase, which is thermodynamically stable. Therapeutic applications of liquid crystal nanoparticles (cubosomes and hexagonal) are associated with the drug, route of delivery, formulation, and physiochemical properties such as increased molecular weight, the different polarity of drug molecule, compatibility issue, enzymatic degradation, and reduced toxicity.