the biological membrane (Qian et al. 2012a; Yang and McClements 2013). Such
micelles with comparatively large dimension of nonpolar chains also facilitate
loading of large hydrophobic bioactives and capable to transport these large
hydrphobic molecules across the biological membrane. Some of the oils like
tocopherols have antioxidant property which can be utilized for imparting the
stability to bioactives which are sensitive to oxidation such as carotenoids.
Ethylenediaminetetraacetic acid and ascorbic acid are some other water-soluble
examples of antioxidants which are commonly utilized in nanoemulsions for
providing chemical stability to sensitive bioactives (Qian et al. 2012b). Herbal
bioactives like resveratrol with short half-life in water and susceptible to aqueous
degradation can be formulated as nanoemulsion (Francioso et al. 2014).
Nanoemulsions by encapsulating the bioactive in oil phase not only increase the
shelf life but also slow down the degradation kinetics of resveratrol when
administered orally and hence improve the bioavailability (Davidov-Pardo and
McClements 2015). In conclusion, nanoemulsions as a drug delivery system for
herbal bioactives are the ideal approach for hydrophobic herbal bioactives as it
addresses major challenges of poor water solubility, low permeability, chemical
degradation, and reduced bioaccessibility. Moreover, nanoemulsions are suitable for
oral, topical, and pulmonary route of administration and hence prove its wide
acceptance. Oil solubility, water solubility, miscibility of oil and surfactants, polar-
ity, viscosity, optical clarity, stability, crystal form of bioactive, and partition
coefficient are some of the important formulation considerations that should be
taken into account while formulating nanoemulsions for bioactives.
19.7
Future Prospects
The amalgamation of nanotechnology with herbal bioactives is quintessential in the
current scenario. Nanoemulsions, among all the nanocarrier systems, use industrially
viable and comparatively low-end mechanical instruments for its fabrication; hence,
it is widely accepted and used. The benefits of herbal bioactives are effectively
delivered with the help of nanoemulsions, especially dealing with low-solubility
criteria which most of the natural products have. Nanoemulsions offer great
advantages as they can formulate herbal bioactives and the route of administration
can vary from oral, topical, as well as parenteral. Improved targeting, reduced size,
increased solubility, as well as better bioavailability are some of the major criteria for
a formulation to be efficient. Nanoemulsions inculcate all these features and effec-
tively deliver herbal bioactives without altering their health benefits. With the
upcoming renewal of the use of herbal moieties, it becomes the need of the situation
to effectively deliver the bioactives. This is thus possible with the exploration of the
systematic and effective approach for the formulation of such bioactives.
Nanoemulsions have been widely used in many such cases and have shown tremen-
dous results in nanoresearch. Thus, this collaboration of nanoemulsions with herbal
bioactives holds immense potential for future, providing formulation experts a
pathway to enhance in the field of nanoresearch.
19
Nanoemulsions: A Potential Advanced Nanocarrier Platform for Herbal Drug. . .
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