Research Journal of Pharmacy and Technology

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Current Approaches in Lipidic-nanoparticle Systems for Buccal Drug Delivery


Affiliations
1 Department of Pharmaceutics, School of Pharmacy, Anurag University, Ghatkesar, Telangana– 500088., India
2 Department of Pharmaceutics, Gitam Institute of Pharmacy, Gitam University, Visakhapatnam, Andhra Pradesh– 530045., India
     

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The sublingual and buccal routes of administration have significant advantages for both local and systemic drug delivery. They have shown to be an effective alternative to the traditional oral route, especially when fast onset of action is required. Drugs can be rapidly and directly absorbed into the systemic circulation via venous drainage to the superior vena cava The buccal route is considered patient friendly due to its non-invasive nature and ease of administration. Such delivery route has been used as an alternative for the delivery of drugs that undergo first-pass metabolism or are susceptible to pH and enzymatic degradation, such as occurs in the gastrointestinal tract. However, the drug concentration absorbed in the buccal mucosa is often low to obtain an acceptable therapeutic effect, mainly due to the saliva turnover, tongue and masticatory movements, phonation, enzymatic degradation and lack of epithelium permeation. Therefore, the encapsulation of drugs into nanoparticles is an important strategy to avoid such problems and improve their buccal delivery. Different materials from lipids to natural or synthetic polymers and others have been used to protect and deliver drugs in a sustained, controlled or targeted manner, and enhance their uptake through the buccal mucosa improving their bioavailability and therapeutic outcome. Overall, the main aim of this review is to perform an overview about the nanotechnological approaches developed so far to improve the buccal delivery of drugs. Herein, several types of nanoparticles and delivery strategies are addressed, and a special focus on pipeline products is also given.

Keywords

Buccal cavity, Solid Lipid Nanoparticle, Nano Lipidic Carrier, Transcellular Permeation.
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  • Current Approaches in Lipidic-nanoparticle Systems for Buccal Drug Delivery

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Authors

Himabindu Peddapalli
Department of Pharmaceutics, School of Pharmacy, Anurag University, Ghatkesar, Telangana– 500088., India
G. V Radha
Department of Pharmaceutics, Gitam Institute of Pharmacy, Gitam University, Visakhapatnam, Andhra Pradesh– 530045., India

Abstract


The sublingual and buccal routes of administration have significant advantages for both local and systemic drug delivery. They have shown to be an effective alternative to the traditional oral route, especially when fast onset of action is required. Drugs can be rapidly and directly absorbed into the systemic circulation via venous drainage to the superior vena cava The buccal route is considered patient friendly due to its non-invasive nature and ease of administration. Such delivery route has been used as an alternative for the delivery of drugs that undergo first-pass metabolism or are susceptible to pH and enzymatic degradation, such as occurs in the gastrointestinal tract. However, the drug concentration absorbed in the buccal mucosa is often low to obtain an acceptable therapeutic effect, mainly due to the saliva turnover, tongue and masticatory movements, phonation, enzymatic degradation and lack of epithelium permeation. Therefore, the encapsulation of drugs into nanoparticles is an important strategy to avoid such problems and improve their buccal delivery. Different materials from lipids to natural or synthetic polymers and others have been used to protect and deliver drugs in a sustained, controlled or targeted manner, and enhance their uptake through the buccal mucosa improving their bioavailability and therapeutic outcome. Overall, the main aim of this review is to perform an overview about the nanotechnological approaches developed so far to improve the buccal delivery of drugs. Herein, several types of nanoparticles and delivery strategies are addressed, and a special focus on pipeline products is also given.

Keywords


Buccal cavity, Solid Lipid Nanoparticle, Nano Lipidic Carrier, Transcellular Permeation.

References