A Mucoadhesive Electrospun Nanofibrous Matrix for Rapid Oramucosal Drug Delivery. (29th October 2013)
- Record Type:
- Journal Article
- Title:
- A Mucoadhesive Electrospun Nanofibrous Matrix for Rapid Oramucosal Drug Delivery. (29th October 2013)
- Main Title:
- A Mucoadhesive Electrospun Nanofibrous Matrix for Rapid Oramucosal Drug Delivery
- Authors:
- Dott, Clare
Tyagi, Charu
Tomar, Lomas K.
Choonara, Yahya E.
Kumar, Pradeep
du Toit, Lisa C.
Pillay, Viness - Other Names:
- Lin Tong Academic Editor.
- Abstract:
- Abstract : A nanofibrous matrix system (NFMS), consisting of a drug-loaded nanofiber layer, was electrospun directly onto a polymeric backing film, the latter of which was formulated and optimized according to a 3-level, 3-factor Box-Behnken experimental design. The dependent variables, fill volume, hydroxypropylmethylcellulose (HPMC) concentration, and glycerol concentration, were assessed for their effects on measured responses, disintegration time, work of adhesion, force of adhesion, dissolution area under curve (AUC) at 1 minute, and permeation AUC at 3 minutes. Physicochemical and physicomechanical properties of the developed system were studied by rheology, FTIR, toughness determination, mucoadhesion, and nanotensile testing. Data obtained from the physicomechanical characterization confirmed the suitability of NFMS for application in oramucosal drug delivery. The optimized NFMS showed the drug entrapment of 2.3 mg/1.5 cm 2 with disintegration time of 12.8 seconds. Electrospinning of drug-loaded polyvinylalcohol (PVA) fibers resulted in a matrix with an exceedingly high surface-area-to-volume ratio, which enhanced the rate of dissolution for rapid oramucosal drug delivery. To corroborate with the experimental studies, the incorporation of glycerol with HPMC and PVA blend was mechanistically elucidated using computer-assisted modeling of the 3D polymeric architecture of the respective molecular complexes to envisage the likely alignment of the polymer morphologiesAbstract : A nanofibrous matrix system (NFMS), consisting of a drug-loaded nanofiber layer, was electrospun directly onto a polymeric backing film, the latter of which was formulated and optimized according to a 3-level, 3-factor Box-Behnken experimental design. The dependent variables, fill volume, hydroxypropylmethylcellulose (HPMC) concentration, and glycerol concentration, were assessed for their effects on measured responses, disintegration time, work of adhesion, force of adhesion, dissolution area under curve (AUC) at 1 minute, and permeation AUC at 3 minutes. Physicochemical and physicomechanical properties of the developed system were studied by rheology, FTIR, toughness determination, mucoadhesion, and nanotensile testing. Data obtained from the physicomechanical characterization confirmed the suitability of NFMS for application in oramucosal drug delivery. The optimized NFMS showed the drug entrapment of 2.3 mg/1.5 cm 2 with disintegration time of 12.8 seconds. Electrospinning of drug-loaded polyvinylalcohol (PVA) fibers resulted in a matrix with an exceedingly high surface-area-to-volume ratio, which enhanced the rate of dissolution for rapid oramucosal drug delivery. To corroborate with the experimental studies, the incorporation of glycerol with HPMC and PVA blend was mechanistically elucidated using computer-assisted modeling of the 3D polymeric architecture of the respective molecular complexes to envisage the likely alignment of the polymer morphologies affecting the performance of the nanofibrous device. … (more)
- Is Part Of:
- Journal of nanomaterials. Volume 2013(2013)
- Journal:
- Journal of nanomaterials
- Issue:
- Volume 2013(2013)
- Issue Display:
- Volume 2013, Issue 2013 (2013)
- Year:
- 2013
- Volume:
- 2013
- Issue:
- 2013
- Issue Sort Value:
- 2013-2013-2013-0000
- Page Start:
- Page End:
- Publication Date:
- 2013-10-29
- Subjects:
- Nanostructured materials -- Periodicals
Nanotechnology -- Periodicals
Nanomatériaux
Nanostructured materials
Nanotechnology
Nanostructures
Nanotechnology
Periodicals
Fulltext
Internet Resources
Periodicals
620.115 - Journal URLs:
- https://www.hindawi.com/journals/jnm/ ↗
http://www.hindawi.com/GetJournal.aspx?journal=JNM ↗ - DOI:
- 10.1155/2013/924947 ↗
- Languages:
- English
- ISSNs:
- 1687-4110
- Deposit Type:
- Legaldeposit
- View Content:
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- Physical Locations:
- British Library HMNTS - ELD Digital store
- Ingest File:
- 17019.xml