Pectinate micro- and nano- matrices as small molecule and protein drug carrier / Nurjaya Sumiran

Pectin has received a widespread application in oral drug delivery system design due to its biodegradability, biocompatibility and non-toxicity. This study aims to formulate sustained-release pectinate beads with diclofenac sodium as small molecule drug model by means of microwave technology and pec...

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Main Author: Sumiran, Nurjaya
Format: Thesis
Language:English
Published: 2014
Online Access:http://ir.uitm.edu.my/id/eprint/16477/
http://ir.uitm.edu.my/id/eprint/16477/2/ABS_NURJAYA%20SUMIRAN%20TDRA%20VOL%206%20IGS_14.pdf
id uitm-16477
recordtype eprints
spelling uitm-164772018-10-02T07:36:55Z http://ir.uitm.edu.my/id/eprint/16477/ Pectinate micro- and nano- matrices as small molecule and protein drug carrier / Nurjaya Sumiran Sumiran, Nurjaya Pectin has received a widespread application in oral drug delivery system design due to its biodegradability, biocompatibility and non-toxicity. This study aims to formulate sustained-release pectinate beads with diclofenac sodium as small molecule drug model by means of microwave technology and pectinate nanoparticles with insulin as macromolecular drug. The pectinate beads were prepared by an extrusion method with chitosan loading internally in the pectinate beads or externally via coacervation. These beads were treated by microwave at 80 W for 5, 10, 21 and 40 min, and had their drug release examined against physicochemical changes of matrices. Treatment of pectinate beads by microwave did not lead to a decrease, but an increase in the extent of drug released at 4 h of dissolution. The drug release of pectinate beads was reduced only upon core loading of chitosan on treating the externally coacervated pectinate-chitosonium beads with microwave. The treatment of chitosan-pectinate matrix by microwave brought about an increase in the extent of drug released unlike those of pectinatechitosonium beads. Apparently, the loading of chitosan into the interior of pectinate matrix could effectively retard the drug release without subjecting the beads to the treatment of microwave. The microwave was merely essential to reduce the release of drug from pectinate beads when the chitosan was introduced to the pectinate matrix by means of coacervation. The calcium pectinate-insulin nanoparticles were prepared by ionotropic gelation method, with alginate, sodium chloride or Tween 80 as additive. Their in vitro physicochemical, drug release and in vivo blood glucose lowering characteristics were evaluated. Spherical calcium pectinate-insulin nanoparticles were characterized by size, zeta potential, insulin content and insulin association efficiency of 348.4 ± 12.9 nm, -17.9 ± 0.8 mV, 8.4 ± 1.0% and 63.8 ± 7.4%, respectively. They released less than 25% insulin following 24 h in simulated intestinal medium and exhibited delayed blood glucose lowering effect in rats. Incorporation of solubilizer sodium chloride or Tween 80 into nanoparticles did not enhance blood glucose lowering capacity owing to sodium chloride reduced matrix insulin content and Tween 80 interacted with water and had its blood glucose dilution effect negated. Combination of nanoparticles with alginate gel to allow prolonged intestinal residence and more insulin release did not enhance their blood glucose lowering capacity because of calcium alginate-cross-linked gel formation that could retard insulin release and migration into systemic circulation. Physicochemical responses of additives in vivo affected blood glucose regulation property of pectin-insulin nanoparticles. 2014 Thesis NonPeerReviewed text en http://ir.uitm.edu.my/id/eprint/16477/2/ABS_NURJAYA%20SUMIRAN%20TDRA%20VOL%206%20IGS_14.pdf Sumiran, Nurjaya (2014) Pectinate micro- and nano- matrices as small molecule and protein drug carrier / Nurjaya Sumiran. PhD thesis, Universiti Teknologi MARA.
repository_type Digital Repository
institution_category Local University
institution Universiti Teknologi MARA
building UiTM Institutional Repository
collection Online Access
language English
description Pectin has received a widespread application in oral drug delivery system design due to its biodegradability, biocompatibility and non-toxicity. This study aims to formulate sustained-release pectinate beads with diclofenac sodium as small molecule drug model by means of microwave technology and pectinate nanoparticles with insulin as macromolecular drug. The pectinate beads were prepared by an extrusion method with chitosan loading internally in the pectinate beads or externally via coacervation. These beads were treated by microwave at 80 W for 5, 10, 21 and 40 min, and had their drug release examined against physicochemical changes of matrices. Treatment of pectinate beads by microwave did not lead to a decrease, but an increase in the extent of drug released at 4 h of dissolution. The drug release of pectinate beads was reduced only upon core loading of chitosan on treating the externally coacervated pectinate-chitosonium beads with microwave. The treatment of chitosan-pectinate matrix by microwave brought about an increase in the extent of drug released unlike those of pectinatechitosonium beads. Apparently, the loading of chitosan into the interior of pectinate matrix could effectively retard the drug release without subjecting the beads to the treatment of microwave. The microwave was merely essential to reduce the release of drug from pectinate beads when the chitosan was introduced to the pectinate matrix by means of coacervation. The calcium pectinate-insulin nanoparticles were prepared by ionotropic gelation method, with alginate, sodium chloride or Tween 80 as additive. Their in vitro physicochemical, drug release and in vivo blood glucose lowering characteristics were evaluated. Spherical calcium pectinate-insulin nanoparticles were characterized by size, zeta potential, insulin content and insulin association efficiency of 348.4 ± 12.9 nm, -17.9 ± 0.8 mV, 8.4 ± 1.0% and 63.8 ± 7.4%, respectively. They released less than 25% insulin following 24 h in simulated intestinal medium and exhibited delayed blood glucose lowering effect in rats. Incorporation of solubilizer sodium chloride or Tween 80 into nanoparticles did not enhance blood glucose lowering capacity owing to sodium chloride reduced matrix insulin content and Tween 80 interacted with water and had its blood glucose dilution effect negated. Combination of nanoparticles with alginate gel to allow prolonged intestinal residence and more insulin release did not enhance their blood glucose lowering capacity because of calcium alginate-cross-linked gel formation that could retard insulin release and migration into systemic circulation. Physicochemical responses of additives in vivo affected blood glucose regulation property of pectin-insulin nanoparticles.
format Thesis
author Sumiran, Nurjaya
spellingShingle Sumiran, Nurjaya
Pectinate micro- and nano- matrices as small molecule and protein drug carrier / Nurjaya Sumiran
author_facet Sumiran, Nurjaya
author_sort Sumiran, Nurjaya
title Pectinate micro- and nano- matrices as small molecule and protein drug carrier / Nurjaya Sumiran
title_short Pectinate micro- and nano- matrices as small molecule and protein drug carrier / Nurjaya Sumiran
title_full Pectinate micro- and nano- matrices as small molecule and protein drug carrier / Nurjaya Sumiran
title_fullStr Pectinate micro- and nano- matrices as small molecule and protein drug carrier / Nurjaya Sumiran
title_full_unstemmed Pectinate micro- and nano- matrices as small molecule and protein drug carrier / Nurjaya Sumiran
title_sort pectinate micro- and nano- matrices as small molecule and protein drug carrier / nurjaya sumiran
publishDate 2014
url http://ir.uitm.edu.my/id/eprint/16477/
http://ir.uitm.edu.my/id/eprint/16477/2/ABS_NURJAYA%20SUMIRAN%20TDRA%20VOL%206%20IGS_14.pdf
first_indexed 2023-09-18T22:56:10Z
last_indexed 2023-09-18T22:56:10Z
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