Physicochemical efects of lactose microcarrier on inhalation performance of rifampicin in polymeric nanoparticles / Ainne Nabila Noraizaan

This study investigated the effects of size, size distribution, specific surface area, surface roughness, crystallinity, and fine content (< 5 pim fraction) of lactose microcarrier on the pulmonary inhalation profiles of rifampicin encapsulated in polyvinylpyrrolidone nanoparticles (194.77 ± 9.52...

Full description

Bibliographic Details
Main Author: Noraizaan, Ainne Nabila
Format: Thesis
Language:English
Published: 2016
Subjects:
Online Access:http://ir.uitm.edu.my/id/eprint/27060/
http://ir.uitm.edu.my/id/eprint/27060/1/TM_AINNE%20NABILA%20NORAIZAAN%20PH%2016_5.pdf
id uitm-27060
recordtype eprints
spelling uitm-270602020-01-06T01:45:51Z http://ir.uitm.edu.my/id/eprint/27060/ Physicochemical efects of lactose microcarrier on inhalation performance of rifampicin in polymeric nanoparticles / Ainne Nabila Noraizaan Noraizaan, Ainne Nabila Materia medica This study investigated the effects of size, size distribution, specific surface area, surface roughness, crystallinity, and fine content (< 5 pim fraction) of lactose microcarrier on the pulmonary inhalation profiles of rifampicin encapsulated in polyvinylpyrrolidone nanoparticles (194.77 ± 9.52 ran). The spherical lactose was modified through solvation and reprecipitation processes using aqueous ethanolic solution with different ethanol contents. The reprecipitated lactose had smaller particle size, wider size distribution, larger specific surface area, more elongated shape, smoother surface texture and lower crystallinity than the unprocessed lactose. They contained fine particles of sizes smaller than 5 /an of which none was found in the unprocessed lactose. Cascade impactor and scanning electron microscopy analysis of lactose-nanoparticle blends indicated that unprocessed lactose carried nanoparticles through surface adsorption and pore immersion methods. The small, less crystalline and elongated processed lactose carried nanoparticles through surface adsorption and encapsulation via inter-lactose aggregation. The aggregative tendency of these lactoses increased with reduced size and crystallinity and a increased surface roughness that provided more active sites for particulate interaction. This improved the fine particle dose, fine particle fraction, percent dispersed, percent inhaled of nanoparticles due to their ability to remain attaching to lactose during aerosolization, and detach for deep lung deposition in late time domain unlike those immersed in pores of unprocessed lactose. Overall, a lactose fine content amounting to less than 9 % or more than 12 % was detrimental to aerosolization. Excessive fine reduced nanoparticle attachment. Suboptimal fine content discouraged nanoparticle detachment and deposition. 2016 Thesis NonPeerReviewed text en http://ir.uitm.edu.my/id/eprint/27060/1/TM_AINNE%20NABILA%20NORAIZAAN%20PH%2016_5.pdf Noraizaan, Ainne Nabila (2016) Physicochemical efects of lactose microcarrier on inhalation performance of rifampicin in polymeric nanoparticles / Ainne Nabila Noraizaan. Masters 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
topic Materia medica
spellingShingle Materia medica
Noraizaan, Ainne Nabila
Physicochemical efects of lactose microcarrier on inhalation performance of rifampicin in polymeric nanoparticles / Ainne Nabila Noraizaan
description This study investigated the effects of size, size distribution, specific surface area, surface roughness, crystallinity, and fine content (< 5 pim fraction) of lactose microcarrier on the pulmonary inhalation profiles of rifampicin encapsulated in polyvinylpyrrolidone nanoparticles (194.77 ± 9.52 ran). The spherical lactose was modified through solvation and reprecipitation processes using aqueous ethanolic solution with different ethanol contents. The reprecipitated lactose had smaller particle size, wider size distribution, larger specific surface area, more elongated shape, smoother surface texture and lower crystallinity than the unprocessed lactose. They contained fine particles of sizes smaller than 5 /an of which none was found in the unprocessed lactose. Cascade impactor and scanning electron microscopy analysis of lactose-nanoparticle blends indicated that unprocessed lactose carried nanoparticles through surface adsorption and pore immersion methods. The small, less crystalline and elongated processed lactose carried nanoparticles through surface adsorption and encapsulation via inter-lactose aggregation. The aggregative tendency of these lactoses increased with reduced size and crystallinity and a increased surface roughness that provided more active sites for particulate interaction. This improved the fine particle dose, fine particle fraction, percent dispersed, percent inhaled of nanoparticles due to their ability to remain attaching to lactose during aerosolization, and detach for deep lung deposition in late time domain unlike those immersed in pores of unprocessed lactose. Overall, a lactose fine content amounting to less than 9 % or more than 12 % was detrimental to aerosolization. Excessive fine reduced nanoparticle attachment. Suboptimal fine content discouraged nanoparticle detachment and deposition.
format Thesis
author Noraizaan, Ainne Nabila
author_facet Noraizaan, Ainne Nabila
author_sort Noraizaan, Ainne Nabila
title Physicochemical efects of lactose microcarrier on inhalation performance of rifampicin in polymeric nanoparticles / Ainne Nabila Noraizaan
title_short Physicochemical efects of lactose microcarrier on inhalation performance of rifampicin in polymeric nanoparticles / Ainne Nabila Noraizaan
title_full Physicochemical efects of lactose microcarrier on inhalation performance of rifampicin in polymeric nanoparticles / Ainne Nabila Noraizaan
title_fullStr Physicochemical efects of lactose microcarrier on inhalation performance of rifampicin in polymeric nanoparticles / Ainne Nabila Noraizaan
title_full_unstemmed Physicochemical efects of lactose microcarrier on inhalation performance of rifampicin in polymeric nanoparticles / Ainne Nabila Noraizaan
title_sort physicochemical efects of lactose microcarrier on inhalation performance of rifampicin in polymeric nanoparticles / ainne nabila noraizaan
publishDate 2016
url http://ir.uitm.edu.my/id/eprint/27060/
http://ir.uitm.edu.my/id/eprint/27060/1/TM_AINNE%20NABILA%20NORAIZAAN%20PH%2016_5.pdf
first_indexed 2023-09-18T23:17:41Z
last_indexed 2023-09-18T23:17:41Z
_version_ 1777419221910683648