Preparation and characterization of chitosan/poly lactic acid nanofibers using electrospinning process for drug delivery applications

Nanofibers are considered as a new class of highly important materials in the biomedical field, whereas free surface wire electrospinning system is one of the most versatile technologies for the continuous and mass production of nanofibrous layers. On the other hand, chitosan is a bio-derived, biode...

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Main Author: Aljbour, Nawzat Deeb
Format: Thesis
Language:English
Published: 2019
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Online Access:http://umpir.ump.edu.my/id/eprint/31213/1/Preparation%20and%20characterization%20of%20chitosan-poly%20lactic%20acid%20nanofibers%20using%20electrospinning%20process%20for%20drug.pdf
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spelling my-ump-ir.312132021-04-16T01:52:58Z Preparation and characterization of chitosan/poly lactic acid nanofibers using electrospinning process for drug delivery applications 2019-12 Aljbour, Nawzat Deeb TP Chemical technology Nanofibers are considered as a new class of highly important materials in the biomedical field, whereas free surface wire electrospinning system is one of the most versatile technologies for the continuous and mass production of nanofibrous layers. On the other hand, chitosan is a bio-derived, biodegradable and biocompatible polymer. However, the production of chitosan nanofibers is considered difficult because the application of high electric field during electrospinning triggers the repulsive forces between the ionic groups within the polymer backbone, resulting into formation of beads instead of continuous fibers. In addition, the low solubility of chitosan is another major limitation for the production of chitosan nanofibers. In this study high molecular weight chitosan was converted to low molecular weight chitosan with subsequent deacetylation, to produce low molecular weight chitosan with different degrees of deacetylation. These were further blended with a solution of poly(lactic) acid (PLA) in dichloromethane to facilitate the spinning process. The chitosan-PLA blend was electrospun using the free surface wire electrospinning process and the produced nanofibers were characterized for their surface properties using scanning electron miscroscopy (SEM) and contact angle analysis. In addition, the structural properties were determined through fourier transforms infrared spectroscopy (FTIR) and differential scanning calorimetry (DSC). Furthermore, mechanical and physicochemical characterizations were conducted using different techniques. Fibers with the best performance were then modified for drug delivery applications by loading a model drug, Diclofenac Sodium (DNa), into the nanofibers, after which it was characterized accordingly using different elemental and physicochemical techniques. Then, the potential of the fabricated nanofibers for drug delivery applications was verified through in vitro release studies as well as drug release kinetic studies. Results showed that 25% fully deacetylated chitosan of 15 kDa and 7.5 kDa produces better quality nanofibers compared with the higher molecular weight (30 kDa) chitosan. Significantly, the produced nanofibers showed improved mechanical properties compared with the previously reported chitosan nanofibers prepared using the high molecular weight chitosan. In fact, the tensile strength (3 MPa), Young’s modulus (1.5 MPa), and %Elongation (10%) are comparable to the previously reported values of nanofibrous mats produced using different polymers and used for drug delivery applications. On the other hand, X-ray diffraction (XRD) and X-ray photoelectron spectroscopy (XPS) results reveal that the incorporated DNa is distributed within the nanofibers. Notably, release results showed that chitosan-PLA nanofibers prepared using 25% chitosan (15 kDa) could be used to deliver the model drug (DNa) in a controlled release manner for 96 h with burst release of about 25%, and release kinetics follow the Fickian Diffusion kinetics. Therefore, the nanofibers produced herein can open up a new type of nanofibers with both hydrophilic and hydrophobic properties which are highly desirable for the delivery of drugs with various degrees of polarity. 2019-12 Thesis http://umpir.ump.edu.my/id/eprint/31213/ http://umpir.ump.edu.my/id/eprint/31213/1/Preparation%20and%20characterization%20of%20chitosan-poly%20lactic%20acid%20nanofibers%20using%20electrospinning%20process%20for%20drug.pdf pdf en public phd doctoral Universiti Malaysia Pahang Faculty of Chemical and Process Engineering Technology
institution Universiti Malaysia Pahang Al-Sultan Abdullah
collection UMPSA Institutional Repository
language English
topic TP Chemical technology
spellingShingle TP Chemical technology
Aljbour, Nawzat Deeb
Preparation and characterization of chitosan/poly lactic acid nanofibers using electrospinning process for drug delivery applications
description Nanofibers are considered as a new class of highly important materials in the biomedical field, whereas free surface wire electrospinning system is one of the most versatile technologies for the continuous and mass production of nanofibrous layers. On the other hand, chitosan is a bio-derived, biodegradable and biocompatible polymer. However, the production of chitosan nanofibers is considered difficult because the application of high electric field during electrospinning triggers the repulsive forces between the ionic groups within the polymer backbone, resulting into formation of beads instead of continuous fibers. In addition, the low solubility of chitosan is another major limitation for the production of chitosan nanofibers. In this study high molecular weight chitosan was converted to low molecular weight chitosan with subsequent deacetylation, to produce low molecular weight chitosan with different degrees of deacetylation. These were further blended with a solution of poly(lactic) acid (PLA) in dichloromethane to facilitate the spinning process. The chitosan-PLA blend was electrospun using the free surface wire electrospinning process and the produced nanofibers were characterized for their surface properties using scanning electron miscroscopy (SEM) and contact angle analysis. In addition, the structural properties were determined through fourier transforms infrared spectroscopy (FTIR) and differential scanning calorimetry (DSC). Furthermore, mechanical and physicochemical characterizations were conducted using different techniques. Fibers with the best performance were then modified for drug delivery applications by loading a model drug, Diclofenac Sodium (DNa), into the nanofibers, after which it was characterized accordingly using different elemental and physicochemical techniques. Then, the potential of the fabricated nanofibers for drug delivery applications was verified through in vitro release studies as well as drug release kinetic studies. Results showed that 25% fully deacetylated chitosan of 15 kDa and 7.5 kDa produces better quality nanofibers compared with the higher molecular weight (30 kDa) chitosan. Significantly, the produced nanofibers showed improved mechanical properties compared with the previously reported chitosan nanofibers prepared using the high molecular weight chitosan. In fact, the tensile strength (3 MPa), Young’s modulus (1.5 MPa), and %Elongation (10%) are comparable to the previously reported values of nanofibrous mats produced using different polymers and used for drug delivery applications. On the other hand, X-ray diffraction (XRD) and X-ray photoelectron spectroscopy (XPS) results reveal that the incorporated DNa is distributed within the nanofibers. Notably, release results showed that chitosan-PLA nanofibers prepared using 25% chitosan (15 kDa) could be used to deliver the model drug (DNa) in a controlled release manner for 96 h with burst release of about 25%, and release kinetics follow the Fickian Diffusion kinetics. Therefore, the nanofibers produced herein can open up a new type of nanofibers with both hydrophilic and hydrophobic properties which are highly desirable for the delivery of drugs with various degrees of polarity.
format Thesis
qualification_name Doctor of Philosophy (PhD.)
qualification_level Doctorate
author Aljbour, Nawzat Deeb
author_facet Aljbour, Nawzat Deeb
author_sort Aljbour, Nawzat Deeb
title Preparation and characterization of chitosan/poly lactic acid nanofibers using electrospinning process for drug delivery applications
title_short Preparation and characterization of chitosan/poly lactic acid nanofibers using electrospinning process for drug delivery applications
title_full Preparation and characterization of chitosan/poly lactic acid nanofibers using electrospinning process for drug delivery applications
title_fullStr Preparation and characterization of chitosan/poly lactic acid nanofibers using electrospinning process for drug delivery applications
title_full_unstemmed Preparation and characterization of chitosan/poly lactic acid nanofibers using electrospinning process for drug delivery applications
title_sort preparation and characterization of chitosan/poly lactic acid nanofibers using electrospinning process for drug delivery applications
granting_institution Universiti Malaysia Pahang
granting_department Faculty of Chemical and Process Engineering Technology
publishDate 2019
url http://umpir.ump.edu.my/id/eprint/31213/1/Preparation%20and%20characterization%20of%20chitosan-poly%20lactic%20acid%20nanofibers%20using%20electrospinning%20process%20for%20drug.pdf
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