PLGA and PLLA nanoparticles encapsulating microparticles provide sequential release of three NSAID drugs
Drug delivery systems (DDSs) are versatile vessels, capable of carrying dyes, proteins, drugs and chemicals and delivering them at targeted sites, improving patient compliance, drug stability and potency, while reducing physiological fatigue from frequent high doses, infection, as well as the del...
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sg-ntu-dr.10356-667872023-03-04T15:41:05Z PLGA and PLLA nanoparticles encapsulating microparticles provide sequential release of three NSAID drugs Yeo, Ryan Eng Wan Loo Say Chye Joachim School of Materials Science and Engineering DRNTU::Engineering::Materials::Biomaterials Drug delivery systems (DDSs) are versatile vessels, capable of carrying dyes, proteins, drugs and chemicals and delivering them at targeted sites, improving patient compliance, drug stability and potency, while reducing physiological fatigue from frequent high doses, infection, as well as the delivery of one or more potentially incompatible drug in a single dose. Micro and nanoparticles prepared using aliphatic polyesters such as poly (L-lactide), poly (Llactide- co-glycolide), and polycaprolactone present the gift of manufacturing DDSs which are smaller, less invasive to the patient, and more target specific, while keeping intended doses at therapeutic levels. There have been limited studies with respect to the use of particulate DDSs, let alone encapsulation of nanoparticles within a microcapsule. A study was carried out to develop and fabricate a DDS comprising of dye- and drug-loaded nanoparticles in microcapsules using aliphatic polyesters. This was done using a double emulsion solvent evaporation method, before proceeding to explore the release of three model non-steroidal anti-inflammatory drugs in a controlled, sustained fashion by polymeric hydrolytic degradation, and diffusion of drugs from the DDS within a simulated in-vitro environment of phosphate buffer solution at the physiological pH of 7.4. The proposed DDS was found to successfully encapsulate nanoparticles within microcapsules through qualitative imaging methods of confocal laser scanning microscopy and scanning electron microscopy, and portrayed sequential release profiles as particulate DDSs consisting of microcapsule encapsulation. This study has unlocked a vast potential of exploring many possible formulations of drugs over 15 days in simulated in-vitro physiological conditions at pH7.4. Bachelor of Engineering (Materials Engineering) 2016-04-26T04:03:12Z 2016-04-26T04:03:12Z 2016 Final Year Project (FYP) http://hdl.handle.net/10356/66787 en Nanyang Technological University 38 p. application/pdf |
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DRNTU::Engineering::Materials::Biomaterials Yeo, Ryan Eng Wan PLGA and PLLA nanoparticles encapsulating microparticles provide sequential release of three NSAID drugs |
| description |
Drug delivery systems (DDSs) are versatile vessels, capable of carrying dyes, proteins, drugs and
chemicals and delivering them at targeted sites, improving patient compliance, drug stability and
potency, while reducing physiological fatigue from frequent high doses, infection, as well as the
delivery of one or more potentially incompatible drug in a single dose.
Micro and nanoparticles prepared using aliphatic polyesters such as poly (L-lactide), poly (Llactide-
co-glycolide), and polycaprolactone present the gift of manufacturing DDSs which are
smaller, less invasive to the patient, and more target specific, while keeping intended doses at
therapeutic levels. There have been limited studies with respect to the use of particulate DDSs, let
alone encapsulation of nanoparticles within a microcapsule.
A study was carried out to develop and fabricate a DDS comprising of dye- and drug-loaded
nanoparticles in microcapsules using aliphatic polyesters. This was done using a double emulsion
solvent evaporation method, before proceeding to explore the release of three model non-steroidal
anti-inflammatory drugs in a controlled, sustained fashion by polymeric hydrolytic degradation,
and diffusion of drugs from the DDS within a simulated in-vitro environment of phosphate buffer
solution at the physiological pH of 7.4.
The proposed DDS was found to successfully encapsulate nanoparticles within microcapsules
through qualitative imaging methods of confocal laser scanning microscopy and scanning electron
microscopy, and portrayed sequential release profiles as particulate DDSs consisting of
microcapsule encapsulation. This study has unlocked a vast potential of exploring many possible
formulations of drugs over 15 days in simulated in-vitro physiological conditions at pH7.4. |
| author2 |
Loo Say Chye Joachim |
| author_facet |
Loo Say Chye Joachim Yeo, Ryan Eng Wan |
| format |
Final Year Project |
| author |
Yeo, Ryan Eng Wan |
| author_sort |
Yeo, Ryan Eng Wan |
| title |
PLGA and PLLA nanoparticles encapsulating microparticles provide sequential release of three NSAID drugs |
| title_short |
PLGA and PLLA nanoparticles encapsulating microparticles provide sequential release of three NSAID drugs |
| title_full |
PLGA and PLLA nanoparticles encapsulating microparticles provide sequential release of three NSAID drugs |
| title_fullStr |
PLGA and PLLA nanoparticles encapsulating microparticles provide sequential release of three NSAID drugs |
| title_full_unstemmed |
PLGA and PLLA nanoparticles encapsulating microparticles provide sequential release of three NSAID drugs |
| title_sort |
plga and plla nanoparticles encapsulating microparticles provide sequential release of three nsaid drugs |
| publishDate |
2016 |
| url |
http://hdl.handle.net/10356/66787 |
| _version_ |
1759856816501555200 |