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doi:10.13040/ijpsr.0975-8232.5(1).70-82

Cited by 1 publication

(1 citation statement)

References 8 publications

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“…The size of the microspheres increased with increase in polymer concentration, this may be due to increase in the viscosity of feed solution which results in the formation of larger size polymer droplets and thus results in larger size particles [13]. The mean particle size of the microspheres was found to be reduced significantly with increase in stirring rate because at high speed (i.e., greater mechanical stress) small droplets of emulsion are formed which results in breakdown of particles [18]. Floating ability (Table 3) of the microspheres was found to increase with increase in polymer concentration and at middle level of stirring speed and time the % buoyancy decreased, and further increase led to increase (Figure 8) and was demonstrated with the polynomial equation.…”

Section: Particle Sizementioning

confidence: 97%

Optimization of Parameters for The Design and Evaluation of Fenofibrate Loaded Floating Microspheres by Taguchi Method

JENITA¹,

RAMU²,

SAH³

et al. 2023

jrp

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Fenofibrate is an anti-hyperlipidemic agent with poor water solubility and poor bioavailability of 30%. The goal of this study was to develop and optimise floating microspheres of Fenofibrate utilising an emulsion solvent diffusion method in order to improve absorption and oral bioavailability of the medicine for a better approach in treating hyperlipidemic conditions using ethyl cellulose as a polymer. At the preliminary stage four formulations were prepared by changing the polymer ratio and keeping the stirring speed, stirring time and solvent composition constant. Based on the results obtained batch 2 was considered as an ideal batch. The data from this batch was used at the middle level of a Taguchi orthogonal array design to optimise the formulation, and the effect of independent variables such as A (Polymer concentration), B (Stirring speed), C (Stirring time), and D (Ethanol concentration) on dependent variables such as particle size, percentage yield, drug loading, buoyancy, and drug release was investigated. All the microspheres showed good buoyancy for 24 h in simulated gastric fluid and controlled release of drug for 12 hours. The optimized formulation was spherical in shape as confirmed by photographs from scanning electron microscopy. The in vitro release data were fitted into various kinetic models and the possible release mechanism was found to follow Korsmeyer-Peppas model. The results suggest that Fenofibrate floating microspheres provides modified drug release for treating hyperlipidemia and can be used successfully for development of sustain release formulation.

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Section: Particle Sizementioning

confidence: 97%