Development and In Vitro/In Vivo Evaluation of Floating In Situ Gelling Oral Liquid Extended Release Formulation of Furosemide

Alhamdany, Anas Tarik; Maraie, Nidhal K.; Msheimsh, Bahir Abdul Razzaq

doi:10.20510/ukjpb/2/i5/91114

Cited by 6 publications

(4 citation statements)

References 16 publications

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“…This was due to the immediate crosslinking of microspheres matrix as an outcome of strongly acidic sulfate groups in iota carrageenan molecule that allows a certain degree of polymer ionization in (0.1 N HCl, pH 1.2) leading to the formation of insoluble gel-like layer of aggregated double-helical segments that form a three-dimensional network by complexation, and consequently slower solvent penetration into the matrices and more controlled CO2 diffusion was achieved and thus inducing the microspheres to float rapidly. 55 While a further increment of iota carrageenan concentration as shown in F5 will lead to a decrease of buoyancy effect. This was related to the increment of iota-carrageenan viscosity as the concentration raised.…”

Section: In-vitro Buoyancymentioning

confidence: 97%

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Floating Microspheres of Enalapril Maleate as a Developed Controlled Release Dosage Form: Investigation the Effect of Ionotropic Gelation Technique

Abbas¹,

Alhamdany²

2018

tjps

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The purpose of this study is to provide a control drug delivery system through a newly approved work to enhance absorption and bioavailability of enalapril maleate loaded floating microspheres by ionotropic gelation technique using a hydrophilic carrier. Methods: Over this study, eleven developed formulations of floating microspheres were prepared by ionotropic gelation method using different concentrations of sodium alginate, iota carrageenan, sodium bicarbonate, calcium chloride, and the drug. Characterization of these microspheres was done using a diversity of parameters like micrometric properties, percentage yield, entrapment efficiency, In-Vitro buoyancy, In-Vitro drug release, and kinetics of drug release. The optimum formula was evaluated and identified for drugexcipients compatibility using Fourier transform infrared spectroscopy (FT-IR), surface morphology, powder X-ray diffraction (PXRD), and differential scanning calorimetry (DSC). Results: From the results; F4 was selected as an optimum formula since it provides a faster and premium release of drug from the matrix (91.4%). Kinetics of drug release was founded to depend on both diffusion and erosion mechanisms, as the correlation coefficient (R 2) was best fitted with Korsemeyer model and release exponent (n) shown to be between 0.43-0.84. SEM images demonstrate spherical, discrete and freely flowing microspheres with a particle size of 199.4 ± 0.04. Optimum buoyancy properties, percentage yield, and drug entrapment efficiency were achieved. FTIR decided no interaction between enalapril and the polymers. DSC and XRD ascribed the miscibility of the drug with the polymers while maintaining stable crystalline properties of enalapril loaded in the prepared microspheres. Conclusion: It can be concluded that the developed floating microspheres of enalapril maleate can be considered as a promising controlled drug delivery system; thereby improve patient compliance.

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Section: In-vitro Buoyancymentioning

confidence: 97%

“…The gel matrix will swell and withstand erosion under acidic conditions to maintain a constant diffusion path length; forming a highly crosslinked matrix with minimum porosity. 55…”

Section: In-vitro Drug Releasementioning

confidence: 99%

Floating Microspheres of Enalapril Maleate as a Developed Controlled Release Dosage Form: Investigation the Effect of Ionotropic Gelation Technique

Abbas¹,

Alhamdany²

2018

tjps

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“…The naked eye was used to check the clarity of all the prepared in situ gel using the black and white background. 30,31…”

Section: Physical Appearancementioning

confidence: 99%

Preparation, in vitro and in vivo Characteristics of Floating in situ Gel of Carvedilol Using Semi Synthetic and Natural Polymers to Enhance the Oral Bioavailability

Ramalingam,

Sukumaran,

Krishnan

2024

Ind. J. Pharm. Edu. Res

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Background/Aim: The purpose of this study was to design and prepare floating in situ gel to sustain Carvedilol (CVD) release and enhance oral bioavailability. Various floating in situ gel formulations of the CVD were prepared by ionic gelation method. Materials and Methods: A systematic approach in the design of the formulations was adopted, were using Hydroxypropyl Methyl Cellulose (HPMC K4M), Hydroxypropyl Methyl Cellulose (HPMC 100LV), Sodium alginate, Mimosa pudica seed mucilage and Limonia acidissima gum in various concentrations along with gas generating agent (sodium bicarbonate) were investigated for its physicochemical properties (in vitro floating behavior, drug release profile, etc.). Subsequently, a final optimization step is involved based on the physicochemical properties to achieve the desired effect. Results: Based on the study, the formulation with HPMC K4M, HPMC 100LV, Sodium alginate, and Mimosa pudica seed mucilage (F17) showed good floating properties (60 sec floating lag time) with drug release of 96.98 ± 2.1% for 12 hr and the drug release mechanism was found to be zero order (R 2 = 0.894). In vivo X-ray studies of F17 in albino rabbits showed a good floating ability up to 8 hr. Bioavailability of optimized and control (CARLOC) was found to be 41.95 ± 0.8892 μg.hr/ mL and 26.36 ± 1.1603 μg.hr/mL respectively. The accelerated stability study was performed with optimized formulation and it was observed stable during the study. Conclusion: It was concluded that the floating in situ gel of Carvedilol developed with natural polymer is suitable for GRDDS to enhance oral bioavailability.

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“…At the free end of the device a lightweight pan (3 g) was attached to which the weights were added. The gel strength was reported in terms of weight required to pass the apparatus through the formed gel mass 17,18 .…”

Section: Gel Strength Determinationmentioning

confidence: 99%

Untitled

2019

IJPSR

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The objective of the present study was to formulate and evaluate a gastro-retentive stomach specific novel floating in-situ gelling system of curcumin for potentially treating gastric ulcer, associated with Helicobacter pylori. The in-situ gel of curcumin was prepared by dissolving different concentrations of gelling polymer like sodium alginate in distilled water at 60 ºC. After cooling to 40 ºC, required quantities of sodium citrate and calcium carbonate were dispersed in it with continuous stirring followed by the addition of curcumin and sorbitol. Identification of drug was confirmed by DSC (melting point study), FTIR (functional groups study), and UV spectrophotometric analysis. Compatibility between drug and polymer were confirmed by DSC and FTIR studies. The micromeritic properties of curcumin were done, and all formulations showed pH in the range of 6.6 to 7.4, floating lag time was less than 1 min, duration of floating was more than 24 h for all the prepared formulations. Gelling capacity, gel strength, viscosity, and water uptake by the gel increased with the increase in sodium alginate concentration; the drug content was found to be in the range of 92.5 to 99.1%. Drug release was found to decrease with the increase in polymer concentration of gel. The release kinetics of all the formulations followed zero order mechanism. INTRODUCTION: Floating oral in-situ gel forming system are widely explored for gastro retention purposes and have a bulk density lower than gastric fluids and thus remain buoyant in the stomach without affecting the gastric emptying rate for a prolonged period. While the system is floating on gastric contents, the drug is released slowly at a desired rate from the system.

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Development and In Vitro/In Vivo Evaluation of Floating In Situ Gelling Oral Liquid Extended Release Formulation of Furosemide

Cited by 6 publications

References 16 publications

Floating Microspheres of Enalapril Maleate as a Developed Controlled Release Dosage Form: Investigation the Effect of Ionotropic Gelation Technique

Floating Microspheres of Enalapril Maleate as a Developed Controlled Release Dosage Form: Investigation the Effect of Ionotropic Gelation Technique

Preparation, in vitro and in vivo Characteristics of Floating in situ Gel of Carvedilol Using Semi Synthetic and Natural Polymers to Enhance the Oral Bioavailability

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