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dc.contributor.authorWINARTI, Lina
dc.contributor.authorSARI, Lusia Oktora Ruma Kumala
dc.contributor.authorIRAWAN, Eka Deddy
dc.contributor.authorNURAHMANTO, Dwi
dc.contributor.authorROSYIDI, Viddy Agustian
dc.contributor.authorAMELIANA, Lidya
dc.contributor.authorBARIKAH, Kuni Zu’ Aimah
dc.contributor.authorANJARANI, Regita Ardia
dc.date.accessioned2021-12-29T03:44:36Z
dc.date.available2021-12-29T03:44:36Z
dc.date.issued2021-09-25
dc.identifier.issnKodeprodi#2210101#Farmasi
dc.identifier.issnNIDN#0030088602
dc.identifier.issnNIDN#0009037505
dc.identifier.issnNIDN#0024018401
dc.identifier.issnNIDN#0003107903
dc.identifier.issnNIDN#0005048005
dc.identifier.urihttp://repository.unej.ac.id//handle/123456789/105588
dc.description.abstractObjective: The purpose of this study was to determine the optimum formula of diltiazem HCl-loaded chitosan nanoparticles due to variations in the speed and duration of stirring and evaluating the release kinetics in vitro using DDSolver Methods: The method used to prepare nanoparticles is ionic gelation. The ionic gelation method involves an ionic cross-linking between cations on the backbone of chitosan and anion, such as sodium tripolyphosphate (Na TPP). Results: Stirring speed of 1200 rpm and stirring time of 2 h produce an optimum response. The optimum formula has an entrapment efficiency of 71.10%, a particle size of 110.2 nm, and a polydispersity index of 0.268. The dry powder of diltiazem HCl nanoparticles produced a drug loading of 66.14±1.71% and a yield of 34.07±0.73%. The FT-IR showed ionic interaction (cross-linking) between ammonium ions from chitosan and phosphate ions from Na TPP. Scanning electron microscopy (SEM) analysis showed a particle size of 150 µm, a spherical shape, and rough surface morphology. In vitro release profiles indicated prolonged release, which follows the Korsmeyer Peppas model. Conclusion: It can be concluded that increasing the speed and duration of stirring will improve drug entrapment and reduce the particles size variation. The dry nanoparticles release mechanism is by diffusion and matrix erosion.en_US
dc.language.isoenen_US
dc.publisherInternational Journal of Applied Pharmaceuticsen_US
dc.subjectDiltiazem hydrochlorideen_US
dc.subjectChitosanen_US
dc.subjectNanoparticlesen_US
dc.subjectIn vitro release kineticsen_US
dc.titleOptimization of Diltiazem Hydrochloride Nanoparticles Formula and Its Release Kinetics Evaluationen_US
dc.typeArticleen_US


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