To reduce premature drug release while ensuring burst intracellular drug release of solid lipid nanoparticle-based drug delivery system with clathrin modification

Background: Tuberculosis is a major public health problem in the world. Isoniazid is a first line antitubercular drug active against Mycobacterium species which inhibits mycolic acid synthesis. Objective: The aim of the present investigation was the preparation of solid lipid nanoparticle containing Isoniazid to increase bioavailability, sustained release and decrease toxicity by increasing permeability. Methods: Isoniazid was incorporated into SLN for sustained drug delivery, increasing permeability and bioavailability. SLNs were prepared by emulsification followed by the solvent evaporation technique by optimizing lipid, polymer and surfactant ratio under controlled optimized process variables i.e. temperature and stirring speed. SLNs were characterized for particle size analysis, comparative study design in different physiological pH for in-vitro drug release and drug release kinetics. Results: The best in-vitro release for F7 was found to be 80.2% in pH-7.4 and 82.2% in pH-4.5. The particle size of the F7 formulation was found to be in the range of 200- 600nm . Among all 3 optimized formulations, i.e. F3, F7 and F8 in both the pH, F3 followed non-fickian diffusion mechanism in pH-4.5 whereas all the formulations in both pH followed super-case II diffusion mechanism. The stability studies were carried out as per ICH guidelines which signify that the SLNs were found stable in the refrigerated condition. Conclusion: The results clearly demonstrated that SLNs drug delivery system is a promising approach for antitubercular drug delivery as it proved to sustained release, increase permeability, enhanced bioavailability and thus decreased dosing frequency. Kinetic modelling of the formulation with zero, first order, Higuchi and Korsmeyer- peppas is explained in this article.

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Development and Evaluation of Floating Pulsatile Drug Delivery System Using Meloxicam

International Journal of Drug Delivery Technology ◽

10.25258/ijddt.v7i04.10647 ◽

2017 ◽

Vol 7 (04) ◽

Author(s):

ShirishaG. Suddala ◽

S. K. Sahoo ◽

M. R. Yamsani

Keyword(s):

Rheumatoid Arthritis ◽

Drug Delivery ◽

Drug Release ◽

Drug Delivery System ◽

Delivery System ◽

Lag Time ◽

Oral Dosage ◽

Lag Phase ◽

Pulsatile Drug Delivery

Objective: The objective of this research work was to develop and evaluate the floating– pulsatile drug delivery system (FPDDS) of meloxicam intended for Chrono pharmacotherapy of rheumatoid arthritis. Methods: The system consisting of drug containing core, coated with hydrophilic erodible polymer, which is responsible for a lag phase for pulsatile release, top cover buoyant layer was prepared with HPMC K4M and sodium bicarbonate, provides buoyancy to increase retention of the oral dosage form in the stomach. Meloxicam is a COX-2 inhibitor used to treat joint diseases such as osteoarthritis and rheumatoid arthritis. For rheumatoid arthritis Chrono pharmacotherapy has been recommended to ensure that the highest blood levels of the drug coincide with peak pain and stiffness. Result and discussion: The prepared tablets were characterized and found to exhibit satisfactory physico-chemical characteristics. Hence, the main objective of present work is to formulate FPDDS of meloxicam in order to achieve drug release after pre-determined lag phase. Developed formulations were evaluated for in vitro drug release studies, water uptake and erosion studies, floating behaviour and in vivo radiology studies. Results showed that a certain lag time before drug release which was due to the erosion of the hydrophilic erodible polymer. The lag time clearly depends on the type and amount of hydrophilic polymer which was applied on the inner cores. Floating time and floating lag time was controlled by quantity and composition of buoyant layer. In vivo radiology studies point out the capability of the system of longer residence time of the tablets in the gastric region and releasing the drug after a programmed lag time. Conclusion: The optimized formulation of the developed system provided a lag phase while showing the gastroretension followed by pulsatile drug release that would be beneficial for chronotherapy of rheumatoid arthritis and osteoarthritis.

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