Volume : 11, Issue : 12, December – 2024

Title:

FORMULATION AND IN VITRO EVALUATION OF REPAGLINIDE-LOADED MICROSPHERES

Authors :

G.Laxmi Pavani, T.Ram Chander

Abstract :

The current study was conducted using floating repaglinide microspheres. The polymers HPMC 100 and ethyl cellulose were used. Micromeritic characteristics were tested on floating microspheres. A mean particle size of 381.55±2.54 to 493.24±2.43 micrometers was determined. For floating microsphere formulations F1 through F10, the yield ranged from 84.05±0.39 to 97.48±0.57. To increase the duration of a drug; stomach residence time, floating microspheres were prepared. In vitro, buoyancy ranged from 70.42±1.36 to 95.81±2.11 for formulations F1 through F10, respectively. The range of the entrapment efficiency for formulations F1 through F10 was 81.62±1.72 to 95.62±2.07. Formulations made using HPMC100 were shown to contain up to 90% of the medication, according to the dissolving data. For up to 12 hours, the F5 formulation delayed the maximal drug release.
Keywords: Repaglinide, Microspheres, Micromeritics, buoyancy, drug release.

Cite This Article:

Please cite this article in press Devara Raj kumar et al., Formulation & Evaluation Of Enteric-Coated Capsules For The Treatment Of Ulcerative Colitis.,Indo Am. J. P. Sci, 2024; 11 (12).

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References:

1. Fursule RA, Patra CN, patil GB, Kosalge SB, patil PO, Deshmukh PK. Study of multi particulate floating drug delivery system prepared by emulsion gelation technique. Int J Chem Tech Res 2009;1(2):162-7.
2. Jain, Neeraj & Verma, Anurag & Jain, Neelam. Preformulation Studies Of Niosomal Gel Containing Dipivefrin Hydrochloride for Antiglaucomatic Activity. International Journal of Pharmacy and Pharmaceutical Sciences. 2024; 17-23. 10.22159/ijpps.2024v16i2.49174.
3. Badaoui FZ, Feliachi SM, Boukehil F, Gacem L. Statistically Optimized Repaglinide-loaded Floating Microspheres for the Gastric Sustained Delivery via Central Composite Design. International Journal of Drug Delivery Technology. 2022;12(3):1406-1412.
4. Ajeet Singh, Ranjit Singh. Development and Characterization of Repaglinide Loaded Floating Microparticles. Research Journal of Pharmacy and Technology. 2021; 14(12):6573-8.
5. S. Sivaprasad, V. Alagarsamy, M. Prathibha Bharathi, P.V. Murali Krishna. Formulation and Evaluation of Mucoadhesive Floating Microspheres of Repaglinide.Research J. Pharm. and Tech 2021; 14(11):5673-5679.
6. Banik K & Kumar PB. Formulation and Evaluation of Floating Microspheres of Repaglinide by Ionic Gelation Method. J Pharm Drug Res, 2020; 3(2): 382-395.
7. Rao, B. & Vali, D.S. & Prakash, K. & Viswanath, V. & Padmini, D. & Fathima, S. Formulation and in vitro characterisation of repaglinide floating microspheres. International Journal of Research in Pharmaceutical Sciences. 2016; 7. 285-291.
8. Sipai, Altaf & Yadav, Vandana & Vv, Prasanth. Formulation And Evaluation Of Mucoadhesive Microspheres Of Metformin Hydrochloride. Indian Journal of Pharmaceutical Science & Research. 2014. 4. 2248-9126.
9. Bhanja, Satyabrata & Sudhakar, M & Neelima, V & Panigrahi, BB & Roy, Harekrishna. Development and evaluation of mucoadhesive microspheres of Irbesartan. International Journal of Pharma Research and Health Sciences. 2013; 1. 17-26.
10. Shivhare U. D., Rathod H. D., Mathur V. B. Development and Evaluation of Floating Pulsatile Microspheres of Metoprolol Tartrate Using Emulsification-Solvent Evaporation Technique. Scholars Academic Journal of Pharmacy, 2013; 2(5):365-372.
11. Ajaykumar Tiwari, Gaurang Patel and Nirav Rabadia. Formulation And Evaluation of Floating Microsphere H2 Receptor Blocker Ranitidine HCl By Ionic Gelation Method. International Journal of Pharmaceutical Sciences and Research. 2012; 3 (8): 2801-2808.
12. J Josephine LJ, Mehul RT, Wilson B, Shanaz B and Bincy R. Formulation And In Vitro Evaluation of Floating Microspheres of Anti-Retro Viral Drug As A Gastro Retentive Dosage Form. IJRPC 2011, 1(3):519-527.
13. Kumaresh SS, Tejraj MA, Sunil AA, Nadagouda NM, Padmakar VK. Effect of coexcipient on drug release and floating property of Nifedipine hollow microspheres: a novel gastro retentive drug delivery system. J Appl Polym Sci 2006;100:486-94.
14. Jain AK, Jain CP, Tanwar YS, Naruka, PS. Formulation characterization and in vitro evaluation of floating microspheres of Famotidine as a gastro retentive dosage form. Asian J Pharm 2009;3(3):222-6
15. Basavaraj BV, Deveswaran R, Bharath S, Abraham S, Furtado S, Madhavan V. hollow microspheres of Diclofenac Sodium a gastro retentive controlled delivery system. Pak J Pharm Sci 2008;21(4):451-4.
16. Sunil KJ, Govind PA, Narendra KJ. Evaluation of porous carrier-based floating Orlistat microspheres for gastric delivery. AAPS Pharm Sci Tech 2006;7(4):90.
17. Gupta N, Nagorny R. On the tensile properties of glass micro balloon-epoxy resin syntactic foams. J Appl Polym Sci 2006:1254-61.
18. Deepaa MK, Karthikeyanb M. Cefpodoxime Proxetil floating microspheres formulation and in vitro evaluation. Iranian J Pharm Sci 2009:5(2):69-72.
19. Sahoo SK, Mohapatra S, Dhal SK, Behera BC, Barik BB. Formulation of floating microspheres of Ciprofloxacin Hydrochloride by crosslinking agent. Ind pharm 2007: 6(58):65-8.
20. Madhavi BB, Ravinder Nath A, Banji D, Ramalingam1 R, Naga Madhu M, Arjun G., SriharshaV. Formulation and evaluation of venlafaxine hcl enclosed in alginate microbeads prepared by iontophoretic gellation method. IJPRD 2009;8:1-11