DESIGN OF FAST DISSOLVING TABLET OF ATENOLOL USING NOVEL CO-PROCESSED SUPERDISINTEGRANT

Authors

  • Mangesh M Kumare
  • Rajendra P Marathe
  • Rajendra M Kawade
  • Mahavir H Ghante
  • Giridhar R Shendarkar

Abstract

Atenolol is a recognized drug for hypertension therefore development of an FDT of Atenolol and to evaluate the effect of co-processed superdisintegrants on its disintegration time and release profile was the prime objective of this research work. Tablets were prepared by direct compression technique using two different superdisintegrants in combination by co-process mixing and by physical mixing. Croscarmellose sodium and Crospovidone were used as superdisintegrants in combinations in the different ratio (1:1, 1:2 & 1:3). The developed superdisintegrants were evaluated for angle of repose, Carr's index and Hausner's ratio in comparison with physical mixture of superdisintegrants. The angle of repose of the developed excipients was found to be < 250, Carr's index in the range of 10-15% and Hausner's ratio in the range of 1.11-1.14. Fast dissolving tablets of Atenolol were prepared using the co-processed superdisintegrants and evaluated for pre-compression and post compression parameters. Based on in-vitro dispersion time (approximately 20sec) CP1 formulation was tested for in-vitro drug release pattern in pH 6.8 Phosphate buffer and drug excipients interaction were studied with DSC. Among the designed formulations, the formulation (CP1) containing 4% w/w of co-processed superdisintegrants (1:1 mixture of Crospovidone and Croscarmellose sodium) emerged as the overall best formulation based on drug release characteristics in pH 6.8 phosphate buffer.

Keywords: Atenolol, Crospovidone, Croscarmellose sodium, Co-processed Superdisintegrants, Fast dissolving tablet

Downloads

Download data is not yet available.

References

Government of India Ministry of Health and Family Weifare. The Pharmacopoeia of India. Delhi: India: Controller of Publication; 1996.

Roden DM. Antiarrhythmic Drugs, In: Goodman and Gilman’s The Pharmacology Basis of Therapeutics. 10th ed., Mc Graw Hill Medical Publishing Division; New York; 2006. p. 949-950.

Ranch KM, Koli AR, Vyas BA, Parikh RK, Vyas RB, Maniyar N. International Journal of PharmTech Research. 2009; 1:4: p.1559-1563.

The United States Pharmacopoeial Convention Inc., USP; 27-NF; 2002: p.177-180.

Alfred Martin. Physical Pharmacy. 4th ed. Philadelphia: Lippincott Williams and Wilkins: 1993.

York P. Crystal engineering and particle design for the powder compaction process. Drug Dev Ind Pharm. 1992; 18: 6, 7: p. 677-721.

Block LH et al. Co-processed excipients. Pharmacopeial forum. 2009; 35:4: p.1026-1028.

Avachat A, Ahire VJ. Characterization and evaluation of spray dried co-processed Excipients and their application in solid dosage forms. Indian J Pharm Sci. 2007; 69:1: p. 85-90.

Reimerdes D. The near future of tablet excipients. Manuf chem. 1993; 64: p.14-5.

Michoel P, Rombaut A. Verhoye. Comparative evaluation of co-processed lactose and microcrystalline cellulose with their physical mixtures in the formulation of folic acid tablets. Pharm. Dev. Technol. 2002; 7: p.79-87.

Rowe RC, Sheskey PJ, Weller PJ. Handbook of pharmaceutical excipients, 4th Edn. Washington, DC: American Pharmaceutical Association, London. Pharmaceutical Press. 2003; p.184-185.

Takao M, Yoshinori M, Muneo F. Intrabuccally dissolving compressed mouldings and production process thereof. US patent. 1996; 5: 576: 014.

Bankar GS, Anderson NR. Tablets. In: Lachman L, Lieberman HA, Kanig JL, editor. The theory and practice of industrial pharmacy. 3rded. Mumbai: Varghese Publishing House; 1987.p.293-99.

Indian Pharmcopoeia: New Delhi: Controller of Publication, Government of India; 1996. p. 735-736.

United States of Pharmacopeia-National Formulary, USP 30 – NF 25.MD: The Unit States Pharmacopeial Convention Rockville.2007; 1: p.644,242, 645, 731 and 634.

Debjit B, Chiranjib B, Krishnakant, Pankaj, Margret RC. Fast dissolving tablet: An overview. J chem and pharma Res. 2009; 1:1: p.163-177.

Azharuddin M, Kamath K, Panneerselvam T, Pillai SS, Shabaraya AR. Formulation and evaluation of controlled release matrix tablets of antihypertensive drug using natural and synthetic Hydrophilic polymers. Res in Biotech. 2011; 2:4: p. 26-32.

Manivannan R. Oral disintegrating tablets: A future compaction. Drug Invention Today 2009; 1:1: p. 61-65.

Liberman, HA, Lachman L, Schwartz JB. Pharmaceutical dosage forms: Tablets volume-2. Marcel dekker: New York: 2005: p.165-7.

Gun CJ, Carter SJ. Powder Flow and Compaction. CBS publication; New Delhi: 1986: p.211-33.

Sinko PJ. Martin’s Physical pharmacy and pharmaceutical sciences; Lippincott Williams and Wilkins: New York: 2006: p.557.

Shirsand SB, Ramani RG, Swami PV. Novel co-processed superdisintegrants in the design of fast dissolving tablets. Int J pharm & Bio Sci. 2010; 1:1: p.1-12.

Kumar M, Visth S, Sazid A, Agarwal S, Bhola A. Preparation and evaluation of fast dissolving drug delivery system Containing levocetrizine HCl. Int J Pharm & Pharm Sci. 2010; 2:3: p.109-111.

Patel B, Patel C, Serasiya T, Sanja SD. Development and in vitro evaluation of fast

dissolving tablets of glipizide. Int J Pharm & Pharm Sci. 2009; 1:1: p.145-150.

Chandile GK, Kumar JA, Kakde SM, Rajasekar S, Jadhav RT. Development and evaluation of haloperidol orally disintegrating tablet using novel coprocessed superdisintegrants. Int J Pharm & Pharm Sci. 2011; 2:3: p.348-352.

Published

01-07-2013

How to Cite

Kumare, M. M., R. P. Marathe, R. M. Kawade, M. H. Ghante, and G. R. Shendarkar. “DESIGN OF FAST DISSOLVING TABLET OF ATENOLOL USING NOVEL CO-PROCESSED SUPERDISINTEGRANT”. Asian Journal of Pharmaceutical and Clinical Research, vol. 6, no. 3, July 2013, pp. 81-85, https://journals.innovareacademics.in/index.php/ajpcr/article/view/115.

Issue

Vol 6 Issue 3 (July-Sept) 2013

Section

Articles

The publication is licensed under CC By and is open access. Copyright is with author and allowed to retain publishing rights without restrictions.