FORMULATION OF ORODISPERSIBLE TABLET OF LUFFA ACUTANGULA (L) ROXB USING NOVEL CO-PROCESSED VIA SPRAY DRIED EXCIPIENT

Authors

  • Rina Adriany Indonesia University
  • Effionora Anwar Indonesian University
  • Retnosari Andrajati Indonesian University
  • M. Hanafi LIPI Research Center for Chemistry

Keywords:

Orodispersible tablet (ODT), Co-process spray dried, Direct compression, Maltodextrinsuccinate, Polyvinylpyrrolidone, Mannitol

Abstract

Objective: The objective of this research was to co-process via spray dry tablet excipients in the formulation of orodispersible tablet (ODT) containing Luffa acutangula (L) Roxb fruit aqueous extract (LAE) which were prepared by direct compression method.

Methods: The excipients and LAE were made by co-process via spray dry to create mixtures that can help in achieving direct compression optimum disintegration time along with the required hardness and friability. The excipients compose by maltodextrin succinate (MDS), polyvinylpyrrolidone (PVP) and mannitol (Mnt) in the ratio (1:1:8; 2:1:7; 3:1:6). The pre-compressive parameters for the blends and post-compressive parameters for the prepared tablets were evaluated. The blend was examined for flowability and compressibility sufficient mechanical integrity. The ODT properties were evaluated for weight variation, hardness, friability, in vitro disintegrating time, and in vitro wetting time.

Results: ODT of LAE were prepared using novel co-processed excipients consisting of MDS-PVP-MT (2:1:7) had a shorter disintegration time and showed the best pharmaceutical performance. The formulations showed desired pre and post-compressive characteristics, short term accelerated stability study was performed for optimized formulation and found that LAE ODT were prepared by coprocessed via spray dried no evidence of physical changes.

Conclusion: ODT of LAE are successfully prepared using novel MDS-PVP-Mnt (ratio 2:1:7) as excipient by co-processed via spray dried by direct compression method and ODT of LAE would be alternative to the currently available conventional tablets.

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References

United States Pharmacopeia. 30ed. Rockville: United States Pharmacopeia Convention; 2008.

Velmurugan S, Vinushitha S. Oral disintegrating tablets: an overview. Int J Chem Pharm Sci 2010;1(2).

Gattani M, Vinay S, Manish S, Kishor A, Meera S. Development of directly compressible co-processed excipients for orally Disintegrating tablets using rotary evaporation method. Int J Pharm Pharm Sci 2013;5(3):390.

Gupta A, Mishra AK, Gupta V, Bansal P, Singh R, Singh AK. Recent trends of fast dissolving tablet-An overview of formulation technology. Int J Pharm Sci 2010;1(1):1-10.

Biradar SS, Bhagavati ST, Kuppasad IJ. Fast dissolving drug delivery systems: a brief overview. Int J Pharmacol 2006;4(2):1-7.

Ghosh T, Ghosh A, Prasad D. A review on new generation orodispersible tablets and its future. Prospective Int J Pharm Pharm Sci 2011;3(1):1.

Chougule AS, Dikpati A, Trimbake T. Formulation development techniques of co-processed excipients introduction. J Advanced Pharm Sci 2012;2(2):231–49.

Nachaegari KS, Arvind KB. Coprocessed excipients for solid dosage forms. Pharm Technol 2004;28(1):52.

Desai U, Rohini C, Priti M, Ruchira C. A review: coprocessed excipients. Int J Pharm Sci Rev Res 2012;12(2):019.

Gohel MC. A review of co-processed directly compressible excipients. J Pharm Pharm Sci 2005;8(1):76–93.

Chowdary KPR, Ramya K. Recent research on co-processed excipients for Direct compression-a review. Int J Comprehensive Pharm 2013;04:02.

Giri TK, Tripathi DK, Majumdar R. Formulation aspects in the development of orodispersible tablets: an overview. Int J Pharm Pharm Sci 2010;2(3):38.

Soares LAL, Ortega GG, Petrovick PR, Schmidt PC. Optimization of tablets containing a high dose of spray-dried plant extract: a technical note. AAPS Pharm Sci Tech 2005;6(3):E367–E371.

Souza TP, Martínez-Pacheco R, Gómez-Amoza JL, Petrovick PR. Eudragit E as excipient for production of granules and tablets from Phyllanthus niruri L spray dried extract. AAPS Pharm Sci Tech 2007;8:E54–E60.

Mohan SR, Shahid M, Vinoth KS, Santhosh KC, Subal D. Antidiabetic effect of Luffa acutangula fruits and histology of organs in streptozotocin induced diabetic in rats. Res J Pharmaco Phytochem 2012;04(02):64-9.

Pimple BP, Kadam PV, Patil MJ. Antidiabetic and antihyperlipidemic activity of Luffa acutangula fruit extracts in streptozotocin induced NIDDM rats. Asian J Pharm Clin Res 2011;4(2):156-63.

Rai SK, Neha A, Neha P, Ram PM, Kavita S, Shashi PR. Nutraceutical enriched vegetables: molecular approaches for crop improvement. Int J Pharm Bio Sci 2012;3(2):363-79.

Wijayanti AR, Santi PS. Uji efek antihipertensi ekstrak etanol 70% buah oyong (Luffa acutangula (L) Roxb) terhadap tikus putih jantan yang diinduksi natrium klorida. Program Studi Farmasi, FMIPA; 2012.

Ven Subbiah. Method and Composition for Management of Weight and Blood Sugar. Patent Application Publication (10) Pub; 2008.

Haque ME, Badrul AM, Sarowar HM. The efficacy of cucurbitane type triterpenoids, glycosides and phenolic compounds isolated from Momordica charantia: a review. Int J Pharm Sci Res 2011;2(5):1135-46.

Mi Rim Jin, Jae HR, Hyoun JC, Hyun JJ, Kyoung CP, Sun YK. Composition comprising the alcohol coumpound isolated from the extract of cucurbitaceae family plant having anti-adipogenic and anti-obesity activity. Paten; 2011.

Arora P, Vandana AS. Orodispersible tablets: a comprehensive review. Int J Res Dev Pharm Life Sci 2013;2(2):270-84.

Nagar P. Orally disintegrating tablets: formulation, preparation techniques and evaluation. J Applied Pharm Sci 2011;01(04):35-45.

Asthana A, Aggarwal S, Asthana G. Oral dispersible tablets: novel technology and development. Int J Pharm Sci Rev Res 2013;20(33):193-9.

Sandeep RN, Narashima RBN, Ravindra R, Reddy K, Rami. Formulation and evaluation of Diltiazem HCl oral dispersible tablets. Int J Pharm Ind Res 2012;02(01):79.

Bandari S, Mittapalli RK, Gannu R, Rao YM. Orodispersible tablets: an overview. Asian J Pharm 2008;2-11.

ICH. Stability testing of new drug substances and products Q1A (R2), International Conference on Harmonization, IFPMA. Geneva; 1996

Josephine LPS, Maud G, Mark W. Characterization, optimisation and process robustness of a co-processed mannitol for the development of orally disintegrating tablets. Pharm Dev Technol 2013;18(1):172-85.

Patel RP, Patel MP, Suthar AM. Spray drying technology: an overview. Indian J Sci Technol 2009;2(10):44-5.

Patel RP, Bhavsar M. Directly compressible materials via co-processing. Int J Pharm Tech Res 2009;1(3):745-53.

Miller RW. Maltodextrin, Mannitol, Povidone. In: Rowe RC, Sheskey PJ, Quin ME editors. Handbook of Pharmaceutical Excipients. 6th ed. Washington, DC: American Pharmaceutical Association, London: Pharmaceutical Press; 2009. p. 418, 424, 581.

Yoshio K, Masazumi K, Shuichi A, Hiroaki N. Evaluation of rapidly disintegrating tablets manufactured by phase transition of sugar alcohols. J Control Release 2005;105(1-2):16-22.

Debord B. Study of different crystalline forms of mannitol: comparative behaviour under compression. Drug Dev Ind Pharm 1987;13:1533–46.

Yamamoto Y. Effect of powder characteristics on oral tablet disintegration. Int J Pharm 2009;365:116–20.

Alves VML, Sá-Barreto LCL, Souza GHB, Cunha-Filho MSS. Co-processed extracts of Cassia angustifolia and Maytenus ilicifolia for production of high load tablets. Brazilian J Pharmaco 2011;21(3):510-7.

Gonnissen Y, Verhoeven E, Peeters E, Remon JP, Vervaet C. Coprocessing via spray drying as a formulation plat form to improve the compactability of various drugs. Eur J Pharm Biopharm 2008;69:320–34.

Gohel MC, Jogani PD. Exploration of melt granulation technique for the development of coprocessed directly compressible adjuvant containing lactose and microcrystalline cellulose. Pharm Dev Technol 2003;8(2):175–85.

Kuchekar BS, Badhan AC, Mahajan HS. Mouth dissolving tablets: a novel drug delivery system. Pharm 2003;35:7–9.

Departemen Kesehatan RI. Farmakope Indonesia Edisi IV. Departemen Kesehatan Republik Indonesia. Jakarta; 1995.

Rao RNG, Kumar KR. Design of fast dissolving tablets of Chlorthalidone using novel co-processed superdisintegrants. J Chem Pharm Res 2010;2(4):671-9.

Yoshinari T. Improved compaction properties of mannitol after a moisture induced polymorphic transition. Int J Pharm 2003;258(1–2):121–31.

Bouffard J. Influence of processing variables and physicochemical properties on the granulation mechanisms of mannitol in a fluid bed top spray granulator. Drug Dev Ind Pharm 2005;31:923–33.

Marwaha M, Sandhu D, Marwaha RK. Co-processing of excipient: a review on excipient development for improved tableting performance. Int J Appl Pharm 2010;2(3):41-7.

Gonnissen Y, Remon JP, Vervaet C. Development of directly compressible powders via co-spray drying. Eur J Pharm Biopharm 2007;67:220–6.

Published

01-01-2015

How to Cite

Adriany, R., E. Anwar, R. Andrajati, and M. Hanafi. “FORMULATION OF ORODISPERSIBLE TABLET OF LUFFA ACUTANGULA (L) ROXB USING NOVEL CO-PROCESSED VIA SPRAY DRIED EXCIPIENT”. International Journal of Pharmacy and Pharmaceutical Sciences, vol. 7, no. 1, Jan. 2015, pp. 124-9, https://journals.innovareacademics.in/index.php/ijpps/article/view/3437.

Issue

Vol 7, Issue 1, 2015

Section

Original Article(s)