Recent Trends in Pharmaceutical Sciences and Research

Oral Strip Technology (OST) is one of the Oral drug delivery systemwhichever the currentyears gaining much attention and this technology is attracting many of the research groups toconcentrate their research onit. Dysphasia is common problem seen in pediatrics and geriatric patient’s population due to administration of monolithic solid dosage forms which are also seen in the case of fast dissolving tablets considering the size of the tablets and this problem is eliminated with introduction of OST. OST is mainly used for buccoadhesive systems in which they are retained in the oral cavity to release drug in controlled manner. This technology has also been used for local action and rapid release products.Strips are ease of handling and administration, transportability, high stability, no special packaging material and/or processing requirements, no requirement of water for application. The advantage of OST over Orally Disintegrating Tablets is that the OST is relatively easy to fabricate whereas ODTs requires complicated and expensive process used to manufacture thus increasing the overall cost of the therapy. This review article enlightens the present and future perspective of OST along with its materials used for formulation, method of preparation, evaluation and benefits.

PatilJyoti N., Joshi Rasika P. and KanadjeBhagyashree S.Fast dissolving oral film: most advance oral solid dosage form, World journal of pharmacy and pharmaceutical sciences, 2018; 7(5):526-544.

Sharma Pravin Kumar, Sharma Pankaj Kumar, Darwhekar Gajanan N., Shrivastava Birendra, An overview about novel fast dissolving oral films.International Journal of Drug Regulatory Affairs; 2018, 6(1):1-7.

Muhammad I, Orally disintegrating films: A modern expansion in drug delivery system, Saudi pharmaceutical journal, 2016; 24(5): 537-546.

Ghole A, Oral strip drug delivery system, Research journal of pharmacy and technology 2015; 8(1):85-93.

Nair V, A review on fast dissolving sublingual films for systemic drug delivery, World journal of pharmacy and pharmaceutical sciences, 2015; 4(3):342-361.

Prakruti M, Oral Film Technology: Challenges and Future Scope for Pharmaceutical Industry, International journal of pharmacy & Pharmaceutical research, 2015; 3(3):184-203.

Jaiswal H, Oral Strip Technology: A review, Indian Journal of Pharmaceutical and Biological Research (IJPBR) 2014; 2(2):130-143.

Rathi V, Senthil V, Kammili L, Hans R, A brief rewiew on oral film technology, IJRAP 2011,2(4) 1138-1147.

Aggarwal J et al Fast dissolving films: A novel approach to oral drug delivery IRJP 2011, 2(12), 69-74.

Bhyan B et al Orally fast dissolving films: Innovations in formulation and technology 2011: Article 9: 50-57.

Dixit R, Puthli S, Oral strip technology: Overview and future potential, Journal of Controlled Release 139 (2009) 94–107.

Rathbone M J., Hadgraft J, Absorption of drugs from the human oral cavity, Int. J.Pharm.1991; 74: 9–24.

Galey WR, Lonsdale HK, Nacht S, The in vitropermeability of skin and buccal mucosa to selected drugs and tritiated water, J. Invest. Dermat. 1976; 67: 713–717.

Gandhi RB, Robinson JR, Oral cavity as a site for bio adhesive drug delivery, Adv. Dr Del Rev. 1994; 13:43–74.

Wertz PW, Squier CA, Cellular and molecular basis of barrier function in oral epithelium, Crit. Rev. Ther. DrugCarr.Sys.1991; 8:237–269.

Peppas NA, Buri PA, Surface, interfacial and molecular aspects of polymer bio adhesion on soft tissues, J. Control Release 1985; 2: 257–275.

Schenkels L, Gururaja TL, Levine MJ, in: MJ Rathbone (Ed.), Oral Mucosal Drug Delivery, Marcel Dekker, NewYork, 1996; 191–220.

Kontis TC, Johns ME, Anatomy and physiology of salivaryglands, in: Byron J.Bailey (Ed.), Head and Neck surgery–Otolaryngology, pp. 531–539.

Rojanasakul Y et al. The transport barrier of epithelia: acomparative study on membrane permeability and chargeselectivity in the rabbit, Pharm. Res. 1992; 9: 1029–1034.

Tallury P, Alimohammadi N, Kalachandra S, Poly (ethylene-co-vinyl acetate) copolymer matrix for delivery of chlorhexidine and acyclovir drugs for use in the oral environment: effect of drug combination, copolymer composition and coating on the drug release rate, Dent. Mater.2007; 23: 404–409.

Dinge, A.; Nagarsenkar, M.; 2008, Formulation and Evaluation of Fast Dissolving Films for Delivery of Triclosan to the Oral Cavity, American Association of Pharmaceutical Scientists Pharm Sci Tech, 9(2): 349-356.

Sakellariou P, Rowe RC, Interactions in cellulose derivative films for oral drug delivery, Prog. Polym.Sci.1995; 20: 889–942.

Banker GS, Film coating theory and practice, J. Pharm.Sci.1966; 55: 81–89.

Julie Mariam Joshua, R Hari, Fithal K Jyothish, Saritha A Surendran, Formulation of Propranolol Hydrochloride Oral thin films for Migraine Prophylaxis. Int. J. Pharm. Sci. Rev. Res., 42(1), January - February 2017; Pages: 8-14.

Bais P, Formulation and evaluation of fast dissolving oral melt-in-mouth of lorazepamfor sublingual use, World journal of pharmacy and pharmaceutical sciences, 2016; 5(3):763-775.

Reena Sheoran, Fast Dissolving Oral Films: A Review with Future Prospects. Ijppr. Human, 2018; Vol. 12 (2): 15-32.