Cellulose whisker (CW) was synthesized from filter paper by acid hydrolysis. Chitosan –CW microparticles were prepared by microemulsion technique using isoniazid as the model drug and glutaraldehyde as the crosslinker. The microparticles were characterized by Fourier Transmission Infra-red Spectroscopy (FTIR), X-ray diffractometry (XRD), Scanning electron microscopy (SEM), Transmission emission microscopy (TEM). The effect of cellulose whisker and glutaraldehyde on the microparticles were assessed with regard to swelling, encapsulation efficiency and consequently on the release of isoniazid in different mediums. The drug release mechanism was studied for different time periods by UV-visible spectrophotometer. Cytotoxicity test was performed by MTT assay analysis. The results entailed that the microparticles can be exploited as potential drug carrier for controlled release applications.

Devi MG, Dutta S, Al- Hinai AT, Feroz S. Preparation and Characterization of Natural Degradable. IJCER. 2012, 2:109-111

Rujiravanit R, Kruaykitanon S, Jamieson AM, Tokura S. Preparation of Crosslinked Chitosan/Silk Fibroin Blend Films for Drug Delivery System. Macromol Biosci. 2003, 3: 604-611

Hussein MZ, Yarmo MA, Rahman MZHA, Zainal Z, Liang AAS. Texture and microstructure of chitosan-treated bentonite and its calcined products. Malay J Analyt Sci. 2001, 7:35-40

Racovita S, Vasiliu S, Popa M, Luca C. Polysaccharides based on micro- and nanoparticles obtained by ionic gelation and their applications as drug delivery systems. Revue Roumaine de Chimie. 2009, 54:709-718

Liu Z, Jiao Y, Wang Y, Zhou C, Zhang Z. Polysaccharides-based nanoparticles as drug delivery systems. Adv Drug Deliv Rev. 2008, 60:1650-1662

Kumar MN, Muzzarelli RA, Muzzarelli C, Sashiwa H, Domb AJ. Chitosan chemistry and pharmaceutical perspectives. Chem. Rev. 2004, 104:6017-6084

Prabharan M. Review paper: Chitosan derivatives as promising materials for controlled drug delivery. J Biomater Appl. 2008, 23:5-32

Shirosakia Y, Tsurua K, Hayakawaa S, Osakaa A, Lopes MA, Santos JD, Fernandes MH. In vitro cytocompatibility of MG63 cells on chitosan-organosiloxane hybrid membranes. Biomaterials. 2005, 26:485-493

Venter JP, Kotz´e AF, Velty RA, Rinaudo M. Synthesis and evaluation of the mucoadhesivity of a CD-chitosan derivative. Int J Pharm. 2006, 313, 36-42

Denkbas EB, Ottenbrite RM. Perspectives on: Chitosan drug delivery systems based on their geometries. J Bioact Compat Poly. 2006, 21:351-368

Pourshahab PS, Gilani K, Moazeni E, Eslahi H, Fazeli MR, Jamalifar H. Preparation and characterization of spray dried inhalable powders containing chitosan nanoparticles for pulmonary delivery of isoniazid. J Microencapsul. 2011, 28:605-613

Sturcova A, Davies GR, Eichhorn SJ. Elastic modulus and stress-transfer properties of tunicate cellulose whiskers. Biomacromolecules 2005, 6:1055-61

Ljungberg N, Cavaille´JY, Heux L. Nanocomposites of isotactic polypropylene reinforced with rod-like cellulose whiskers. Polymer. 2006, 47:6285-6292

Bendahou A, Kaddami H. Dufresne, A. Investigation on the effect of cellulosic nanoparticles’ morphology on the properties of natural rubber based nanocomposites. Eur Poly J. 2010, 46:609-620

Mathew AP, Oksman K, Pierron D, Harmand MF. Fibrous cellulose nanocomposite scaffolds prepared by partial dissolution for potential use as ligament or tendon substitutes. Carbo Pol. 2012, 87:2291-2298

Eyholzer C, Borges de Couraça A, Duc F, Bourban PE, Tingaut P, Zimmermann T, Månson JAE, Oksman K. Biocomposite Hydrogels with Carboxymethylated, Nanofibrillated Cellulose Powder for Replacement of the Nucleus Pulposus. Biomacromolecules. 2011, 12: 1419-1427

Pan M, Zhou X, Chen M. Cellulose Nanowhiskers Isolation and Properties from Acid Hydrolysis Combined with High Pressure Homogenization. BioResource. 2013, 8:933-943

Basu SK, Kavitha K, Rupeshkumar M. Preparation and Evaluation of Trimetazidine Hydrochloride Microspheres using Chitosan. Int J Pharm Tech Res. 2010, 2:1190-1196

Lim LY, Wan LSC. Effect of magnesium stearate on chitosan microspheres prepared by an emulsification-coacervation technique. J Microencapsul. 1998, 15:319-333

Basu SK, Kavitha K, Rupeshkumar M. Evaluation of Ketorolac Tromethamine Microspheres by Chitosan/Gelatin B Complex Coacervation. Sci Pharm. 2010, 78, 79-92

Lacerda L, Stulzer HK, Parize AL, Horst BL, Favere VT, Laranjeira MCM. Synthesis and Characterization of Crosslinked MaleylChitosan Microspheres Prepared by Coacervation Technique. J Micromol Sci, Part A: Pure and Appl Chem. 2009, 46:503-509

Wu Y, Yang W, Wang C, Hu J, Fu S. Chitosan nanoparticles as a novel delivery system for ammonium glycyrrhizinate. Int J Pharm. 2005, 295:235-245

Zheng JP, Luan L, Wang HY, Xi LF, Yao KD. Study on ibuprofen/montmorillonite intercalation composites as drug release system. Appl Clay Sci. 2007, 36, 297-301

Zhang J, Elder TJ, Pu Y, Ragauskas AJ. Facile synthesis of spherical cellulose nanoparticles. Carbo Pol. 2007, 69:607-611

Devi N, Maji TK. Microencapsulation of isoniazid in genipin-crosslinked gelatin-A–k-carrageenan polyelectrolyte complex. Drug Dev. Ind. Pharm., 2010, 36, 56-63

Segal L, Creely JJ, Martin AE, Conrad CM. An Empirical Method for Estimating the Degree of Crystallinity of Native Cellulose Using the X-Ray Diffractometer. Textile Research Journal. 1959, 29:786-794

Devi N, Maji TK. Preparation and Evaluation of Gelatin/Sodium Carboxymethyl Cellulose Polyelectrolyte Complex Microparticles for Controlled Delivery of Isoniazid. AAPS Pharm Sci Tech. 2009, 10:1412-1419

Cassano R, Trombino S, Ferrarelli T, Mauro MV, Giraldi C, Manconi M, Fadda AM, Picci N. Respirable rifampicin-based microspheres containing isoniazid for tuberculosis treatment. Society for Biomat. 2011 DOI: 10.1002/jbm.a.33302 1-7

Hussain A, Saikia V, Ramteke AM. Nitric Oxide and Modulatory Effects of the Root extracts ofPhlogacanthus tubiflorus against Oxidative Stress induced by Hydrogen Peroxide. Free Radical and Antioxidants. 2012, 2:9-12

Denizot F, Lang R. Rapid colorimetric assay for cell growth and survival: Modifications to the tetrazolium dye procedure giving improved sensitivity and reliability. J Immunol Methods. 1986, 89:271-277

Bourke GJ, Daly LE, McGilvary J. Interpretation and uses of medical statistics; 3rd ed.; Blackwell Scientific Publication, Oxford 1985

Iman M, Bania KK, Maji TK. Green Jute-Based Cross-Linked Soy Flour Nanocomposites Reinforced with Cellulose Whiskers and Nanoclay. Ind Eng Chem Res. 2013, 52:6969-6983

Mukhopadhyay, P.; Sarkar, K.; Soam, S.; Kundu, P.P. Formulation of pH-Responsive Carboxymethyl Chitosan and Alginate Beads for the Oral Delivery of Insulin. J App Polym Sci. 2013, 129:835-845

Banik N, Iman M, Hussain A, Ramteke A, Boruah R, Maji TK. Soy flour nanoparticles for controlled drug delivery: effect of crosslinker and montmorillonite (MMT). New J Chem. 2013, 37:3981-3990

Banik N, Hussain A, Ramteke A, Sharma HK, Maji TK. Preparation and evaluation of the effect of particle size on the properties of chitosan-montmorillonite nanoparticles loaded with isoniazid. RSC Advances. 2012, 2:10519-10528

Lu P, Hsieh Y. Preparation and properties of cellulose nanocrystals: Rods, spheres, and network. Carbo Pol. 2010, 82:329-336

Gupta NV, Shivakumar HG. Development of a Gastroretentive Drug Delivery System based on Superporous Hydrogel. Trop J Pharm Res. 2010, 9:257-264

Gupta KC, Ravi Kumar MN. pH dependent hydrolysis and drug release behavior of chitosan/poly(ethylene glycol) polymer network microspheres. J Mater Sci: Mater Med. 2001, 12:753-759

Guliyeva U, Uner F, Özsoy S, Haziroğlu R. Chitosan microparticles containing plasmid DNA as potential oral gene delivery system. Eur J Pharm Biopharm. 2006, 62, 17-25

Bceker C, Dressman JB, Amidam GL, Junginger HE, Kopp S, Midha KK, Shah VP, Stavchansky S, Barends DM. Monographs for Immediate Release Solid Oral Dosage Forms: Isoniazid. J Pharm Sci. 2007, 96:522-531

Clift MJD, Foster EJ, Vanhecke D, Studer D, Wick P, Gehr P, Rothen-Rutishauser B, Weder, C. Investigating the Interaction of Cellulose Nanofibers Derived from Cotton with a Sophisticated 3D Human Lung Cell Coculture. Biomacromolecules. 2011, 12: 3666-3673