References
- Aabakken L, Bjørnbeth BA, Hofstad B, Olaussen B, Larsen S, Osnes M. Comparison of the gastrointestinal side effects of naproxen formulated as plain tablets, enteric-coated tablets, or enteric-coated granules in capsules. Scand J Gastroenterol, 1989;24:65–73
- Akiyama Y, Yoshioka M, Horibe H, Hirai S, Kitamori N, Toguchi H. Novel oral controlled-release microspheres using polyglycerol esters of fatty acids. J Control Release, 1993;26:1–10
- Ashland. 2013. Plasdone S-630 copovidone product overview. Kovington, KY: Ashland
- Baichwal AR, Augsburger LL. Variations in the friction coefficients of tablet lubricants and relationship to their physicochemical properties. J Pharm Pharmacol, 1988;40:569–71
- Bodmeier R, Wang J, Bhagwatwar H. Process and formulation variables in the preparation of wax microparticles by a melt dispersion technique. I. Oil-in-water technique for water-insoluble drugs. J Microencapsul, 1992;9:89–98
- Brasseur S, Amighi K, Moes AJ. 2000. Evaluation of solid lipid microparticles for controlled delivery to the pulmonary tract. Proceedings of the 9th Forum of Pharmaceutical Sciences, Spa, Belgium
- Brossard C, Ratsimbazafy V, Lefort des Ylouses D. Modelling of theophylline compound release from hard gelatin capsules containing Gelucire matrix granules. Drug Dev Ind Pharm, 1991;17:1267–77
- Cortesi R, Esposjto E, Luca G, Nastruzzi C. Production of lipospheres as carriers for bioactive compounds. Biomaterials, 2002;23:2283–94
- Costa P, Sousa Lobo JM. Modeling and comparison of dissolution profiles. Eur J Pharm Sci, 2001;13:123–33
- Cusimano AG, Becker CH. Spray-congealed fomulations of sulfaethylthiadiazole (SETD) and waxes for prolonged-release medication. J Pharm Sci, 1968;57:1104–12
- Dash S, Murthy PN, Nath L, Chowdhury P. Kinetic modeling on drug release from controlled drug delivery systems. Acta Pol Pharm, 2010;67:217–23
- Ecclestone GM. 1984. Properties of fatty alcohol mixed emulsifiers and emulsifying waxes. Oxford: Blackwell Scientific
- Eldem T, Speiser P, Hincal A. Optimization of spray-dried and congealed lipid micropellets and characterization of their surface morphology by scanning electron microscopy. Pharm Res, 1991;8:47–54
- Felder CB, Blanco-Príeto MJ, Hiezmann J, Merkle HP, Gander B. Ultrasonic atomization and subsequent polymer desolvation for peptide and protein encapsulation into biodegradable polyesters. J Microencapsul, 2003;20:553–67
- Giannola L, Di Stefano V, de Caro V. White beeswax microspheres: A comparative in vitro evaluation of cumulative release of the anticancer agents fluorouracil and ftorafur. Pharmazie, 1993;48:123–6
- Gruber K, Lohner M, Posselt K, Wagener HH. 1986. Transdermal 2-(4-isobutylphenyl)-propionic acid medication and methods. Google Patents
- Hamdani J, Moes AJ, Karim A. Development and evaluation of prolonged release pellets obtained by the melt pelletization process. Int J Pharm, 2002;245:167–77
- Iranloye TA, Parrott EL. Effects of compression force, particle size, and lubricants on dissolution rate. J Pharm Sci, 1978;67:535–9
- Jarosz PJ, Parrott EL. Effect of tablet lubricants on axial and radial work of failure. Drug Dev Ind Pharm, 1982;8:445–53
- Kheradmandnia S, Vasheghani-Farahani E, Nosrati M, Atyabi F. Preparation and characterization of ketoprofen-loaded solid lipid nanoparticles made from beeswax and carnauba wax. Nanomedicine, 2010;6:753–9
- Killeen MJ. 1996. Spray drying and spray congealing of pharmaceuticals. In: Swarbrick J, Boylan JC, eds. Encyclopedia of pharmaceutical technology. New York: Marcel Dekker , pp. 207–21
- Lakshman JP, Kowalski J, Vasanthavada M, Tong WQ, Joshi YM, Serajuddin ATM. Application of melt granulation technology to enhance tabletting properties of poorly compactible high-dose drugs. J Pharm Sci, 2011;100:1553–65
- Maderuelo C, Zarzuelo A, Lanao JM. Critical factors in the release of drugs from sustained release hydrophilic matrices. J Control Release, 2011;154:2–19
- Mapstone GE. Crystallization of cetyl alcohol from cosmetic emulsions. Cosmet Perfum, 1974;89:31–3
- Masters DB, Domb AJ. Liposphere local anesthetic timed-release for perineural site application. Pharm Res, 1998;15:1038–45
- Mendyk A, Jachowicz R, Fijorek K, Dorozynski P, Kulinowski P, Polak S. KinetDS: An open software for dissolution test data analysis. Dissolut Technol, 2012;19:6–11
- Menjoge A, Kulkarni M. 2008. Pharmaceutical composition for improving palatability of drugs and process for preparation thereof. US Patent US 7,378,109
- Mitrevej KT, Augsburger LL. Adhesion of tablets in a rotary tablet press II: Effects of blending time, running time, and lubricant concentration. Drug Dev Ind Pharm, 1982;8:237–82
- Passerini N, Perissutti B, Albertini B, Voinovich D, Moneghini M, Rodriguez L. Controlled release of verapamil hydrochloride from waxy microparticles prepared by spray congealing. J Control Release, 2003;88:263–75
- Passerini N, Perissutti B, Moneghini M, Voinovich D, Albertini B, Cavallari C, Rodriguez L. Characterization of carbamazepine-Gelucire 50/13 microparticles prepared by a spray-congealing process using ultrasounds. J Pharm Sci, 2002;91:699–707
- Porter SC. Controlled-release film coatings based on ethylcellulose. Drug Dev Ind Pharm, 1989;15:1495–521
- Rainsford KD. 2003. Ibuprofen: A critical bibliographic review. London: Taylor & Francis
- Rajanikant P, Nirav P, Patel NM, Patel MM. A novel approach for dissolution enhancement of ibuprofen by preparing floating granules. Int J Res Pharm Sci, 2010;1:57–64
- Rasenack N, Muller BW. Ibuprofen crystals with optimized properties. Int J Pharm, 2002;245:9–24
- Reithmeier H, Herrmann J, Gopferich A. Development and characterization of lipid microparticles as a drug carrier for somatostatin. Int J Pharm, 2001a;218:133–43
- Reithmeier H, Herrmann J, Gopferich A. Lipid microparticles as parenteral controlled release device for peptides. J Control Release, 2001b;73:339–50
- Ribeiro HM, Morais JA, Ecclestone GM. Structure and rheology of semisolid o/w creams containing cetyl alcohol/non-ionic surfactant mixed emulsifier and different polymers. Int J Cosmet Sci, 2004;26:57–9
- Rodriguez L, Albertini B, Passerini N, Cavallari C, Giovannelli L. Hot air coating technique as a novel method to produce microparticles. Drug Dev Ind Pharm, 2004;30:913–23
- Rodriguez L, Passerini N, Cavallari C, Cini M, Sancin P, Fini A. Description and preliminary evaluation of a new ultrasonic atomizer for spray-congealing processes. Int J Pharm, 1999;183:133–43
- Rosiaux Y, Jannin V, Hughes S, Marchaud D. Solid lipid excipients – Matrix agents for sustained drug delivery. J Control Release, 2014;188:18–30
- Sadeghi F, Ford JL, Rubinstein MH, Rajabi-Siahboomi AR. Study of drug release from pellets coated with surelease containing hydroxypropylmethylcellulose. Drug Dev Ind Pharm, 2001;27:419–30
- Sanna V, Kirschvink N, Gustin P, Gavini E, Roland I, Delattre L, Evrard B. Preparation and in vivo toxicity study of solid lipid microparticles as carrier for pulmonary administration. AAPS PharmSciTech, 2004;5:17–23
- Savolainen M, Herder J, Khoo C, Lövqvist K, Dahlqvist C, Glad H, Juppo AM. Evaluation of polar lipid-hydrophilic polymer microparticles. Int J Pharm, 2003;262:47–62
- Savolainen M, Khoo C, Glad H, Dahlqvist C, Juppo AM. Evaluation of controlled-release polar lipid microparticles. Int J Pharm, 2002;244:151–61
- Souto E, Mehnert W, Muller RH. Polymorphic behaviour of Compritol 888 ATO as bulk lipid and as SLN and NLC. J Microencapsul, 2006;23:417–33
- Üner M, Yener G. Importance of solid lipid nanoparticles (SLN) in various administration routes and future perspectives. Int J Nanomedicine, 2007;2:289–300
- USP Ibuprofen Tablets. United States Pharmacopeia and National Formulary (USP 29-NF 24)
- Vithani K, Maniruzzaman M, Slipper IJ, Mostafa S, Miolane C, Cuppok Y, Marchaud D, Douroumis D. Sustained release solid lipid matrices processed by hot-melt extrusion (HME). Colloids Surf B Biointerfaces, 2013;110:403–10
- Wilding IR, Hardy JG, Sparrow RA, Davis SS, Daly PB, English JR. In vivo evaluation of enteric-coated naproxen tablets using gamma scintigraphy. Pharm Res, 1992;9:1436–41
- Wong PCH, Heng PWS, Chan LW. Determination of solid state characteristics of spray-congealed ibuprofen solid lipid microparticles and their impact on sustaining drug release. Mol Pharm, 2015;12:1592–604
- Wong TW, Heng PWS. 2013. Melt processes for oral solid dosage forms. In: Schulman SG, Beernink GJPJ, eds. Encyclopedia of pharmaceutical science and technology. 4th ed. New York: Taylor & Francis , pp. 2093–9
- Yener G, Incegul T, Yener N. Importance of using solid lipid microspheres as carriers for UV filters on the example octyl methoxy cinnamate. Int J Pharm, 2003;258:203–7