References
- Lalak, N.J.; Morris, D.L. Azithromycin clinical pharmacokinetics. Clinical Pharmacokinetics 1993, 25, 370–374.
- Peters, D.H.; Friedel, H.A.; McTavish, D. Azithromycin: A review of its antimicrobial activity, pharmacokinetic properties and clinical efficacy. Drugs 1992, 44, 750–799.
- Drew, R.H.; Gallis, H.A. Azithromycin: Spectrum of activity, pharmacokinetics, and clinical applications. Pharmacotherapy 1992, 12, 161–173.
- Fiese, E.F.; Steffen, S.H. Comparison of the acid stability of azithromycin and erythromycin A. Journal of Antimicrobial Chemotherapy 1990, 25, 39–47.
- Čulić, O.; Eraković, V.; Parnham, M.J. Anti-inflammatory effects of macrolide antibiotics. European Journal of Pharmacology 2001, 429, 209–229.
- Bartold, P.M.; du Bois, A.H.; Gannon, S.; Haynes, D.R.; Hirsch, R.S. Antibacterial and immunomodulatory properties of azithromycin treatment implications for periodontitis. Inflammopharmacology 2013, 21, 321–338.
- Langley, J.M.; Halperin, S.A.; Boucher, F.D.; Smith, B. Azithromycin is as effective as and better tolerated than erythromycin estolate for the treatment of pertussis. Pediatrics 2004, 114, 96–101.
- Zhang, Y.; Liu, X.L.; Cui, Y.; Huang, H.F.; Chi, N.; Tang, X. Aspects of degradation kinetics of azithromycin in aqueous solution. Chromatographia 2009, 70, 67–73.
- Harrison, T.S.; Keam, S.J. Azithromycin extended release: A review of its use in the treatment of acute bacterial sinusitis and community-acquired pneumonia in the US. Drugs 2007, 67, 773–792.
- Lwise, D. Handbook of Pharmaceutical Controlled Release Technology; CRC Press: New York, 2000; 271.
- Oh, Y.K.; Nix, D.E.; Straubinger, R.M. Formulation and efficacy of liposome-encapsulated antibiotics for therapy of intracellular mycobacterium avium infection. Antimicrobial Agents and Chemotherapy 1995, 39, 2104–2111.
- Nirmala, M.J.; Shivashankar, M.; Mukherjee, A.; Chandrasekaran, N. Development of a suitable drug delivery system for azithromycin: formulation and characterization. International Journal of Pharmacy and Pharmaceutical Sciences 2013, 5, 598–600.
- Wasnik, S.; Parmar, P.; Singh, D.; Ram, A. Preparation and characterization of floating drug delivery system of azithromycin. Acta Poloniae Pharmaceutica 2012, 69, 515–522.
- Zhang, Z.; Zhu, Y.; Yang, X.; Li, C. Preparation of azithromycin microcapsules by a layer-by-layer self-assembly approach and release behaviors of azithromycin. Colloids and Surfaces A: Physicochemical and Engineering Aspects 2010, 362, 135–139.
- Hu, L.; Pan, J.; Liu, C.; Xu, H.; Luo, L. Preparation, characterization and taste-masking properties of microspheres containing azithromycin. Journal of Pharmacy and Pharmacology 2009, 61, 1631–1635.
- Gao, Y.; Cui, F.D.; Guang, Y.; Yang, L.; Wang, Y.S.; Zhang, L.N. Preparation of roxithromycin-polymeric microspheres by the emulsion solvent diffusion method for taste masking. International Journal of Pharmaceutics 2006, 318, 62–69.
- Nath, S.; Satpathy, G.R. A systematic approach for investigation of spray drying processes. Drying Technology 1998, 16, 1173–1193.
- Kaushik, D.; Dureja, H. Taste masking of bitter pharmaceuticals by spray drying technique. Journal of Chemical and Pharmaceutical Research 2015, 7, 950–956.
- Souza, C.R.F.; Oliveira, W.P. Microencapsulation of ketoprofen in blends of acrylic resins by spray drying. Drying Technology 2012, 30, 263–275.
- Ré, M.I. Formulating drug delivery system by spray drying. Drying Technology 2006, 24, 433–446.
- Cortés-Rojas, D.F.; Oliveira, W.P. Physicochemical properties of phytopharmaceutical preparations as affected by drying methods and carriers. Drying Technology 2012, 30, 921–934.
- Bora, D.; Borude, P.; Bhise, K. Taste masking by spray-drying technique. AAPS PharmSciTech 2008, 9, 1159–1164.
- Soottitantawat, A.; Yoshii, H.; Furuta, T.; Ohgawara, M.; Forssell, P.; Partanen, R.; Poutanen, K.; Linko, P. Effect of water activity on the release characteristics and oxidative stability of D-limonene encapsulated by spray drying. Journal of Agricultural and Food Chemistry 2004, 52(5), 1269–1276.
- Zgoullia, S.; Grek, V.; Barre, G.; Goffinet, G.; Thonart, P.H.; Zinner, S. Microencapsulation of erythromycin and clarithromycin using a spray-drying technique. Journal of Microencapsulation 1999, 16, 565–571.
- Sollohubi, K.; Janczyk, M.; Kutyla, A.; Wosicka, H.; Closek, P.; Cal, K. Taste masking of roxitromycin by spray drying technique. Acta Poloniae Pharmaceutica 2011, 68, 601–604.
- Zhao, M.; You, Y.; Ren, Y.; Zhang, Y.; Tang, X. Formulation, characteristics and aerosolization performance of azithromycin DPI prepared by spray-drying. Powder Technology 2008, 187, 214–221.
- Biradar, S.V.; Patil, A.R.; Sudarsan, G.V.; Pokharkar, V.B. A comparative study of approaches used to improve solubility of roxithromycin. Powder Technology 2006, 169, 22–32.
- Darabi, H.R.; Saghafinia, A.E.; Aghaiee, A.; Khatamifar, E. Process for the Purification of Azithromycin by Separation from Its Thermal Degradation Products and/or Isomers; Shifa Pharmed Industrial Group Co, Terramark Markencreation Gmbh, 2011; WO2011/015219–PCT/EP2009/005710.
- Darabi, H.R.; Roozkhosh, A.; Tehrani, M.J.; Aghapoor, K.; Sayahi, H.; Balavar, Y.; Mohsenzadeh, F. Characterization of ester- or thioamide-functionalized single-walled carbon nanotube-azithromycin conjugates. Applied Surface Science 2014, 288, 122–129.
- Sultana, N.; Arayne, M.S.; Hussain, F.; Fatima, A. Degradation studies of azithromycin and its spectrophotometric determination in pharmaceutical dosage forms. Pakistan Journal of Pharmaceutical Sciences 2006, 19, 98–103.
- Vedha Hari, B.N.; Narayanan, N.; Dhevedaran, K. Efavirenz–eudragit E-100 nanoparticle-loaded aerosol foam for sustained release: In-vitro and ex-vivo evaluation. Chemical Papers 2015, 69, 358–367.
- Zhang, S.; Xiong, P.; Yang, X.; Wang, X. Novel PEG functionalized graphene nanosheets: Enhancement of dispersibility and thermal stability. Nanoscale 2011, 3, 2169–2174.
- Joshi, G.V.; Kevadiya, B.D.; Bajaj, H.C. Controlled release formulation of ranitidine-containing montmorillonite and eudragit E-100. Drug Development and Industrial Pharmacy 2010, 36, 1046–1053.
- Siepmann, J.; Peppas, N.A. Modeling of drug release from delivery systems based on hydroxypropyl methylcellulose (HPMC). Advance Drug Delivery Reviews 2012, 64, 163–174.
- Fu, Y.; Kao, W.J. Drug release kinetics and transport mechanisms of non-degradable and degradable polymeric delivery systems. Expert Opinion on Drug Delivery 2010, 7, 429–444.
- Dash, S.; Murthy, P.N.; Nath, L.; Chowdhur, P. Kinetic modeling on drug release from controlled drug delivery systems. Acta Poloniae Pharmaceutica 2010, 67, 217–223.
- Siepmann, J.; Siepmann, F. Mathematical modeling of drug delivery. International Journal of Pharmaceutics 2008, 364, 328–343.
- Royer, B.; Cardoso, N.F.; Lima, E.C.; Macedo, T.R.; Airoldi, C. Sodic and acidic crystalline lamellar magadiite adsorbents for the removal of methylene blue from aqueous solutions: Kinetic and equilibrium studies. Separation Science and Technology 2009, 45, 129–141.