Evaluación de efecto del proceso de compresión sobre la cinética de disolución de tabletas de Furosemida de liberación inmediata

Fonseca Acevedo, Juan Camilo

dc.contributor.advisor	Garzón López, Paola Soraya
dc.contributor.author	Fonseca Acevedo, Juan Camilo
dc.date.accessioned	2016-02-19T22:48:52Z
dc.date.available	2015
dc.date.available	2016-02-19T22:48:52Z
dc.date.created	2015
dc.date.issued	2016-02-19
dc.identifier.citation	Akbuga, J.; Gursoy, A. (1987) Stdies on Furosemide Tablets I Dissolutions of Commercial Products and Different Formulations. Drug Development and Industrial Pharmacy. 13 (12), 2199-2208. doi:10.3109/03639048709020580
dc.identifier.citation	Andreoli, T.; Takao, R.; De Oliveria W. (June 2014). Impact evaluation of changes in the manufacturing line of Cyproterone acetate through analysis of comparative dissolution profile. Athens, Journal of Natural & Formal Sciences, p 107 - 113
dc.identifier.citation	Bahr, M. (September 2011). A design of experiments for tablet compression. Pharmaceutical Technology, 35, Issue 10, p104.
dc.identifier.citation	Amidon, GL.; Lennernas, H.; Shah, VP.; Crison JR. (1995). A theoretical basis for a biopharmaceutic drug classification: the correlation of in vitro drug product dissolution and in vivo bioavailability. Pharm Res, 12, 413.
dc.identifier.citation	Badawy, SI.; Menning, M.M., Gorko M,A., Gilbert, D.L. (2000). Effect of process parameters on compressibility of granulation manufactured in a high-shear mixer. International Journal of Pharmaceutics. 198 (1), 51-61
dc.identifier.citation	Basavaraj, K.; Nanjwade.; Shamrez, Ali M.; Veerendra, K. Nanjwade.; FV Manvi. (2010), Effect of Compression Pressure on Dissolution and Solid State Characterization of Cefuroxime Axetil. Journal of Analytical & Bioanalytical Techniques, 1(2), 001.
dc.identifier.citation	Blossom, P (2002), Thermal and photostability studies of furosemide and its cyclodextrin mixtures. A thesis submitted in fulfilment of the requirements for the degree of Master of Science of Rhodes University.
dc.identifier.citation	Departamento de Salud y Servicios Humanos de los Estados Unidos Administración de Alimentos y Drogas, Centro de Evaluación e Investigación de Drogas (CDER), (1997). Guía para la Industria: Pruebas de disolución de formas de dosificación oral sólidas de liberación inmediata.
dc.identifier.citation	Carcamo E.C.; (1981), Cinética de disolución de medicamentos, Secretaria General de la Organización de los Estados Americanos, Monografia # 24.
dc.identifier.citation	Evelghem, Johan Van.; (2008) Improving Tablet Quality with Compression to Equal Force Technology, Supplement to Pharmaceutical Technology, Tableting and Granulation
dc.identifier.citation	FDA. (2005). Guidance for Industry. Immediate Release Solid Oral Dosage Forms Scale-Up and Postapproval Changes: Chemistry, Manufacturing, and Controls, In Vitro Dissolution Testing, and In Vivo Bioequivalence Documentation. (SUPAC-IR).
dc.identifier.citation	FDA. (2012) Quality by Design for NADAs: An example for Inmediate-Release Dosage Forms. 80-90
dc.identifier.citation	FDA. (2015) Dissolution Testing and Specification Criteria for Immediate-Release Solid Oral Dosage Forms Containing Biopharmaceutics Classification System Class 1 and 3 Drugs. Guide for the Industry
dc.identifier.citation	Forner, S. Salazar, R. (1999). Estudio comparativo del diseño de máquinas de comprimir rotativas. Industria farmacéutica, Equipos, Procesos y Tecnología. 14 (6): 83-90
dc.identifier.citation	Ganesh, Ch. C.; Kundan, P.; Dhananjay, S.; Ghodke, Pramod, Govindrao Y.; Ashok, V. B.; Sharwaree, R. H.; (2008), Effect of some physical parameters and crospovidone on directly compressed furosemide tablets. Assian Journal of Pharnaceutics. 2 (4), 235-240.
dc.identifier.citation	Ganesh, Ch.; Kundan, P.; Dhananjay Gh., Khan Sh.; Yeole, P.; (October 2008), Preparation and characterization of solid dispersion tablet of Furosemide with Crospovidone. Research Journal Pharm and Tech, 1(4), 386-389
dc.identifier.citation	Ganesh Ch, Kudan P., Pyush Patel, Sharwaree H. (February 2009). Formulaion and evaluation of solid dispersions of Furosemide in Sodium starch glycolate. Tropical Journal of Pharmaceutical Research, 8 (1), 43-52
dc.identifier.citation	Granero, G. E.; Longhi, M.R.; Mora, M. J.; Jungiger, H.E.; Midha, K.K.; Shah, V.P.; Stabchansky, S.; Dressman, J.B; Barends, D.M.; (2010). Biowaiver Monographs for Immediate Release Solid Oral Dosage Forms: Furosemide, Journal of Pharmaceutical Science, 2010.
dc.identifier.citation	Heinz. R; Wolf. H; Schuchmann. H; End. L and Kolter. K;. (2000). Formulation and development of tablets based on Ludipress and scale up from laboratory to production scale. Drug Development and Industrial Pharmacy, 26(5), 513-521.
dc.identifier.citation	Harbir, K.; Gurpreetl, S.; Rana, A.; Seema, S.; (2012). Pharmaceutical tablets and tablet compression machines: a review. Novel Science International Journal of Pharmaceutical Science, 1(8),529-536.
dc.identifier.citation	Javadzadeh Y., Nokhodchi A.. ( Jan, 2007). The effect of storage conditions on the physical stability of tablets. Pharmaceutical Technology Europe, Volume 19, Issue 1, 20-26.
dc.identifier.citation	Kapil, R.; Bare, Yogeshkumar A.; Biranwar, H D.; Salunke, P L.; Ughade, Dheeraj T. Baviskar.; (2011). Compression parameters involved in powder compression and manufacturing of tablet, International Journal of Pharmaceutical Sciences Review and Research, 7,(2), 425- 428.
dc.identifier.citation	Koradia V, Tenho M, Lopez de Diego H, Ringkjøbing-Elema M, Møller-Sonnergaard J, Salonen J, Lehto VP, Rantanen J. (2012). Investigation of solid phase composition on tablet surfaces by grazing incidence X-ray diffraction. Pharm Research 29 (1):134-44. doi: 10.1007/s11095-011-0520-8.
dc.identifier.citation	Kesavan K.; Rao UV.; Bindu K.; Rajinikanth PS.; Wani M.; Balasubramaniam J.; (2008). Immediate Release Tablets of Valsartan and Efavirenz: Role of Concentration of Superdisintegrants, Ars Pharm 2008; 49 (3): 229-243
dc.identifier.citation	Marais, A. F.; Song, M.; De Villiers.; Melgardt, M.; (2003). Effect of compression force, humidity and desintegrant concentration on the disintegration and dissolution of directly compressed Furosemide tablets using Croscarmellose sodium as desintegrant. Tropical Journal of Pharmaceutical Research, 2 (1)
dc.identifier.citation	Martin, BK.; Uihlein, M.; Ings RM.; Stevens LA.; McEwen J.; (1984). “Comparative bioavailability of two furosemide formulations in Humans”. J. Pharm Sci 73:437–441.
dc.identifier.citation	Matsuda, Y.; Tatsumi, E.; (1990) Physicochemical characterization of furosemide modifications. International Journal of Pharmaceutical Sciences, 60 (11), 26-32.
dc.identifier.citation	Marín, L. (2011). Farmacia Química. Consultado el día 1 del mes (04) de (2014) de la World Wide Web (Dirección Nacional de Innovación Académica - Universidad Nacional de Colombia): http://www.virtual.unal.edu.co
dc.identifier.citation	Mendyk, A. Jachowicz, R. Fijorek, K. (February 2012). KinetDS: An open source software for Dissolution test data analysis. Dissolution Technologies, 1, 7-11
dc.identifier.citation	Mohan, Sh. (2012). Compression physics of pharmaceutical powders: a review. International journal of pharmaceutical sciences and research, 3, Issue 06 pag 1580 - 1592.
dc.identifier.citation	Nokhodchi A.. (January, 2005). An Overview of the Effect of Moisture on Compaction and Compression. Pharmaceutical Technology , 1, 46-66.
dc.identifier.citation	Oka, S., Pawar, P., Boukouvala, F., Muzzio, F. J. (2012). Effect of Lubricant Mixing Time and Concentration, Compaction Speed and Compression Force on the Dissolution Profile of a Control Release Formulation, Rutgers, The State University of New Jersey, originalmente presentado en: Annual Meeting, American Institute of Chemical Engineers
dc.identifier.citation	Palmieri, G. F.; Joiris, E.; Bonacucina G.; M. Cespi.; Mercuri, A.; (2005) Differences between eccentric and rotary tablet machines in the evaluation of powder densification behaviour”. International Journal of Pharmaceutics. 298, 164–175.
dc.identifier.citation	Perioli L., D´alba G., Pagano C. (April 2012). New oral solid dosage form for furosemide oral administration. European Journal of Pharmaceutics and Biopharmaceutics, Volume 80, Issue 3, 621–629.
dc.identifier.citation	Porter, C.; Verseput, R.; Cunnigham, Ch. (October, 1997). Process optimization usign design of experiments. Pharmaceutical technology research, p 1 - 7.
dc.identifier.citation	Qureshi, S.A.; McGilveray, I.J.; (1998) “Assessment of Pharmaceutical Quality of Furosemide Tablets from Multinational Markets”, 24(11), 995-1005 Therapeutic Products Directorate, Health Protection Branch (PL #220201), Health Canada, Ottawa, K1A 0L2, Canada.
dc.identifier.citation	Rakesh P. Patel, Dhaval J. Patel, Dipen B. Bhimani, and Jayvadan K. Patel. (August 2009). Physicochemical characterization and dissolution study of solid dispersions of Furosemide with polyethylene glycol 6000 and polyvinylpyrrolidone K30. Dissolution Technologies, 17- 25.
dc.identifier.citation	Raviña, R. (2008). Medicamentos, Un viaje a lo largo de la evolución histórica del descubrimiento de fármacos, Universidad Santiago de Compostela, Servizo de Publicaciones e Intercambio Científico.
dc.identifier.citation	Santl, M.; Ilic, I., Baumgartner.; S. A. (2011). Compressibility and compactibility study of real tableting mixtures: the impact of wet and dry granulation versus a direct tableting mixture. International Journal of Pharmaceutics. 414 (1-2):131-9. doi: 10.1016/j.ijpharm.2011.05.025.
dc.identifier.citation	Singh, G.; Pai, R.; V, Kusum.. (January 2012). Response surface methodology and process optimization of sustained release pellets using Taguchi orthogonal array design and central composite design. Journal of Advanced Pharmaceutical Technology & Research., 3, Issue 1, p 30-40.
dc.identifier.citation	Sovány, T.; Kása P.; Pintye-Hódi, K.; (2009), “Comparison of the Halving of Tablets Prepared with Eccentric and Rotary Tablet Presses”, AAPS PharmSciTech. 2009 June; 10(2), 430–436.
dc.identifier.citation	De Souza, T.; Franco, V.; Panizzon, C.; Balzan, S.. (March, 2011). A statistical approach to evaluating the manufacture of Furosemide tablets. Pharmaceutical Technology., 35, Issue 3, p 112-121.
dc.identifier.citation	Suresh, P. (2012), Effect of Compression Force on Agglomeration of Micronized Active Pharmaceutical Ingredients: Techniques to Prevent API Agglomeration during Compression. A Dissertation Presented for The Graduate Studies Council The University of Tennessee Health Science Center.
dc.identifier.citation	The United States Pharmacopeial Convention, Inc. 2015, USP 38 - NF 33. The United States Pharmacopeia—The National Formulary, Rockville MD.
dc.identifier.citation	Universidad de Antioquia, (2010) Guías del curso Farmacotecnia I, Medellin, Colombia.
dc.identifier.citation	U.S. Department of Health and Human Services, Food and Drug Administration, Center for Drug Evaluation and Research (CDER), (2013) Draft Guidance for Industry, SUPAC: Manufacturing Equipment Addendum
dc.identifier.citation	Van der Watt, J.G.; De Villiers, M.; (1995). The Effect of Mixing Variables on the Dissolution Properties of Direct Compression Formulations of Furosemide. Drug Development and Industrial Pharmacy, 21(18), 2047
dc.identifier.citation	World Health Organization. (2013), Model List of Essential Medicines, 18th list.
dc.identifier.citation	Yihong Qiu,Yisheng.; Chen, Geoff G.Z.; Zhang,Lirong Liu.; William Porter.; ( 2009 ), Developing Solid Oral Dosage Forms: Pharmaceutical Theory & Practice, First edition, Academic Press.
dc.identifier.uri	http://hdl.handle.net/10818/22336
dc.description	109 páginas incluye ilustraciones y diagramas.
dc.description.abstract	La furosemida es un fármaco poco soluble (0,01825 mg/mL) que presenta baja absorción a nivel del tracto gastrointestinal (categoría IV del sistema internacional de clasificación biofarmacéutica). Se encuentra catalogado en el grupo de activos en los cuales un cambio en la formulación del producto requiere la realización de estudios de Bioequivalencia para su aprobación. (Granero, G.E., 2010). En la actualidad la furosemida se comercializa en forma de tabletas. Por esto debe ser sometida a un proceso de compresión (tableteado) que depende principalmente de la fuerza transmitida y la velocidad del proceso. La fuerza aplicada causa un incremento del tamaño de partícula por aglomeración del activo y en consecuencia la reducción de la velocidad de disolución del mismo (S. Potharaju 2012). Teniendo en cuenta lo anterior se estudió el efecto de la velocidad y la fuerza de compresión sobre las propiedades más relevantes (dureza, friabilidad, desintegración y cinética de disolución) en tabletas de furosemida. El estudio también evaluó el efecto del mecanismo de compresión asociado al cambio de equipo y escala del proceso entre tableteadoras excéntricas y tableteadoras rotativas de mayor rendimiento. Nota: Para consultar la carta de autorización de publicación de este documento por favor copie y pegue el siguiente enlace en su navegador de internet: http://hdl.handle.net/10818/22337	es_CO
dc.language.iso	spa	es_CO
dc.publisher	Universidad de la Sabana
dc.source	Intellectum Repositorio Universidad de la Sabana
dc.source	Universidad de la Sabana
dc.subject	Furosemida
dc.subject	Medicamentos -- Administración -- Colombia
dc.subject	Medicamentos -- Administración -- Investigaciones -- Colombia
dc.title	Evaluación de efecto del proceso de compresión sobre la cinética de disolución de tabletas de Furosemida de liberación inmediata	es_CO
dc.type	masterThesis
dc.publisher.program	Maestría en Diseño y Gestión de Procesos	es_CO
dc.publisher.department	Facultad de Ingeniería	es_CO
dc.identifier.local	261650
dc.identifier.local	TE08060
dc.type.local	Tesis de Maestría
dc.type.hasVersion	publishedVersion
dc.rights.accessRights	openAccess
dc.creator.degree	Magíster en Diseño y Gestión de Procesos