Bibliographic citations
Farfan, M., (2023). Diseño e implementación de un proceso de validación de limpieza basado en las Buenas Prácticas de Manufactura en una planta de fabricación de líquidos y semisólidos de una empresa farmacéutica en Lima – Perú [Universidad Peruana Cayetano Heredia]. https://hdl.handle.net/20.500.12866/14372
Farfan, M., Diseño e implementación de un proceso de validación de limpieza basado en las Buenas Prácticas de Manufactura en una planta de fabricación de líquidos y semisólidos de una empresa farmacéutica en Lima – Perú []. PE: Universidad Peruana Cayetano Heredia; 2023. https://hdl.handle.net/20.500.12866/14372
@misc{renati/910917,
title = "Diseño e implementación de un proceso de validación de limpieza basado en las Buenas Prácticas de Manufactura en una planta de fabricación de líquidos y semisólidos de una empresa farmacéutica en Lima – Perú",
author = "Farfan Galvez, Maria Elena",
publisher = "Universidad Peruana Cayetano Heredia",
year = "2023"
}
Cross-contamination is a determining problem in the pharmaceutical industry due to the negative impact it has on the safety and efficacy of the drug, as well as the adverse drug reactions that it could cause in patients. To avoid this, validated cleaning procedures must be in place, in accordance with the requirements of the World Health Organization reflected as a requirement in Good Manufacturing Practices (GMP). Therefore, the present study aims to develop a validation of the cleaning process in a liquid and semisolids plant in a pharmaceutical industry in Lima. This work of professional sufficiency results from my work experience in the Validation Department of a pharmaceutical industry, which was soon opening a new headquarters, and for which a cleaning validation was required in accordance with the guidelines of the BPM. Therefore, it seeks to design, implement and verify compliance with a cleaning validation based on the requirements of the BPM. For the design, quality management tools were used to define the "worst case" asset and the critical sampling points; in addition to determining the acceptable limit of residues on clean equipment and critical parameters of the cleaning process. Next, the protocol was implemented, supporting the professional aptitude acquired during undergraduate education. Finally, compliance with the specifications was verified on the samples taken from the equipment after the cleaning procedure was carried out. The findings demonstrated that the cleaning procedures are effective, reproducible and guarantee the elimination of physical, chemical and microbiological residues up to 4 permissible limits. This documentation rules out the risk of cross contamination and its consequences on the health of patients.
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