During the past decades, enormous progress and enhancement of pharmaceutical manufacturing equipment and its use have been made. And while there are support documents, books, articles, and online resources available on the principles of cleaning and associated processing techniques, none of them provides a single database with convenient, ready-to-
Pharmaceutical manufacturers and upper management are encouraged to meet the challenges of the science-based and risk-based approaches to cleaning validation. Using some of the principles and practices in this volume will help in designing a more effective and efficient cleaning validation program. Features • Timely coverage of cleaning validation for the pharmaceutical industry, a dynamic area in terms of health-based limits. • The author encourages pharmaceutical manufacturers, and particularly upper management, to meet the challenges of the science-based and riskbased approaches to cleaning validation. • Draws on the author’s vast experience in the field of cleaning validation and hazardous materials. • Discusses EMA vs. ISPE on Cleaning Limits and revised Risk-MaPP for highly hazardous products in shared facilities. • A diverse list of topics from protocol limits for yeasts and molds to cleaning validation for homeopathic drug products.
This book is intended to serve as a source of practical, technicalinformation for those persons in the biotechnology industry. Casestudies and/ or actual industry examples are used to support the textwherever possible. While much of the material contained within thistext is equally applicable to nonbiopharmaceutical processes, theemphasis has been focused directly upon biopharmaceuticalmanufacturing.Section I provides an in-depth analysis of the design concepts thatlead to cleanable equipment. Also covered in the tirst section arecleaning mechanisms and cleaning systems. The first section isparticularly useful to those persons faced with the task of designingsystems that will be cleaned and also provides the biochemicaloockground of the mechanisms associated with the removal of commonbiotechnology soils.Section II focuses on cleaning validation concepts. While thematerial is equally useful for single product cleaning, emphasis isplaced upon multiproduct cleaning validation. Included in Section IIare general validation principles as thex apply to cleaning validation,detailed analxsis of cleaning process validation, sampling techniques,analytical methods and acceptance criteria. The material in this sectionwill be useful to anyone responsible for the development of a cleaningvalidation program.The final section, Section Ill, provides an overview of multiproductbiotechnology manufacturing procedures. Included in this section is ananalysis of tne risk-to-benefit scenarios associated with the various formsof product manufacturing, analysis of changeover programs, ~uipmentconsiderations, and material transfer systems as they are affected bymultiproduct manufacturing strategies.
Written by an expert for those who must design validatable cleaning processes and then validate those processes, this book discusses interdependent topics from various technical areas and disciplines. It shows how each piece of the cleaning process fits into the validation program, making it more defensible in both internal quality audits and external regulatory audits. Designed for use in the overall validation program, the book demonstrates how to build a comprehensive program, and includes discussion and examples of cleaning systems, regulatory requirements, and special topics and issues. It provides an FDA cleaning validation guidance document and a comprehensive glossary.
Offering a detailed, step-by-step guide to building a compliant cleaning validation program, Cleaning Validation: A Practical Approach covers trends in control, procedures, cleaning agents and tools, sampling techniques, analytical methods, and regulatory issues. The author provides practical examples, database formats, standard operating procedures, work instructions, protocols, and reports. He gives readers the tools they need to develop an effective and manageable program that will not only be acceptable to both US and non-US regulatory authorities but will conserve an organization's time, money, and people resources.
Completely revised and updated to reflect the significant advances in pharmaceutical production and regulatory expectations, this third edition of Validation of Pharmaceutical Processes examines and blueprints every step of the validation process needed to remain compliant and competitive. The many chapters added to the prior compilation examine va
As device sizes in the semiconductor industries are shrinking, they become more vulnerable to smaller contaminant particles, and most conventional cleaning techniques employed in the industry are not as effective at smaller scales. The book series Developments in Surface Contamination and Cleaning as a whole provides an excellent source of information on these alternative cleaning techniques as well as methods for characterization and validation of surface contamination. Each volume has a particular topical focus, covering the key techniques and recent developments in the area. The chapters in this Volume address the sources of surface contaminants and various methods for their collection and characterization, as well as methods for cleanliness validation. Regulatory aspects of cleaning are also covered. The collection of topics in this book is unique and complements other volumes in this series. Edited by the leading experts in small-scale particle surface contamination, cleaning and cleaning control, these books will be an invaluable reference for researchers and engineers in R&D, manufacturing, quality control and procurement specification situated in a multitude of industries such as: aerospace, automotive, biomedical, defense, energy, manufacturing, microelectronics, optics and xerography. Provides a state-of-the-art survey and best-practice guidance for scientists and engineers engaged in surface cleaning or handling the consequences of surface contamination Addresses the continuing trends of shrinking device size and contamination vulnerability in a range of industries, spearheaded by the semiconductor industry and others Includes new regulatory aspects
There are unique challenges in the formulation, manufacture, analytical chemistry, and regulatory requirements of low-dose drugs. This book provides an overview of this specialized field and combines formulation, analytical, and regulatory aspects of low-dose development into a single reference book. It describes analytical methodologies like dissolution testing, solid state NMR, Raman microscopy, and LC-MS and presents manufacturing techniques such as granulation, compaction, and compression. Complete with case studies and a discussion of regulatory requirements, this is a core reference for pharmaceutical scientists, regulators, and graduate students.
This text lists the necessary steps for meeting compliance requirements during the drug development process. It presents comprehensive approaches for validating analytical methods for pharmaceutical applications.