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Implementation of FDA's Design Control requirements (21 CFR 820.30) changed an entire industry. Quality System Requirements defined the approach to medical device validation. Product design, manufacturing process, and test method validation studies must be performed before or as a product is transferred to commercial production. Validation studies must demonstrate that product design, process, and test methods/requirements/specifications determined during development can be met in the environment of intended use. This book provides practical guidance on how to develop and validate product designs, manufacturing processes, and test methods that comply with the requirements of QSR.
Implementation of FDA's Design Control requirements (21 CFR 820.30) changed an entire industry. Quality System Requirements defined the approach to medical device validation. Product design, manufacturing process, and test method validation studies must be performed before or as a product is transferred to commercial production. Validation studies must demonstrate that product design, process, and test methods/requirements/specifications determined during development can be met in the environment of intended use. This book provides practical guidance on how to develop and validate product designs, manufacturing processes, and test methods that comply with the requirements of QSR.
Reference text on validation processes for manufacturing medical devices.
HereOCOs the first book written specifically to help medical device and software engineers, QA and compliance professionals, and corporate business managers better understand and implement critical verification and validation processes for medical device software.Offering you a much broader, higher-level picture than other books in this field, this book helps you think critically about software validation -- to build confidence in your softwareOCOs safety and effectiveness. The book presents validation activities for each phase of the development lifecycle and shows: why these activities are important and add value; how to undertake them; and what outputs need to be created to document the validation process.From software embedded within medical devices, to software that performs as a medical device itself, this comprehensive book explains how properly handled validation throughout the development lifecycle can help bring medical devices to completion sooner, at higher quality, in compliance with regulations."
This updatable reference work gives a comprehensive overview of all relevant regulatory information and requirements for manufacturers and distributors around medical and in-vitro diagnostic devices in Europe. These individual requirements are presented in a practice-oriented manner, providing the reader with a concrete guide to implementation with main focus on the EU medical device regulations, such as MDR 2017/745 and IVD-R 2017/746, and the relevant standards, such as the ISO 13485, ISO 14971, among others. This book offers a good balance of expert knowledge, empirical values and practice-proven methods. Not only it provides readers with a quick overview about the most important requirements in the medical device sector, yet it shows concrete and proven ways in which these requirements can be implemented in practice. It addresses medical manufacturing companies, professionals in development, production, and quality assurance departments, and technical and medical students who are preparing themselves for a professional career in the medical technlogy industries.
As medical devices increase in complexity, concerns about efficacy, safety, quality, and longevity increase in stride. Introduced nearly a decade ago, Reliable Design of Medical Devices illuminated the path to increased reliability in the hands-on design of advanced medical devices. With fully updated coverage in its Second Edition, this practical guide continues to be the benchmark for incorporating reliability engineering as a fundamental design philosophy. The book begins by rigorously defining reliability, differentiating it from quality, and exploring various aspects of failure in detail. It examines domestic and international regulations and standards in similar depth, including updated information on the regulatory and standards organizations as well as a new chapter on quality system regulation. The author builds on this background to explain product specification, liability and intellectual property, safety and risk management, design, testing, human factors, and manufacturing. New topics include design of experiments, CAD/CAM, industrial design, material selection and biocompatibility, system engineering, rapid prototyping, quick-response manufacturing, and maintainability as well as a new chapter on Six Sigma for design. Supplying valuable insight based on years of successful experience, Reliable Design of Medical Devices, Second Edition leads the way to implementing an effective reliability assurance program and navigating the regulatory minefield with confidence.
The original edition of this text, Clinical Evaluation of Medical Devices: Principles and Case Studies, provided the first overview of key pr- ciples and approaches to medical device clinical trials, illustrated with a series of detailed, real-world case studies. The book is designed as a resource for clinical professionals and regulatory specialists working in the field of new medical device development and marketing. Since the first edition of this text was published in 1997, the rapid pace of inno- tion in health care technologies continues to yield exciting and important new products. The regulatory landscape has also evolved, reflecting some of the changes and needs within the medical device industry. The purpose of Clinical Evaluation of Medical Devices: Principles and Case Studies, Second Edition is to provide an updated and expanded presentation of the scientific methods and regulatory requirements applied to the study of new significant risk medical devices. The text now includes (1) new information on the requirements and process for gaining reimbursement of new products from Medicare and private insurers, with case studies of research specifically designed for this p- pose as well as health care technology assessment methods; (2) infor- tion on new statistical methodologies applied to medical device trials; and (3) all new case studies, including examples of combination pr- ucts, three-phase development models (i. e. , feasibility, FDA approval, Medicare reimbursement), and novel study designs.
Since the publication of the first edition, the FDA and other regulatory groups have modified their regulations and expectations regarding how medical device manufacturers should approach usability testing. Reflecting these changes, this second edition provides updated guidance to medical device manufacturers and other interested readers. Key updates include new requirements, detailed instructions for linking usability test tasks to risk analysis results, and methods for analyzing root causes of use errors that occur during usability tests. The book’s authors are well-known thought leaders in the medical device industry.
At over 200 pages, this pocket book will bring you up to speed quickly on the requirements of process validation. It is divided into logical chapters that sets out the journey of validation in a clear fashion. Many components of Validation for medical devices are transferable. Understanding the fundamental principles of validation allows the reader to apply them to different products and different manufacturing processes. This book is ideal for professionals new to Process Validation. Although it has a practical approach, it is also suited to the academic. Chapter 1: Validation Planning, Chapter 2: Facilities And Utilities Qualification Chapter 3: Equipment And Software Validation Chapter 4: Process Validation Chapter 5: Packaging Validation Chapter 6: Test Method Validation Chapter 7: Measurement Chapter 8: ISO 13485 Chapter 9: Lean