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| design history file medical device: Design Controls for the Medical Device Industry Marie Teixeira, Richard Bradley, 2002-09-20 This reference provides real-world examples, strategies, and templates for the implementation of effective design control programs that meet current ISO 9000 and FDA QSR standards and regulations-offering product development models for the production of safe, durable, and cost-efficient medical devices and systems. Details procedures utilize |
| design history file medical device: Handbook of Medical Device Design Richard C. Fries, 2019-08-15 First published in 2001: This handbook has been written to give those professionals working in the development and use of medical devices practical knowledge about biomedical technology, regulations, and their relationship to quality health care. |
| design history file medical device: Design Controls for the Medical Device Industry, Third Edition Marie B. Teixeira, 2019-08-02 This third edition provides a substantial comprehensive review of the latest design control requirements, as well as proven tools and techniques to ensure a company's design control program evolves in accordance with current industry practice. It assists in the development of an effective design control program that not only satisfies the US FDA Quality Systems Regulation (QSR) and 13485:2016 standards, but also meets today's Notified Body Auditors' and FDA Investigators' expectations. The book includes a review of the design control elements such as design planning, input, output, review, verification, validation, change, transfer, and history, as well as risk management inclusive of human factors and usability, biocompatibility, the FDA Quality System Inspection Technique (QSIT) for design controls, and medical device regulations and classes in the US, Canada, and Europe. Practical advice, methods and appendixes are provided to assist with implementation of a compliant design control program and extensive references are provided for further study. This third edition: Examines new coverage of ISO 13485-2016 design control requirements Explores proven techniques and methods for compliance Contributes fresh templates for practical implementation Provides updated chapters with additional details for greater understanding and compliance Offers an easy to understand breakdown of design control requirements Reference to MDSAP design control requirements |
| design history file medical device: Design Controls for the Medical Device Industry Marie B. Teixeira, Marie Teixeira, Richard Bradley, 2013-11-12 The second edition of a bestseller, Design Controls for the Medical Device Industry provides a comprehensive review of the latest design control requirements, as well as proven tools and techniques to ensure your company's design control program evolves in accordance with current industry practice. The text assists in the development of an effectiv |
| design history file medical device: Medical Device Design , 2012-12-17 This book provides the bridge between engineering design and medical device development. There is no single text that addresses the plethora of design issues a medical devices designer meets when developing new products or improving older ones. It addresses medical devices' regulatory (FDA and EU) requirements--some of the most stringent engineering requirements globally. Engineers failing to meet these requirements can cause serious harm to users as well as their products’ commercial prospects. This Handbook shows the essential methodologies medical designers must understand to ensure their products meet requirements. It brings together proven design protocols and puts them in an explicit medical context based on the author's years of academia (R&D phase) and industrial (commercialization phase) experience. This design methodology enables engineers and medical device manufacturers to bring new products to the marketplace rapidly. The medical device market is a multi-billion dollar industry. Every engineered product for this sector, from scalpelsstents to complex medical equipment, must be designed and developed to approved procedures and standards. This book shows how Covers US, and EU and ISO standards, enabling a truly international approach, providing a guide to the international standards that practicing engineers require to understand Written by an experienced medical device engineers and entrepreneurs with products in the from the US and UK and with real world experience of developing and commercializing medical products |
| design history file medical device: Regulatory Affairs for Biomaterials and Medical Devices Stephen F. Amato, Robert M. Ezzell Jr, 2014-10-27 All biomaterials and medical devices are subject to a long list of regulatory practises and policies which must be adhered to in order to receive clearance. This book provides readers with information on the systems in place in the USA and the rest of the world. Chapters focus on a series of procedures and policies including topics such as commercialization, clinical development, general good practise manufacturing and post market surveillance. - Addresses global regulations and regulatory issues surrounding biomaterials and medical devices - Especially useful for smaller companies who may not employ a full time vigilance professional - Focuses on procedures and policies including risk management, intellectual protection, marketing authorisation, university patent licenses and general good practise manufacturing |
| design history file medical device: Contextual Inquiry for Medical Device Design Mary Beth Privitera, 2015-05-29 Contextual Inquiry for Medical Device Design helps users understand the everyday use of medical devices and the way their usage supports the development of better products and increased market acceptance. The text explains the concept of contextual inquiry using real-life examples to illustrate its application. Case studies provide a frame of reference on how contextual inquiry is successfully used during product design, ultimately producing safer, improved medical devices. - Presents the ways contextual inquiry can be used to inform the evaluation and business case of technology - Helps users understand the everyday use of medical devices and the way their usage supports the development of better products - Includes case studies that provide a frame of reference on how contextual inquiry is successfully used during the product design process |
| design history file medical device: Medical Device Design for Six Sigma Basem El-Haik, Khalid S. Mekki, 2011-09-20 The first comprehensive guide to the integration of Design for Six Sigma principles in the medical devices development cycle Medical Device Design for Six Sigma: A Road Map for Safety and Effectiveness presents the complete body of knowledge for Design for Six Sigma (DFSS), as outlined by American Society for Quality, and details how to integrate appropriate design methodologies up front in the design process. DFSS helps companies shorten lead times, cut development and manufacturing costs, lower total life-cycle cost, and improve the quality of the medical devices. Comprehensive and complete with real-world examples, this guide: Integrates concept and design methods such as Pugh Controlled Convergence approach, QFD methodology, parameter optimization techniques like Design of Experiment (DOE), Taguchi Robust Design method, Failure Mode and Effects Analysis (FMEA), Design for X, Multi-Level Hierarchical Design methodology, and Response Surface methodology Covers contemporary and emerging design methods, including Axiomatic Design Principles, Theory of Inventive Problem Solving (TRIZ), and Tolerance Design Provides a detailed, step-by-step implementation process for each DFSS tool included Covers the structural, organizational, and technical deployment of DFSS within the medical device industry Includes a DFSS case study describing the development of a new device Presents a global prospective of medical device regulations Providing both a road map and a toolbox, this is a hands-on reference for medical device product development practitioners, product/service development engineers and architects, DFSS and Six Sigma trainees and trainers, middle management, engineering team leaders, quality engineers and quality consultants, and graduate students in biomedical engineering. |
| design history file medical device: Bioscience Regulatory Law Wen De Keesee, 2021-09 The world is witnessing the big bang of scientific discovery, and biotech stocks are on fire! The bio-pharma industry employs over 4 million people just in the US. Potentially 100’s of new little biotech companies will develop new generations of medicines and medical devices while creating vast numbers of new millionaires. The new Masters of Bioscience Law & Technology Mini-MBA certificate program, provides leading edge business skills, and leadership training to help propel your career forward. In recent years entrepreneurship has been added to many MBA curriculums, but starting your own business doesn’t have to take two years in school and $100,000+ in tuition. To stimulate prospective leaders, this new program will encourage all applicants to be reviewed for scholarship opportunities. What are you waiting for! Now is the time to jump in! The Biotech “Gold Rush” is On! What are you waiting for? |
| design history file medical device: Medical Device Quality Management Systems Susanne Manz, 2018-09-27 Medical Devices Quality Management Systems: Strategy and Techniques for Improving Efficiency and Effectiveness is written for the needs of quality, compliance, and regulatory professionals in medical device companies. It includes secrets for developing an effective, yet efficient, Quality Management System (QMS) and explains how to create a vision, strategy, and tactical plans. Author Manz shares lessons on leadership, key roles and responsibilities within a medical device company, while also exploring the concepts of process ownership, individual accountability, and how to cultivate a culture of quality and compliance. This book is useful for all executive, functional leaders, and organizations in the highly regulated medical device industry. - Provides practical, real-world guidance on developing an effective and efficient Quality Management System - Presents a roadmap for QMS development - Covers techniques to assess current state - Includes discussions on tools, such as CAPA and Six Sigma that help define vision, strategy and quality plans |
| design history file medical device: Medical Device Design Peter J. Ogrodnik, 2019-10-30 Medical Device Design: Innovation from Concept to Market, Second Edition provides the bridge between engineering design and medical device development. There is no single text that addresses the plethora of design issues a medical devices designer meets when developing new products or improving older ones; this book fills that need. It addresses medical devices' regulatory (FDA and EU) requirements, shows the essential methodologies medical designers must understand to ensure their products meet requirements, and brings together proven design protocols, thus enabling engineers and medical device manufacturers to rapidly bring new products to the marketplace. This book is unique because it takes the reader through the process of medical device development, from very early stages of conceptualization, to commercialization on the global market. This rare resource can be used by both professionals and newcomers to device design. - Provides a reference to standards and regulations that have been updated, including ISO 13485:2016, FDA regulations and the European Medical Device Regulation - Includes new case studies in the areas of classifying medical devices, the design process, quality, labeling, instructions for use, and more - Presents additional content around software and biocompatibility concerns |
| design history file medical device: Validation for Medical Device and Diagnostic Manufacturers Carol V. Desain, Charmaine V. Sutton, 1997-09-30 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 |
| design history file medical device: The FDA and Worldwide Quality System Requirements Guidebook for Medical Devices Amiram Daniel, 2008-01-01 How have recent changes in domestic and international regulations affected quality management in the development and marketing of medical devices in the US and abroad? Consultants Daniel and Kimmelman take a close look at the Quality System Regulation (QsReg), the ISO 13485: 2003 standard and the ISO/TR 14969: 2004 guidance document as well as a number of US Food and Drug Administration (FDA) and Global Harmonization Task Force (GHTF) guidance documents. The authors provide extensive commentary and notes an update their material to include such topics as the incorporation of principles of risk management into the medical device organizations' quality management systems (QMSs) and considerations of combination products. Daniel and Kimmelman include full coverage of the QSReg requirements, descriptions of comparable requirements in the ISO documents, excerpts of the FDA's responses to the QSReg preamble and excerpts from FDA guidance documents related to QMSs. |
| design history file medical device: The ASQ Certified Medical Device Auditor Handbook Scott A Laman, 2021-02-05 The ASQ Certified Medical Device Auditor Handbook (formerly The Biomedical Quality Auditor Handbook) was developed by the ASQ Medical Device Division (formerly Biomedical Division) in support of its mission to promote the awareness and use of quality principles, concepts, and technologies in the medical device community. It principally serves as a resource to candidates preparing for the Certified Medical Device Auditor (CMDA) certification exam. The fourth edition of this handbook has been reorganized to align with the 2020 certification exam Body of Knowledge (BoK) and reference list. The combination of this handbook with other reference materials can provide a well-rounded background in medical device auditing. Updates to this edition include: • A discussion of data privacy, data integrity principles, and the Medical Device Single Audit Program (MDSAP) • Current information about federal and international regulations • New content regarding human factors and usability engineering, general safety and performance requirements, labeling, validation, risk management, and cybersecurity considerations • A thorough explanation of quality tools and techniques |
| design history file medical device: Medical Device Regulation Elijah Wreh, 2023-02-22 Medical Device Regulation provides the current FDA-CDRH thinking on the regulation of medical devices. This book offers information on how devices meet criteria for being a medical device, which agencies regulate medical devices, how policies regarding regulation affect the market, rules regarding marketing, and laws and standards that govern testing. This practical, well-structured reference tool helps medical device manufacturers both in and out of the United States with premarket application and meeting complex FDA regulatory requirements. The book delivers a comprehensive overview of the field from an author with expertise in regulatory affairs and commercialization of medical devices. - Offers a unique focus on the regulatory affairs industry, specifically targeted at regulatory affairs professionals and those seeking certification - Puts regulations in the context of contemporary design - Includes case studies and applications of regulations |
| design history file medical device: FDA and Intellectual Property Strategies for Medical Device Technologies Gerald B. Halt, John C. Donch, Amber R. Stiles, Lisa Jenkins VanLuvanee, Brandon R. Theiss, Dana L. Blue, 2019-01-24 This book offers comprehensive, easy to understand guidance for medical device technology innovators on how to work through the United States FDA regulatory review process, while also providing insight on the various intellectual property concerns that many medical device innovators face. In the first portion of this book, readers are introduced to important concepts concerning FDA compliance for medical devices, as well as strategies for successfully navigating the FDA regulatory review process. Specifically, the first portion discusses the expansive range of medical devices and then walks through the most common routes to market: the PMA and 510(k) application processes. In the second portion of this book, readers are introduced to the various types of intellectual property rights that are available for medical device technology inventions and innovations, and can explore ways to overcome unique intellectual property challenges faced by many medical device technology innovators. In the third portion of the book, specific strategies are discussed to navigate the interface between the FDA regulatory process and the process of obtaining intellectual property protection. This book also includes a number of descriptive examples, case studies and scenarios to illustrate the topics discussed, and is intended for use by medical device designers, developers and innovators. |
| design history file medical device: Medical Devices Seeram Ramakrishna, Lingling Tian, Charlene Wang, Susan Liao, Wee Eong Teo, 2015-08-18 Medical Devices and Regulations: Standards and Practices will shed light on the importance of regulations and standards among all stakeholders, bioengineering designers, biomaterial scientists and researchers to enable development of future medical devices. Based on the authors' practical experience, this book provides a concise, practical guide on key issues and processes in developing new medical devices to meet international regulatory requirements and standards. - Provides readers with a global perspective on medical device regulations - Concise and comprehensive information on how to design medical devices to ensure they meet regulations and standards - Includes a useful case study demonstrating the design and approval process |
| design history file medical device: Reliable Design of Medical Devices Richard C. Fries, 2005-11-21 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. |
| design history file medical device: Designing Usability into Medical Products Michael E. Wiklund, Stephen B. Wilcox, 2005-02-11 Advocating a user-centered approach to medical technology design, Designing Usability into Medical Products covers the essential processes and specific techniques necessary to produce safe, effective, usable, and appealing medical systems and products. Written by experts on user-centered research, design, and evaluation, the book provides a range o |
| design history file medical device: Medical Device Rommel Garcia, 2017-06-06 This book is meant to be a guide to all who want to learn about a highly regulated industry. My approach is to give you, the reader, an example of a fictitious device, and we will take it from a conceptual idea all the way to launch and beyond. My intention is to incorporate the best experiences that I and other contributors have had into this book and convert them into laymans terms for those who are in need. These experiences can and will be indispensable to beginners and professionals alike who are trying their hand in the medical device industry and to those who have not been out of their silo to help see how each of the systems relate to each as a whole. However, it should be noted that the contents of this book should be taken only as information and is not intended to demonstrate how companies can be in compliance. In some instances, there are multiple ways to go through the maze of regulations that are documented and made by agencies because the regulations are pretty much made and designed to be flexible and high level so that companies can adopt their systems, which are solely designed for their purposes. Therefore, this book will try to avoid complicated words and complex technical details of engineering and statistics. This book will strive to be an embodiment of the honest-to-goodness, everyday experiences and issues that folks experience while working in the medical device industry. |
| design history file medical device: DESIGN CONTROLS, RISK MANAGEMENT & PROCESS VALIDATION FOR MEDICAL DEVICE PROFESSIONALS Vernon M. Geckler, 2017-02-11 This handbook provides the most up to date resource currently available for interpreting and understanding design controls. This handbook is the most exhaustive resource ever written about FDA & ISO 13485 design controls for medical devices with a collection of all applicable regulations and real-world examples. Four-hundred & forty, 8.5 X 11 pages provides an extensive evaluation of FDA 21 CFR 820 and is cross-referenced with ISO 13485 to provide readers with a broad and in-depth review of practical design control implementation techniques. This handbook also covers basic, intermediate and advanced design control topics and is an ideal resource for implementing new design control processes or upgrading an existing process into medical device quality systems. This critical resource also specifically outlines key topics which will allow quality managers and medical device developers to improve compliance quickly to pass internal and external audits and FDA inspections. The author breaks down the regulation line by line and provides a detailed interpretation by using supportive evidence from the FDA design control guidance and the quality systems preamble. Numerous examples, case studies, best practices, 70+ figures and 45+ tables provide practical implementation techniques which are based on the author's extensive experience launching numerous medical device products and by integrating industry consultant expertise. In addition, bonus chapters include: explanation of medical device classification, compliance to design controls, risk management, and the design control quality system preamble. 20-40 pages are dedicated to each of the major design control topics: Design and Development Planning, Design Input, Design Output, Design Transfer, Design Verification, Design Validation, Design Change and Design History File. |
| design history file medical device: Medical Device Software Verification, Validation and Compliance David A. Vogel, 2011 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. |
| design history file medical device: ISO 13485 Itay Abuhav, 2011-10-20 Although complex and lengthy, the process of certification for the ISO 13485 can be easily mastered using the simple method outlined in ISO 13485: A Complete Guide to Quality Management in the Medical Device Industry. Written by an experienced industry professional, this practical book provides a complete guide to the ISO 13485 Standard certification for medical device manufacturing. Filled with examples drawn from the author’s experience and spanning different sectors and fields of the medical device industry, the book translates the extra ordinary requirements and objectives of the standard into feasible activities and tasks. The book provides a full analysis of each clause and sub clause through quality perspectives: the implications on an organization, its processes, management, human resources, infrastructures, work environment, control and effectiveness, documentations and records. The book is organized like the standard itself — the table of contents is identical to the ISO 13485 Standard’s table of contents — making it user friendly, familiar, and unintimidating. You can use the book as a consulting session — read it, explore it ,extract ideas — and draw on the information and knowledge that suits you and your organization, and then apply it effectively to your quality management system and processes. |
| design history file medical device: Medical Device Design and Regulation Carl T. DeMarco, 2011-01-24 The intent of this book (MDDR, for short) is to present an introduction to, and overview of, the world of medical device regulation by the United States Food and Drug Administration (FDA), and the relationship of this regulatory scheme to the design and development of medical devices. In providing this information, the book covers the broad range of requirements, which are presented within eight major topics: background and regulatory environment, device design control, nonclinical testing, clinical testing, marketing applications, post-market requirements, quality systems/GMPs, and compliance/enforcement. This book provides students and professionals in the medical device industry with a road map to the regulation of medical devices. It provides a broad understanding of the breadth and depth of medical device regulation by collecting in one textbook coverage of the regulatory scheme for medical devices in terms that are suitable for engineers, scientists, and healthcare providers. The vast amount of information available on the subject is distilled into a concise and coherent presentation. There also are problems and projects at the end of each chapter. In addition to the usual questions requiring specific answers, the projects include the drafting of a device control plan, the development of a nonclinical test procedure, the resolution of a recall, the response to a Warning Letter, and the creation of a CAPA for a device deficiency. A solutions manual for these exercises is available to teachers who adopt the textbook for classroom use or for employee training. Medical Device Design and Regulation (MDDR) also makes available over 100 complimentary live hyperlinks to web pages with additional relevant information, and offers users the opportunity to join and participate in the “MDDR Users Group” on LinkedIn. |
| design history file medical device: Medical Device Guidelines and Regulations Handbook Prakash Srinivasan Timiri Shanmugam, Pugazhenthan Thangaraju, Nandakumar Palani, Thamizharasan Sampath, 2022-04-22 This comprehensive resource features in-depth discussions of important guidelines and regulations needed to understand and properly meet medical device code-related requirements. Focusing on the practical application of the regulations, the Medical Device Guidelines and Regulations Handbook delivers clear explanations, real-world examples, and annotation on the applicable provisions that will allow you to safely and confidently choose materials and processes for medical device development, testing, and manufacturing. A critical resource for researchers and professionals in the medical device field; Thoroughly covers ISO 10993, ISO 22442, ISO 14971, ISO 13485, ISO 21534, REACH, RoHS, CLP, EU MDR; Presents simplified guidelines and regulation points. |
| design history file medical device: Plastics in Medical Devices Vinny R. Sastri, 2021-11-24 Plastics in Medical Devices: Properties, Requirements, and Applications, Third Edition provides a comprehensive overview on the main types of plastics used in medical device applications. The book focuses on the applications and properties that are most important in medical device design, such as chemical resistance, sterilization capability and biocompatibility. The roles of additives, stabilizers and fillers as well as the synthesis and production of polymers are covered and backed up with a wealth of data tables. The book also covers other key aspects in detail, including regulations, compliance, purchasing controls and supplier controls, and process validation. This updated edition has been thoroughly revised with regard to new plastic materials, applications and requirements. This is a valuable resource for engineers, scientists and managers involved in the design and manufacture of medical devices. - Presents detailed coverage of commercially available plastics used in medical device applications, organized by polymer type and supported by data - Includes up-to-date regulatory requirements and practical information on purchasing and supplier controls, process validation and risk management - Supports the development, marketing and commercialization of medical devices and materials for use in medical devices |
| design history file medical device: Usability Testing of Medical Devices Michael E. Wiklund P.E., Jonathan Kendler, Allison Y. Strochlic, 2010-12-20 To paraphrase a popular saying, usability testing should be done early and often. However, it doesn't have to be an onerous process. Informative, practical, and engaging, Usability Testing of Medical Devices provides a simple, easy to implement general understanding of usability testing. It offers a general understanding of usability testing and re |
| design history file medical device: Handbook of Polymer Applications in Medicine and Medical Devices Kayvon Modjarrad, Sina Ebnesajjad, 2013-12-05 While the prevalence of plastics and elastomers in medical devices is now quite well known, there is less information available covering the use of medical devices and the applications of polymers beyond medical devices, such as in hydrogels, biopolymers and silicones beyond enhancement applications, and few books in which these are combined into a single reference. This book is a comprehensive reference source, bringing together a number of key medical polymer topics in one place for a broad audience of engineers and scientists, especially those currently developing new medical devices or seeking more information about current and future applications. In addition to a broad range of applications, the book also covers clinical outcomes and complications arising from the use of the polymers in the body, giving engineers a vital insight into the real world implications of the devices they're creating. Regulatory issues are also covered in detail. The book also presents the latest developments on the use of polymers in medicine and development of nano-scale devices. - Gathers discussions of a large number of applications of polymers in medicine in one place - Provides an insight into both the legal and clinical implications of device design - Relevant to industry, academic and medical professionals - Presents the latest developments in the field, including medical devices on a nano-scale |
| design history file medical device: Applied Human Factors in Medical Device Design Mary Beth Privitera, 2019-06-15 Applied Human Factors in Medical Device Design describes the contents of a human factors toolbox with in-depth descriptions of both empirical and analytical methodologies. The book begins with an overview of the design control process, integrating human factors as directed by AAMI TIR 59 and experienced practice. It then explains each method, describing why each method is important, its potential impact, when it's ideal to use, and related challenges. Also discussed are other barriers, such as communication breakdowns between users and design teams. This book is an excellent reference for professionals working in human factors, design, engineering, marketing and regulation. - Focuses on meeting agency requirements as it pertains to the application of human factors in the medical device development process in both the US and the European Union (EU) - Explains technology development and the application of human factors throughout the development process - Covers FDA and MHRA regulations - Includes case examples with each method |
| design history file medical device: The Combination Products Handbook Susan Neadle, 2023-05-16 Combination products are therapeutic and diagnostic products that combine drugs, devices, and/or biological products. According to the US Food and Drug Administration (FDA), “a combination product is one composed of any combination of a drug and a device; a biological product and a device; a drug and a biological product; or a drug, device and a biological product.” Examples include prefilled syringes, pen injectors, autoinjectors, inhalers, transdermal delivery systems, drug-eluting stents, and kits containing drug administration devices co-packaged with drugs and/or biological products. This handbook provides the most up-to-date information on the development of combination products, from the technology involved to successful delivery to market. The authors present important and up-to-the-minute pre- and post-market reviews of international combination product regulations, guidance, considerations, and best practices. This handbook: Brings clarity of understanding for global combination products guidance and regulations Reviews the current state-of-the-art considerations and best practices spanning the combination product lifecycle, pre-market through post-market Reviews medical product classification and assignment issues faced by global regulatory authorities and industry The editor is a recognized international Combination Products and Medical Device expert with over 35 years of industry experience and has an outstanding team of contributors. Endorsed by AAMI – Association for the Advancement of Medical Instrumentation. |
| design history file medical device: Implantable Neural Prostheses 2 David Zhou, Elias Greenbaum, 2010-07-10 Signi?cant progress has been made in the development of neural prostheses for restoration of human functions and improvement of the quality of life. Biomedical engineers and neuroscientists around the world are working to improve the design and performance of existing devices and to develop novel devices for arti?cial vision, arti?cial limbs, and brain-machine interfaces. This book, Implantable Neural Prostheses 2: Techniques and Engineering Approaches, is part two of a two-volume sequence that describes state-of-the-art advances in techniques associated with implantable neural prosthetic devices. The techniques covered include biocompatibility and biostability, hermetic packaging, electrochemical techniques for neural stimulation applications, novel electrode materials and testing, thin-?lm ?exible microelectrode arrays, in situ char- terization of microelectrode arrays, chip-size thin-?lm device encapsulation, microchip-embedded capacitors and microelectronics for recording, stimulation, and wireless telemetry. The design process in the development of medical devices is also discussed. Advances in biomedical engineering, microfabrication technology, and neu- science have led to improved medical-device designs and novel functions. However, many challenges remain. This book focuses on the engineering approaches, R&D advances, and technical challenges of medical implants from an engineering p- spective. We are grateful to leading researchers from academic institutes, national laboratories, as well as design engineers and professionals from the medical device industry who have contributed to the book. Part one of this series covers designs of implantable neural prosthetic devices and their clinical applications. |
| design history file medical device: Biomedical Engineering Design Joseph Tranquillo, Jay Goldberg, Robert Allen, 2022-02-19 Biomedical Engineering Design presents the design processes and practices used in academic and industry medical device design projects. The first two chapters are an overview of the design process, project management and working on technical teams. Further chapters follow the general order of a design sequence in biomedical engineering, from problem identification to validation and verification testing. The first seven chapters, or parts of them, can be used for first-year and sophomore design classes. The next six chapters are primarily for upper-level students and include in-depth discussions of detailed design, testing, standards, regulatory requirements and ethics. The last two chapters summarize the various activities that industry engineers might be involved in to commercialize a medical device. - Covers subject matter rarely addressed in other BME design texts, such as packaging design, testing in living systems and sterilization methods - Provides instructive examples of how technical, marketing, regulatory, legal, and ethical requirements inform the design process - Includes numerous examples from both industry and academic design projects that highlight different ways to navigate the stages of design as well as document and communicate design decisions - Provides comprehensive coverage of the design process, including methods for identifying unmet needs, applying Design for 'X', and incorporating standards and design controls - Discusses topics that prepare students for careers in medical device design or other related medical fields |
| design history file medical device: Medical Device Regulatory Practices Val Theisz, 2015-08-03 This book is intended to serve as a reference for professionals in the medical device industry, particularly those seeking to learn from practical examples and case studies. Medical devices, like pharmaceuticals, are highly regulated, and the bar is raised constantly as patients and consumers expect the best-quality healthcare and safe and effectiv |
| design history file medical device: Planning, Writing and Reviewing Medical Device Clinical and Performance Evaluation Reports (CERs/PERs) Joy Frestedt, 2024-09-27 A Practical Guide to Planning, Writing, and Reviewing Medical Device Clinical Evaluation Reports guides readers through clinical data evaluation of medical devices, in compliance with the EU MDR requirements and other similar regulatory requirements throughout the world. This book brings together knowledge learned as the author constructed hundreds of CERs and taught thousands of learners on how to conduct clinical data evaluations. This book will support training for clinical engineers, clinical evaluation scientists, and experts reviewing medical device CERs, and will help individual writers, teams and companies to develop stronger, more robust CERs. Identifies and explains data analysis for clinical evaluation of medical devices Teaches readers how to understand and evaluate medical device performance and safety in the context of new regulations Provides analysis of new clinical evaluation criteria in the context of medical device design as well as in-hospital deployment and servicing |
| design history file medical device: Six Sigma for Medical Device Design Jose Justiniano, Venky Gopalaswamy, 2004-11-15 Six Sigma for Medical Device Design is the first book to apply Six Sigma principles to the design of medical devices. Authored by experienced professionals, it uses real world examples and sample plans to provide a practical how-to guide for implementation. This volume also links the Six Sigma philosophy with the FDA's Design Control and ISO regulations, useful for companies that must be compliant as well as for those in the process of implementing a quality system for design control. This book is an excellent tool for technical and scientific personnel to understand the realities of business and markets, to comply with stringent quality and safety standards, and to optimize the product realization process. |
| design history file medical device: Medical Devices and In Vitro Diagnostics Christian Baumgartner, Johann Harer, Jörg Schröttner, 2023-08-26 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. |
| design history file medical device: Medical Device Quality Assurance and Regulatory Compliance Richard C. Fries, 1998-08-11 Acquaints developers of medical devices with the basic concepts and major issues of medical quality assurance and regulatory documents, describes the requirements listed in these documents, and provides strategies for compliance with these requirements. |
| design history file medical device: Medical Device Packaging Handbook, Revised and Expanded Max Sherman, 1998-08-25 This volume details current developments in industry practices and standards relating to medical device packaging. This edition offers entirely new as well as revised chapters on packaging materials, package validation and methods and integrity testing, bar-coding technology, environmentally sound packaging and disposal procedures, storage autoclave sytems, international standards, customer needs, regulatory aspects, and more. |
| design history file medical device: Reliable Design of Medical Devices, Third Edition Richard C. Fries, 2012-09-06 As medical devices become even more intricate, concerns about efficacy, safety, and reliability continue to be raised. Users and patients both want the device to operate as specified, perform in a safe manner, and continue to perform over a long period of time without failure. Following in the footsteps of the bestselling second edition, Reliable Design of Medical Devices, Third Edition shows you how to improve reliability in the design of advanced medical devices. Reliability engineering is an integral part of the product development process and of problem-solving activities related to manufacturing and field failures. Mirroring the typical product development process, the book is organized into seven parts. After an introduction to the basics of reliability engineering and failures, it takes you through the concept, feasibility, design, verification and validation, design transfer and manufacturing, and field activity phases. Topics covered include Six Sigma for design, human factors, safety and risk analysis, and new techniques such as accelerated life testing (ALT) and highly accelerated life testing (HALT). What’s New in This Edition Updates throughout, reflecting changes in the field An updated software development process Updated hardware test procedures A new layout that follows the product development process A list of deliverables needed at the end of each development phase Incorporating reliability engineering as a fundamental design philosophy, this book shares valuable insight from the author’s more than 35 years of experience. A practical guide, it helps you develop a more effective reliability engineering program—contributing to increased profitability, more satisfied customers, and less risk of liability. |
| design history file medical device: Medical Instrument Design and Development Claudio Becchetti, Alessandro Neri, 2013-07-29 This book explains all of the stages involved in developing medical devices; from concept to medical approval including system engineering, bioinstrumentation design, signal processing, electronics, software and ICT with Cloud and e-Health development. Medical Instrument Design and Development offers a comprehensive theoretical background with extensive use of diagrams, graphics and tables (around 400 throughout the book). The book explains how the theory is translated into industrial medical products using a market-sold Electrocardiograph disclosed in its design by the Gamma Cardio Soft manufacturer. The sequence of the chapters reflects the product development lifecycle. Each chapter is focused on a specific University course and is divided into two sections: theory and implementation. The theory sections explain the main concepts and principles which remain valid across technological evolutions of medical instrumentation. The Implementation sections show how the theory is translated into a medical product. The Electrocardiograph (ECG or EKG) is used as an example as it is a suitable device to explore to fully understand medical instrumentation since it is sufficiently simple but encompasses all the main areas involved in developing medical electronic equipment. Key Features: Introduces a system-level approach to product design Covers topics such as bioinstrumentation, signal processing, information theory, electronics, software, firmware, telemedicine, e-Health and medical device certification Explains how to use theory to implement a market product (using ECG as an example) Examines the design and applications of main medical instruments Details the additional know-how required for product implementation: business context, system design, project management, intellectual property rights, product life cycle, etc. Includes an accompanying website with the design of the certified ECG product (www.gammacardiosoft.it/book) Discloses the details of a marketed ECG Product (from Gamma Cardio Soft) compliant with the ANSI standard AAMI EC 11 under open licenses (GNU GPL, Creative Common) This book is written for biomedical engineering courses (upper-level undergraduate and graduate students) and for engineers interested in medical instrumentation/device design with a comprehensive and interdisciplinary system perspective. |
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FDA‘s Design Control Requirements for Medical Devices
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DESIGN HISTORY FILE UPDATED
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Design History File (DHF): a compilation of records which describes the design history of a finished device. (Source - US Code of Federal Regulations #21 Part 820.3(e)) Device History …
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Design History File (DHF): This is a collection of records that describe the design history of a medical device. The FDA specifies requirements for the DHF in Title 21 CFR section 820.30 as …
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歷史檔案」(Design History File,簡稱DHF) 在 本標準中稱為「設計開發檔案」 (Design and development files)(條款7.3.10);「器材主檔 案」(Device Master File,簡稱DMR)則在本標準 …
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