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A concise and accessible overview of the design, implementation and management of medical software.
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."
The Medical Device industry is one of the fastest growing industries in the world. Device manufacturers are producing increasingly sophisticated and complex medical device software to differentiate themselves in the battle for dominance in this sector. The increase in the complexity of medical device software has introduced new challenges with respect to making medical devices and their associated software safe. Risk management has emerged as key in addressing these challenges. Existing literature on risk management for medical devices has been slow to adequately account for the complex nature of software in modern medical devices. Conversely, excellent progress has been made in the broader Software Engineering community with the production of holistic software risk based models such as the Capability Maturity Model Integration (CMMI®) and SPICE™. However, these models do not account for medical device specific requirements. This book examines the possibility of a unified approach whilst investigating the relevance of the CMMI® SPI model to the medical device regulatory requirements.
This book constitutes the refereed proceedings of the 14th International Conference on Software Process Improvement and Capability Determination, SPICE 2014, held in Vilnius, Lithuania, in November 2014. The 21 revised full papers presented together with 6 short papers were carefully reviewed and selected from 49 submissions. The papers are organized in topical sections on developing process models for assessment; software process and models; software models and product lines; assessment; agile processes; processes improvement and VSE.
A detailed analysis of the ethical, legal, and regulatory landscape of medical devices in the US and EU.
Cybersecurity for medical devices is no longer optional. We must not allow sensationalism or headlines to drive the discussion… Nevertheless, we must proceed with urgency. In the end, this is about preventing patient harm and preserving patient trust. A comprehensive guide to medical device secure lifecycle management, this is a book for engineers, managers, and regulatory specialists. Readers gain insight into the security aspects of every phase of the product lifecycle, including concept, design, implementation, supply chain, manufacturing, postmarket surveillance, maintenance, updates, and end of life. Learn how to mitigate or completely avoid common cybersecurity vulnerabilities introduced during development and production. Grow your awareness of cybersecurity development topics ranging from high-level concepts to practical solutions and tools. Get insight into emerging regulatory and customer expectations. Uncover how to minimize schedule impacts and accelerate time-to-market while still accomplishing the main goal: reducing patient and business exposure to cybersecurity risks. Medical Device Cybersecurity for Engineers and Manufacturers is designed to help all stakeholders lead the charge to a better medical device security posture and improve the resilience of our medical device ecosystem.
This book is a comprehensive guide to producing medical software for routine clinical use. It is a practical guidebook for medical professionals developing software to ensure compliance with medical device regulations for software products intended to be sold commercially, shared with healthcare colleagues in other hospitals, or simply used in-house. It compares requirements and latest regulations in different global territories, including the most recent EU regulations as well as UK and US regulations. This book is a valuable resource for practising clinical scientists producing medical software in-house, in addition to other medical staff writing small apps for clinical use, clinical scientist trainees, and software engineers considering a move into healthcare. The academic level is post-graduate, as readers will require a basic knowledge of software engineering principles and practice. Key Features: Up to date with the latest regulations in the UK, the EU, and the US Useful for those producing medical software for routine clinical use Contains best practice
The cybersecurity of connected medical devices is one of the biggest challenges facing healthcare today. The compromise of a medical device can result in severe consequences for both patient health and patient data. Cybersecurity for Connected Medical Devices covers all aspects of medical device cybersecurity, with a focus on cybersecurity capability development and maintenance, system and software threat modeling, secure design of medical devices, vulnerability management, and integrating cybersecurity design aspects into a medical device manufacturer's Quality Management Systems (QMS). This book is geared towards engineers interested in the medical device cybersecurity space, regulatory, quality, and human resources specialists, and organizational leaders interested in building a medical device cybersecurity program. Lays out clear guidelines for how to build a medical device cybersecurity program through the development of capabilities Discusses different regulatory requirements of cybersecurity and how to incorporate them into a Quality Management System Provides a candidate method for system and software threat modelling Provides an overview of cybersecurity risk management for medical devices Presents technical cybersecurity controls for secure design of medical devices Provides an overview of cybersecurity verification and validation for medical devices Presents an approach to logically structure cybersecurity regulatory submissions