Automated insulin delivery goes by many names: hybrid or full closed loop; artificial pancreas system (APS); "looping" and more. They are not all the same, though. You have choices, ranging from the type of pump body and CGM you want to use, to the algorithm and controller, to the interoperability and remote monitoring options, and more. Like switching from multiple daily injections to an insulin pump, switching from manual diabetes to automated insulin delivery has a learning curve. It's certainly one you can tackle. After all, you're already tackling type 1 diabetes! You already have the base knowledge and experience you need to succeed with a closed loop system, if it's right for you. But you might be wondering how to get ahead of your learning curve before you start or even choose an APS, or you've started and want to dig even deeper into optimizing how an automated insulin delivery system fits into your lifestyle. This book was written for you! It leverages the collective knowledge of the early adopters of do-it-yourself and commercial systems from the past five years and packages it into easy, understandable guides and lessons learned.In this book, you'll find new analogies to help you understand - and explain - this new method of diabetes management, and tips on how to communicate with your healthcare provider(s) about it. You'll see stories and examples from real families and individuals living with type 1 diabetes and how they benefit from artificial pancreas systems, and why they chose and continue to choose to use them. You'll be empowered to understand the basic components of artificial pancreas systems, how they work, and what questions to ask as you peruse your choices now and in the future. This book also includes a foreword by Aaron Kowalski, President and CEO of JDRF, and co-founder of the JDRF Artificial Pancreas Project. "I will immediately recommend this book not just to people looking to use a DIY closed loop system, but also to anybody looking to improve their grasp on the management of type 1 diabetes, whether patient, caregiver, or healthcare provider." - Aaron Neinstein, MD (Endocrinologist, UCSF)

Currently, available information on pediatric and adolescent diabetes is limited to chapters in larger books covering the broader topic of pediatric endocrinology, and these do not have the space to delve into specific topics. This concise, timely book contains everything that a practicing provider needs to know in order to provide comprehensive, up-to-date care for children and adolescents with diabetes, from the latest methods for diagnosing various types of diabetes to integrating cutting-edge technology in the care of this patient population. Initial management, the use of insulin pumps, continuous glucose monitoring, and automated insulin delivery are discussed in detail, as are nutrition therapy, exercise, psychosocial challenges, acute and long-term complications, and future directions for treatment and research. Further, this book provides clinicians with guidelines for the implementation of best practices as outlined by leading associations such as the American Diabetes Association (ADA) and International Society of Pediatric and Adolescent Diabetes (ISPAD). The Yale Children’s Diabetes Program has been ranked among the best in the United States, including clinicians and researchers who are world-renowned for their efforts in improving the care of children with diabetes. This wealth of knowledge and experience positions the author team well as experts in this field.

Automated insulin delivery is a new type of technology that uses an algorithm (a set of rules) based on continuous glucose monitor data and insulin pump data to decide whether an insulin pump should give more or less insulin. This book explains the basics of scuba diving and uses it as an analogy for how an automated insulin delivery system makes small changes to manage blood glucose levels, similar to how a scuba diver makes small changes to manage their balance (called buoyancy) in the water. This book can be used to help explain diabetes technology to kids, their friends and schoolmates, and even your family members to help them understand how this technology helps make living with diabetes easier.

Psychosocial Care for People with Diabetes describes the major psychosocial issues which impact living with and self-management of diabetes and its related diseases, and provides treatment recommendations based on proven interventions and expert opinion. The book is comprehensive and provides the practitioner with guidelines to access and prescribe treatment for psychosocial problems commonly associated with living with diabetes.

Glucose Monitoring Devices: Measuring Blood Glucose to Manage and Control Diabetes presents the state-of-the-art regarding glucose monitoring devices and the clinical use of monitoring data for the improvement of diabetes management and control. Chapters cover the two most common approaches to glucose monitoring–self-monitoring blood glucose and continuous glucose monitoring–discussing their components, accuracy, the impact of use on quality of glycemic control as documented by landmark clinical trials, and mathematical approaches. Other sections cover how data obtained from these monitoring devices is deployed within diabetes management systems and new approaches to glucose monitoring. This book provides a comprehensive treatment on glucose monitoring devices not otherwise found in a single manuscript. Its comprehensive variety of topics makes it an excellent reference book for doctoral and postdoctoral students working in the field of diabetes technology, both in academia and industry. - Presents a comprehensive approach that spans self-monitoring blood glucose devices, the use of continuous monitoring in the artificial pancreas, and intraperitoneal glucose sensing - Provides a high-level descriptions of devices, as well as detailed mathematical descriptions of methods and techniques - Written by experts in the field with vast experience in the field of diabetes and diabetes technology

This brief introduces recursive modeling techniques that take account of variations in blood glucose concentration within and between individuals. It describes their use in developing multivariable models in early-warning systems for hypo- and hyperglycemia; these models are more accurate than those solely reliant on glucose and insulin concentrations because they can accommodate other relevant influences like physical activity, stress and sleep. Such factors also contribute to the accuracy of the adaptive control systems present in the artificial pancreas which is the focus of the brief, as their presence is indicated before they have an apparent effect on the glucose concentration and so can be more easily compensated. The adaptive controller is based on generalized predictive control techniques and also includes rules for changing controller parameters or structure based on the values of physiological variables. Simulation studies and clinical studies are reported to illustrate the performance of the techniques presented.

There is an increasing demand for dynamic systems to become more safe and reliable. This requirement extends beyond the normally accepted safety-critical systems of nuclear reactors and aircraft where safety is paramount important, to systems such as autonomous vehicles and fast railways where the system availability is vital. It is clear that fault diagnosis (including fault detection and isolation, FDI) has been becoming an important subject in modern control theory and practice. For example, the number of papers on FDI presented in many control-related conferences has been increasing steadily. The subject of fault detection and isolation continues to mature to an established field of research in control engineering. A large amount of knowledge on model-based fault diagnosis has been ac cumulated through the literature since the beginning of the 1970s. However, publications are scattered over many papers and a few edited books. Up to the end of 1997, there is no any book which presents the subject in an unified framework. The consequence of this is the lack of "common language", dif ferent researchers use different terminology. This problem has obstructed the progress of model-based FDI techniques and has been causing great concern in research community. Many survey papers have been published to tackle this problem. However, a book which presents the materials in a unified format and provides a comprehensive foundation of model-based FDI is urgently needed.