Advances in Artificial Pancreas Systems


Book Description

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.




Technological Advances in the Treatment of Type 1 Diabetes


Book Description

The current epidemic of diabetes, obesity and related disorders is a driving force in the development of new technologies. Technological advances offer great new opportunities for the treatment of these chronic diseases. This review presents an update of developments that promise to revolutionize the treatment of diabetes. It examines hospital and outpatient care, intensive insulin therapy, blood glucose monitoring and innovative steps towards the construction of an artificial pancreas. Providing a comprehensive overview on the latest advances, this volume of Frontiers in Diabetes will be of particular interest to all healthcare providers involved in the daily management of patients with diabetes or related diseases.




Automated Insulin Delivery


Book Description

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)




Handbook of Diabetes Technology


Book Description

This book covers the main fields of diabetes management through applied technologies. The different chapters include insulin therapy through basic insulin injection therapy, external and implantable insulin pumps and the more recent approaches such as sensor augmented pumps and close-loop systems. Islet transplantation is also described through its technical aspects and clinical evaluation. Glucose measurement through blood glucose meters and continuous glucose monitoring systems are comprehensively explained. Educational tools including videogames and software dedicated to diabetes management are depicted. Lastly, Telemedicine systems devoted to data transmission, telemonitoring and decision support systems are described and their use for supporting health systems are summarized. This book will help professionals involved in diabetes management understanding the contribution of diabetes technologies for promoting the optimization of glucose control and monitoring. This volume will be helpful in current clinical practice for diabetes management and also beneficial to students.




Personalized Predictive Modeling in Type 1 Diabetes


Book Description

Personalized Predictive Modeling in Diabetes features state-of-the-art methodologies and algorithmic approaches which have been applied to predictive modeling of glucose concentration, ranging from simple autoregressive models of the CGM time series to multivariate nonlinear regression techniques of machine learning. Developments in the field have been analyzed with respect to: (i) feature set (univariate or multivariate), (ii) regression technique (linear or non-linear), (iii) learning mechanism (batch or sequential), (iv) development and testing procedure and (v) scaling properties. In addition, simulation models of meal-derived glucose absorption and insulin dynamics and kinetics are covered, as an integral part of glucose predictive models. This book will help engineers and clinicians to: select a regression technique which can capture both linear and non-linear dynamics in glucose metabolism in diabetes, and which exhibits good generalization performance under stationary and non-stationary conditions; ensure the scalability of the optimization algorithm (learning mechanism) with respect to the size of the dataset, provided that multiple days of patient monitoring are needed to obtain a reliable predictive model; select a features set which efficiently represents both spatial and temporal dependencies between the input variables and the glucose concentration; select simulation models of subcutaneous insulin absorption and meal absorption; identify an appropriate validation procedure, and identify realistic performance measures. Describes fundamentals of modeling techniques as applied to glucose control Covers model selection process and model validation Offers computer code on a companion website to show implementation of models and algorithms Features the latest developments in the field of diabetes predictive modeling




Automated Reasoning for Systems Biology and Medicine


Book Description

This book presents outstanding contributions in an exciting, new and multidisciplinary research area: the application of formal, automated reasoning techniques to analyse complex models in systems biology and systems medicine. Automated reasoning is a field of computer science devoted to the development of algorithms that yield trustworthy answers, providing a basis of sound logical reasoning. For example, in the semiconductor industry formal verification is instrumental to ensuring that chip designs are free of defects (or “bugs”). Over the past 15 years, systems biology and systems medicine have been introduced in an attempt to understand the enormous complexity of life from a computational point of view. This has generated a wealth of new knowledge in the form of computational models, whose staggering complexity makes manual analysis methods infeasible. Sound, trusted, and automated means of analysing the models are thus required in order to be able to trust their conclusions. Above all, this is crucial to engineering safe biomedical devices and to reducing our reliance on wet-lab experiments and clinical trials, which will in turn produce lower economic and societal costs. Some examples of the questions addressed here include: Can we automatically adjust medications for patients with multiple chronic conditions? Can we verify that an artificial pancreas system delivers insulin in a way that ensures Type 1 diabetic patients never suffer from hyperglycaemia or hypoglycaemia? And lastly, can we predict what kind of mutations a cancer cell is likely to undergo? This book brings together leading researchers from a number of highly interdisciplinary areas, including: · Parameter inference from time series · Model selection · Network structure identification · Machine learning · Systems medicine · Hypothesis generation from experimental data · Systems biology, systems medicine, and digital pathology · Verification of biomedical devices “This book presents a comprehensive spectrum of model-focused analysis techniques for biological systems ...an essential resource for tracking the developments of a fast moving field that promises to revolutionize biology and medicine by the automated analysis of models and data.”Prof Luca Cardelli FRS, University of Oxford




Targeting a Cure for Type 1 Diabetes: How Long Will We Have to Wait?


Book Description

Will type 1 diabetes ever be cured? Everyone whose lives are touched by type 1 diabetes hopes for a cure but hard facts are difficult to find. Targeting a Cure for Type 1 Diabetes chronicles the diverse efforts now underway to answer this critical question. The writers from diaTribe (www.diaTribe.org), an award-winning free online newsletter about diabetes, have collaborated with the American Diabetes Association to explain the research and to lay out their objective assessment of each therapy—giving readers a clear understanding of the potential each treatment holds and the optimism each deserves. Highlighting the opportunities and obstacles, this book focuses on the four most promising research areas: immune therapeutics, islet and pancreas transplantation, beta-cell regeneration and survival agents, and the artificial pancreas. As a person who has lived with type 1 diabetes for 26 years and an expert on the business of diabetes therapies, diaTribe editor-in-chief Kelly Close understands the weight of this all-important question and provides her personal commentary on where we stand in the search for a cure. The book features a foreword by Dr. Robert Ratner, Chief Scientific and Medical Officer for the American Diabetes Association, and an introduction from Dr. Aaron Kowalski, Vice President, Treatment Therapies, for JDRF. As they remind us, the search for the cure is ultimately about patients, and this book is written to give you true hope—one that is strengthened by data and facts. After reading about Kelly Close and her teams’ incredible journey of discovery, we cannot only continue to dream, but we can open our eyes each morning to a reality that brings us closer, inch by inch, discovery by discovery, to a day when glucose control will be automatic and people with type 1 diabetes will be “cured.” —Dr. Francine Kaufman, Chief Medical Officer and Vice President, Medtronic Diabetes




Insulin Pump Therapy and Continuous Glucose Monitoring


Book Description

This title combines a detailed discussion of the evidence-base for all aspects of CSII in adults and children with a practical guide to treating people with diabetes using insulin pump therapy.




Psychosocial Care for People with Diabetes


Book Description

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.




The Discovery of Insulin


Book Description

The discovery of insulin at the University of Toronto in 1921-22 was one of the most dramatic events in the history of the treatment of disease. Insulin was a wonder-drug with ability to bring patients back from the very brink of death, and it was no surprise that in 1923 the Nobel Prize for Medicine was awarded to its discoverers, the Canadian research team of Banting, Best, Collip, and Macleod. In this engaging and award-winning account, historian Michael Bliss recounts the fascinating story behind the discovery of insulin – a story as much filled with fiery confrontation and intense competition as medical dedication and scientific genius. Originally published in 1982 and updated in 1996, The Discovery of Insulin has won the City of Toronto Book Award, the Jason Hannah Medal of the Royal Society of Canada, and the William H. Welch Medal of the American Association for the History of Medicine.