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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.
This book offers the first critical examination of the contributions of feminist new materialist thought to the study of sport, fitness, and physical culture. Bringing feminist new materialist theory into a lively dialogue with sport studies, it highlights the possibilities and challenges of engaging with posthumanist and new materialist theories. With empirical examples and pedagogical offerings woven throughout, the book makes complex new materialist concepts and theories highly accessible. It vividly illustrates sporting matter as lively, vital, and agentic. Engaging specifically with the methodological, theoretical, ethical and political challenges of feminist new materialisms, it elaborates understandings of moving bodies and their entanglements with human, non-human, technological, biological, cultural, and environmental forces in contemporary society. This book extends humanist, representationalist, and discursive approaches that have characterized the landscape of critical research on active bodies, and invites new imaginings and articulations for sport and moving bodies in uncertain times and unknown futures. View the video abstracts for each of the book's chapter here: Chapter 1 https://www.youtube.com/watch?v=3UQy7aq1k20&list=PLdbxSLlj0ri04cOHxK37TfaQg0IAv6Znf&index=1 Chapter 2 https://www.youtube.com/watch?v=yM-Q4FmW6h8&list=PLdbxSLlj0ri04cOHxK37TfaQg0IAv6Znf&index=2 Chapter 3 https://www.youtube.com/watch?v=D0VxosyyrKg&list=PLdbxSLlj0ri04cOHxK37TfaQg0IAv6Znf&index=3 Chapter 4 https://www.youtube.com/watch?v=eN9b58fPISA&list=PLdbxSLlj0ri04cOHxK37TfaQg0IAv6Znf&index=4 Chapter 5 https://www.youtube.com/watch?v=GM3Ss_Tz0ZY&list=PLdbxSLlj0ri04cOHxK37TfaQg0IAv6Znf&index=5 Chapter 6 https://www.youtube.com/watch?v=pNbSBThlR6s&list=PLdbxSLlj0ri04cOHxK37TfaQg0IAv6Znf&index=6 Chapter 7 https://www.youtube.com/watch?v=NFRAGwH8UOY&list=PLdbxSLlj0ri04cOHxK37TfaQg0IAv6Znf&index=7
This practical book focuses on the use of glucose sensors in children with type 1 diabetes. It is an evidence-based, simple, illustrated tool written by expert physicians in the field, experienced with patients living in Italy and in the UK. The introductory chapters offer a quick and well-documented update on technology use in the child with diabetes, while the chapter on clinical studies provides a comprehensive overview of the scientific basis and benefits on glucose sensor use. The practical use of sensors in all age groups, including toddlers, and any related psychological issues are also discussed. This volume allows health care professionals, pediatric trainees and medical students caring for children with type 1 diabetes to increase their understanding of sensor use, making this technology easier and more reliable to use.
This book offers a detailed update on research into diabetes with onset in childhood or adolescence. The coverage ranges from fundamental aspects such as study design and statistical analysis through to new ideas for research, the latest research findings, and implications of these findings for clinical care in childhood. Examples of topics addressed in this context include the prevention of diabetic complications, management of micro- and macrovascular complications, the roles of nutrition and exercise, insulin therapy, islet transplantation, and risky behaviors in teenagers. Attention is also focused on the latest technologies, including the artificial pancreas and continuous glucose monitoring, and associated regulatory aspects. The reader will find novel insights into the ways in which research is impacting on clinical management as well as advice on methodology and stimulating ideas on future research areas. The book is based on presentations delivered at the 15th ISPAD (International Society for Pediatric and Adolescent Diabetes) Research School for Physicians, held in Milan. It will be of interest for all diabetologists, pediatricians, dietitians, biomedical engineers, nurses, and students.
Implantable sensing, whether used for transient or long-term monitoring of in vivo physiological, bio-electrical, bio-chemical and metabolic changes, is a rapidly advancing field of research and development. Underpinned by increasingly small, smart and energy efficient designs, they become an integral part of surgical prostheses or implants for both acute and chronic conditions, supporting optimised, context aware sensing, feedback, or stimulation with due consideration of system level impact. From sensor design, fabrication, on-node processing with application specific integrated circuits, to power optimisation, wireless data paths and security, this book provides a detailed explanation of both the theories and practical considerations of developing novel implantable sensors. Other topics covered by the book include sensor embodiment and flexible electronics, implantable optical sensors and power harvesting. Implantable Sensors and Systems – from Theory to Practice is an important reference for those working in the field of medical devices. The structure of the book is carefully prepared so that it can also be used as an introductory reference for those about to enter into this exciting research and developing field.
Topic Editor Prof. Lennart Hammarström holds equity in ImmunoIVD. All other Topic Editors declare no competing interests with regards to the Research Topic subject.
Use of real-time continuous glucose monitors among people with type 1 and type 2 diabetes is growing rapidly and should continue to grow until an artificial pancreas is brought to market. Likewise, use of professional systems in healthcare practices is expanding. But, other than manufacturer instructional manuals and some book chapters on CGMs, there are no standalone publications available with concise, non-commercial instructions on CGM prescription and use. Additionally, continuous glucose monitors are too often not used to their full and proper potential. This leaves users with suboptimal glucose control and can result in system abandonment. To address this, diabetes educator and author Gary Scheiner has created Practical CGM: Improving Patient Outcomes through Continuous Glucose Monitoring to give healthcare providers the skill to make more effective use of the data generated by continuous glucose monitors, in both real-time and on a retrospective analytic basis. Using a plain-language approach and distilling content to concise, practical tips and techniques, Scheiner has created a guide that will help practitioners optimize patient use of CGM systems and, ultimately, improve glucose control and patient health outcomes.
Diabetes is a disease that occurs when the pancreas does not produce enough insulin to control the amount of glucose in the blood. This book is a comprehensive guide to the latest advances in the diagnosis and treatment of diabetes. Divided into six sections, the manual begins with an overview of diagnosis and classification, followed by discussion on epidemiology and aetiopathogenesis. Section four covers comorbidities and complications of diabetes including hyper- and hypoglycaemia, heart failure, foot ulcers, and diabetic retinopathy. The final sections examine recent advances and technologies. The detailed text is further enhanced by clinical photographs, diagrams and tables to assist learning. Key points Comprehensive guide to latest advances in diagnosis and management of diabetes Discusses diagnosis and classification, epidemiology and aetiopathogenesis Covers many different comorbidities and complications Highly illustrated with clinical photographs, diagrams and tables
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.