Author : Fabian Mauricio León Vargas
Publisher :
Page : 0 pages
File Size : 16,17 MB
Release : 2013
Category :
ISBN :
Author : Frederick Chee
Publisher : Springer
Page : 167 pages
File Size : 39,28 MB
Release : 2007-10-24
Category : Technology & Engineering
ISBN : 3540740317
This book presents closed-loop blood glucose control in a simple manner, which includes the hardware and "software" components that make up the control system. It provides examples on how mathematical models are formulated as well as the control algorithms that stem from mathematical exercises. The book also describes the basic physiology of blood glucose regulation during fasting and meal from a functional level.
Author : Anirudh Nath
Publisher : Academic Press
Page : 164 pages
File Size : 48,73 MB
Release : 2022-08-13
Category : Science
ISBN : 0323907776
Nonlinear Control for Blood Glucose Regulation of Diabetic Patients: An LMI-Based Approach exposes readers to the various existing mathematical models that define the dynamics of glucose-insulin for Type 1 diabetes patients. After providing insights into the mathematical model of patients, the authors discuss the need and emergence of new control techniques that can lead to further development of an artificial pancreas. The book presents various nonlinear control techniques to address the challenges that Type 1 diabetic patients face in maintaining their blood glucose level in the safe range (70-180 mg/dl). The closed-loop solution provided by the artificial pancreas depends mainly on the effectiveness of the control algorithm, which acts as the brain of the system. APS control algorithms require a mathematical model of the gluco-regulatory system of the T1D patients for their design. Since the gluco-regulatory system is inherently nonlinear and largely affected by external disturbances and parametric uncertainty, developing an accurate model is very difficult. Presents control-oriented modeling of the gluco-regulatory system of Type 1 diabetic patients using input-output data Demonstrates the design of a robust insulin delivery mechanism utilizing state estimation information with parametric uncertainties and exogenous disturbance in the framework of Linear Matrix Inequality (LMI) Introduces readers to the relevance and effectiveness of powerful nonlinear controllers for the Artificial Pancreas Provides the first book on LMI-based nonlinear control techniques for the Artificial Pancreas
Author : D. Bruttomesso
Publisher : Karger Medical and Scientific Publishers
Page : 274 pages
File Size : 10,33 MB
Release : 2014-11-17
Category : Medical
ISBN : 331802337X
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.
Author : Harald Kirchsteiger
Publisher : Springer
Page : 271 pages
File Size : 13,47 MB
Release : 2015-11-24
Category : Technology & Engineering
ISBN : 331925913X
This book tackles the problem of overshoot and undershoot in blood glucose levels caused by delay in the effects of carbohydrate consumption and insulin administration. The ideas presented here will be very important in maintaining the welfare of insulin-dependent diabetics and avoiding the damaging effects of unpredicted swings in blood glucose – accurate prediction enables the implementation of counter-measures. The glucose prediction algorithms described are also a key and critical ingredient of automated insulin delivery systems, the so-called “artificial pancreas”. The authors address the topic of blood-glucose prediction from medical, scientific and technological points of view. Simulation studies are utilized for complementary analysis but the primary focus of this book is on real applications, using clinical data from diabetic subjects. The text details the current state of the art by surveying prediction algorithms, and then moves beyond it with the most recent advances in data-based modeling of glucose metabolism. The topic of performance evaluation is discussed and the relationship of clinical and technological needs and goals examined with regard to their implications for medical devices employing prediction algorithms. Practical and theoretical questions associated with such devices and their solutions are highlighted. This book shows researchers interested in biomedical device technology and control researchers working with predictive algorithms how incorporation of predictive algorithms into the next generation of portable glucose measurement can make treatment of diabetes safer and more efficient.
Author : Boris Draznin
Publisher : American Diabetes Association
Page : 338 pages
File Size : 24,60 MB
Release : 2016-05-20
Category : Medical
ISBN : 1580406572
As the number of patients with diabetes increases annually, it is not surprising that the number of patients with diabetes who are admitted to the hospital also increases. Once in the hospital, patients with diabetes or hyperglycemia may be admitted to the Intensive Care Unit, require urgent or elective surgery, enteral or parenteral nutrition, intravenous insulin infusion, or therapies that significantly impact glycemic control (e.g., steroids). Because many clinical outcomes are influenced by the degree of glycemic control, knowledge of the best practices in inpatient diabetes management is extremely important. The field of inpatient management of diabetes and hyperglycemia has grown substantially in the last several years. This body of knowledge is summarized in this book, so it can reach the audience of hospitalists, endocrinologists, nurses and other team members who take care of hospitalized patients with diabetes and hyperglycemia.
Author : Fraser Murray Coulter Cameron
Publisher :
Page : pages
File Size : 46,45 MB
Release : 2010
Category :
ISBN :
Type 1 Diabetes Mellitus or Juvenile Onset Diabetes is currently a permanent, incurable disease that removes the ability of the patient's body to control blood glucose levels. This loss of automatic control greatly increases the patient's exposure to clinical risks of high and low blood glucose levels. These risks can be mitigated through tight, regulation of blood glucose levels using insulin injections, but only at the price of paying frequent attention to the blood glucose levels and manually providing accurate dosing decisions. This can be very trying for all patients, especially teenagers and children. Recent technological advances enable automatic external regulation of patient's blood glucose levels. Pumps can infuse insulin into the subcutaneous tissue to lower blood glucose levels. Continuous glucose monitors can sense subcutaneous glucose levels, specifically the rises caused by meals and the drops caused by insulin. This has caused a flurry of control and modeling research, in the hopes of mitigating the clinical risk without the price of constant human attention. The most common approach, and the one taken here, is to use model predictive control, where the predictions from a model of glucose dynamics are optimized against a cost function using the future insulin injections. We directly minimize the asymmetric clinical risk instead, and recognize that our control authority (the potential effects of injecting insulin) is largely limited to reducing the blood glucose level. We further consider likely future blood glucose measurements, since we both respond better to positive disturbances than negative ones, and because negative disturbances are more risky. Also, we explicitly estimate the uncertainty of predictions, since glucose dynamics incorporate uncertainty from the complex biology, stochastic patient behaviour, and extrapolation. More uncertainty should mean more cautious insulin injection. Lastly, since meals occur faster than insulin acts and can raise the blood glucose by 2 to 4 times the width of the acceptable range, this work develops a novel Bayesian framework for detecting meals and estimating their effects. This work improves prediction root mean squared error by 20% relative to predictions excluding meals for prediction horizons from 1 to 4 hours and improves robustness to meals. These prediction improvements alone reduce the avoidable clinical risk by 38% relative to predictions excluding meals. When the improvements to the predictions are combined with minimizing clinical risk under uncertainty and measurement anticipation the avoidable clinical risk is reduced by 30% relative to a published MPC controller that has privileged information and tunes independently for each patient.
Author : Chiara Fabris
Publisher : Academic Press
Page : 386 pages
File Size : 13,89 MB
Release : 2020-06-02
Category : Science
ISBN : 0128168846
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
Author : Yvonne Ho
Publisher : Springer
Page : 97 pages
File Size : 45,96 MB
Release : 2018-09-14
Category : Technology & Engineering
ISBN : 9811324026
The thesis focuses on the control of blood glucose devices and design of implantable devices, and offers valuable insights on diabetes mellitus and related physiology and treatments. Diabetes mellitus is a widespread chronic disease in the modern world that affects millions of people around the globe. In Singapore, one in ten of the population has diabetes, and the severity of the problem has prompted the country’s prime minister to talk about the disease at the National Day Rally in 2017. Designing an artificial pancreas that can provide effective blood glucose control for individuals with diabetes is one of the most challenging engineering problems. The author reports on research into the development of an implantable artificial pancreas that can regulate blood glucose levels by delivering appropriate dosages of insulin when necessary. By sensing blood glucose and injecting insulin directly into the vein, the implantable device aims to remove delays that occur with subcutaneous blood glucose sensing and insulin delivery. Preliminary in-vitro and in-vivo experimental results suggest that the implantable device for blood glucose control could be a clinically viable alternative to pancreas transplant.
Author : Eleni I. Georga
Publisher : Academic Press
Page : 253 pages
File Size : 48,54 MB
Release : 2017-12-11
Category : Computers
ISBN : 0128051469
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
