Closed-loop artificial pancreas systems: engineering the algorithms.
about
Progress of artificial pancreas devices towards clinical use: the first outpatient studiesA Review of Safety and Design Requirements of the Artificial Pancreas.Continuous Glucose Monitoring, Future Products, and Update on Worldwide Artificial Pancreas Projects.Future of Automated Insulin Delivery Systems.Metrics for glycaemic control - from HbA1c to continuous glucose monitoring.Outcome Measures for Artificial Pancreas Clinical Trials: A Consensus ReportThe Artificial Pancreas in 2016: A Digital Treatment Ecosystem for Diabetes.Identification of Main Factors Explaining Glucose Dynamics During and Immediately After Moderate Exercise in Patients With Type 1 Diabetes.Sensitivity of the Predictive Hypoglycemia Minimizer System to the Algorithm Aggressiveness FactorVelocity-weighting to prevent controller-induced hypoglycemia in MPC of an artificial pancreas to treat T1DMCybersecurity in Artificial Pancreas Experiments.Engineering control into medicineMulticenter outpatient dinner/overnight reduction of hypoglycemia and increased time of glucose in target with a wearable artificial pancreas using modular model predictive control in adults with type 1 diabetes.Switched LPV Glucose Control in Type 1 Diabetes.Physical Activity Capture Technology With Potential for Incorporation Into Closed-Loop Control for Type 1 Diabetes.GoCARB in the Context of an Artificial Pancreas.Design and Evaluation of a Robust PID Controller for a Fully Implantable Artificial Pancreas.Closed-loop artificial pancreas systems: physiological input to enhance next-generation devices.Application of Zone Model Predictive Control Artificial Pancreas During Extended Use of Infusion Set and Sensor: A Randomized Crossover-Controlled Home-Use Trial.Moving-horizon-like state estimation via continuous glucose monitor feedback in MPC of an artificial pancreas for type 1 diabetesA Simple Composite Metric for the Assessment of Glycemic Status from Continuous Glucose Monitoring Data: Implications for Clinical Practice and the Artificial Pancreas.Psychosocial assessment of artificial pancreas (AP): commentary and review of existing measures and their applicability in AP researchCombining glucose monitoring and insulin delivery into a single device: current progress and ongoing challenges of the artificial pancreasRandomized Crossover Comparison of Personalized MPC and PID Control Algorithms for the Artificial Pancreas.Reducing Glucose Variability Due to Meals and Postprandial Exercise in T1DM Using Switched LPV Control: In Silico Studies.Hypoglycemia Detection and Carbohydrate Suggestion in an Artificial Pancreas.The mathematician's control toolbox for management of type 1 diabetes.Physical activity and type 1 diabetes: time for a rewire?Data Based Prediction of Blood Glucose Concentrations Using Evolutionary Methods.Outpatient Closed-Loop Control with Unannounced Moderate Exercise in Adolescents Using Zone Model Predictive Control.A review of personalized blood glucose prediction strategies for T1DM patients.Enhanced Model Predictive Control (eMPC) Strategy for Automated Glucose Control.Development of glucose-responsive 'smart' insulin systems.An Adaptive Nonlinear Basal-Bolus Calculator for Patients With Type 1 Diabetes.Development of a Microsphere-Based System to Facilitate Real-Time Insulin Monitoring.Periodic zone-MPC with asymmetric costs for outpatient-ready safety of an artificial pancreas to treat type 1 diabetesStatus of Diabetes Care: "It just doesn't get any better . . . or does it?".The artificial pancreas: are we there yet?Model-Free Machine Learning in Biomedicine: Feasibility Study in Type 1 Diabetes.Closed-Loop Control During Intense Prolonged Outdoor Exercise in Adolescents With Type 1 Diabetes: The Artificial Pancreas Ski Study.
P2860
Q26825236-18291F97-D0BB-45D5-BC51-48773072618BQ28066687-A1F8DFB1-B616-4223-B947-21689B28849EQ28071439-7525173C-5ACA-46DE-8544-1FBDE6F34801Q30252197-8FEE9CAF-A358-4447-910C-32CFD58B56E4Q30252932-DC83AD98-9ABC-4853-8E51-1EE9B40F3FA5Q30276532-16D9DBE4-C136-4FC2-93E9-7884831E8BBAQ30276534-7C109F19-8329-4FCA-BB6D-4A6F33B3B2D3Q30278498-E53A9E4F-FF94-4C83-8744-9BD7ED44463EQ30279078-E1FB8D3B-F553-4579-943F-E1D6010381C7Q30279095-1DEF6D67-38E0-458F-8AD0-0E24CA3C33CCQ30300027-0F48B388-3D0D-4871-96E8-62671969362DQ30300786-1C78D7C3-2C7C-4A67-B820-1AE8424F4859Q30300933-7BA81571-9E52-410D-82F4-68FF260BCB69Q30352479-F3C1CF69-4E46-46AC-8A95-C79D0425AC4FQ30355854-7DAFB20F-88DB-42E3-A53D-B5E97449859AQ30359532-8CA1C590-606C-4849-9FE1-0C6A2472992AQ30370001-9A72AFFE-4CB1-4A08-9B23-5D4F66F08A25Q30405467-73B98B78-19FE-4F9A-BD88-9031DD9A10FDQ33454851-807BFEBF-B547-4AED-A72F-3BCA60C7BE73Q33643140-4252AA40-8390-4302-A371-C469810ED6C8Q33786168-EF2FA30F-2DF1-4FDB-B928-E1ACE08D2D3FQ35193787-B64B4B5B-CB69-4F98-964E-CE9E04033383Q36815738-B733C003-8F57-4A4F-B001-C8E5E9DD136EQ37025582-FEA55D32-C390-4A7B-BFAE-9C9E50309258Q37288560-91F67469-18C4-4F1F-9492-0D4AF9B8D325Q37391416-216BD4B9-4107-4D47-B082-39A45D40CEB6Q38256974-4678D50C-2063-452C-BD43-9D22F027E146Q38310888-D75E3437-CA1F-4483-B914-FAD615B5334EQ38632820-01146560-EF53-490E-A064-93185A86CE4CQ38811243-354B0179-05FA-4AA8-AF31-C8FF5584594BQ38958529-65FD5F82-FCBA-410E-88B7-773A39134E68Q39110148-8886FEB2-6B61-440B-8D46-FD1175F1CC15Q39309814-5830166C-BE02-46E7-8480-8DB1976C7F71Q39404956-6986BBA4-09CC-4203-94DB-6C653EC73AA7Q41196110-2D9DC78F-8EE7-4F6D-9A4F-DB53AE71382AQ41207382-6F6C0910-B7ED-46A6-AE29-93A3C72DCDB8Q42360604-F0B8AF04-B6DF-4B64-996D-EADAE4B514CEQ42360609-15A16F5F-C7F0-4599-8F7F-C3795DBBD71EQ42408972-CE0FA736-52FD-484C-89EC-735B2E99510CQ45066274-6EBEB728-D331-4595-9063-CA00CD3A8D82
P2860
Closed-loop artificial pancreas systems: engineering the algorithms.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on January 2014
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Closed-loop artificial pancreas systems: engineering the algorithms.
@en
Closed-loop artificial pancreas systems: engineering the algorithms.
@nl
type
label
Closed-loop artificial pancreas systems: engineering the algorithms.
@en
Closed-loop artificial pancreas systems: engineering the algorithms.
@nl
prefLabel
Closed-loop artificial pancreas systems: engineering the algorithms.
@en
Closed-loop artificial pancreas systems: engineering the algorithms.
@nl
P2093
P2860
P356
P1433
P1476
Closed-loop artificial pancreas systems: engineering the algorithms.
@en
P2093
Howard C Zisser
Joon Bok Lee
Lauren M Huyett
P2860
P304
P356
10.2337/DC13-2108
P407
P577
2014-01-01T00:00:00Z