A bihormonal closed-loop artificial pancreas for type 1 diabetes
about
Coming of age: the artificial pancreas for type 1 diabetesReport from IPITA-TTS Opinion Leaders Meeting on the Future of β-Cell ReplacementThe artificial pancreas: is it important to understand how the β cell controls blood glucose?Treating type 1 diabetes: from strategies for insulin delivery to dual hormonal controlClosed-loop insulin delivery for treatment of type 1 diabetesOvernight closed loop insulin delivery (artificial pancreas) in adults with type 1 diabetes: crossover randomised controlled studiesThe Artificial Pancreas in 2016: A Digital Treatment Ecosystem for Diabetes.Pharmacokinetic Model of the Transport of Fast-Acting Insulin From the Subcutaneous and Intradermal Spaces to BloodMultinight "bedside" closed-loop control for patients with type 1 diabetes.Circadian variability of insulin sensitivity: physiological input for in silico artificial pancreas.Assessing sensor accuracy for non-adjunct use of continuous glucose monitoringThe UVA/PADOVA Type 1 Diabetes Simulator: New FeaturesQuantification of the glycemic response to microdoses of subcutaneous glucagon at varying insulin levels.Multicenter closed-loop/hybrid meal bolus insulin delivery with type 1 diabetes.Multicenter closed-loop insulin delivery study points to challenges for keeping blood glucose in a safe range by a control algorithm in adults and adolescents with type 1 diabetes from various sites.Adding heart rate signal to a control-to-range artificial pancreas system improves the protection against hypoglycemia during exercise in type 1 diabetesSafety of outpatient closed-loop control: first randomized crossover trials of a wearable artificial pancreasPharmacokinetics modeling of exogenous glucagon in type 1 diabetes mellitus patients.Algorithms for a closed-loop artificial pancreas: the case for model predictive control.Algorithms for a closed-loop artificial pancreas: the case for proportional-integral-derivative controlArtificial pancreas: model predictive control design from clinical experienceIn silico optimization of basal insulin infusion rate during exercise: implication for artificial pancreasDiAs user interface: a patient-centric interface for mobile artificial pancreas systemsFeasibility study of a bio-inspired artificial pancreas in adults with type 1 diabetes.Feasibility of outpatient fully integrated closed-loop control: first studies of wearable artificial pancreas.In silico evaluation of an artificial pancreas combining exogenous ultrafast-acting technosphere insulin with zone model predictive control.Diabetes technology: markers, monitoring, assessment, and control of blood glucose fluctuations in diabetes.Use of a food and drug administration-approved type 1 diabetes mellitus simulator to evaluate and optimize a proportional-integral-derivative controller.Design of the health monitoring system for the artificial pancreas: low glucose prediction moduleFully integrated artificial pancreas in type 1 diabetes: modular closed-loop glucose control maintains near normoglycemiaA bio-inspired glucose controller based on pancreatic β-cell physiologyThe identifiable virtual patient model: comparison of simulation and clinical closed-loop study results.Artificial pancreas: past, present, futureClosed-loop insulin delivery utilizing pole placement to compensate for delays in subcutaneous insulin deliveryContinuous glucose monitoring considerations for the development of a closed-loop artificial pancreas system.A controlled study of the effectiveness of an adaptive closed-loop algorithm to minimize corticosteroid-induced stress hyperglycemia in type 1 diabetes.Optimizing reduction in basal hyperglucagonaemia to repair defective glucagon counterregulation in insulin deficiencyA closed-loop artificial pancreas based on risk management.In silico Models of Alcohol Dependence and TreatmentCombining basal-bolus insulin infusion for tight postprandial glucose control: an in silico evaluation in adults, children, and adolescents
P2860
Q26745886-82ED11FC-9220-4C60-9D6F-69B0EE179B6AQ26769878-09A497D7-C74F-4CFB-B17F-E8ACF97B5316Q26852992-B24CF6C1-26DB-499B-9AC1-8079266D6EC2Q26853250-7AA40785-CE27-4B6A-A684-F2F9B5AF0931Q27008127-056323B9-08F3-4FEC-87AC-ADE66DA1AE71Q28741005-9F017096-44EC-46A2-80D0-86344BB5B6A4Q30276534-59503AC2-B9F4-424D-B026-7C5AAF601E0AQ30300391-F5C76FB4-E35D-4445-8481-3E17EAB7B6D3Q30300948-9E8593A0-B010-473E-8450-44D241A79BEFQ30301086-FC6A12C1-93F7-487E-9403-6663CDC75ACFQ30301250-B3F2DBFC-7F6C-451E-9F77-FB06276CB100Q30361597-C473B6A3-2138-4818-8997-4050BEECCDE2Q30370086-B4E28E67-61AF-4366-B010-42191D656832Q30370610-AED193B6-F64E-44EE-A899-D6BCDD871C8AQ30370613-053A2ABF-531F-4F3B-9968-D55744512EF9Q30371583-751B4F45-8A11-4665-8EE8-138D1F6AD45CQ30384396-959EA9D8-26F1-44CE-A7A8-6B443455B65FQ30409749-4DDD7F05-4155-4D6D-BDAD-A8649C087F74Q30409797-3DDF2872-362F-423D-A42F-384FF472C39FQ30409801-9FA29C53-0FD3-4747-B29B-4E74F082CEE9Q30409808-ABE281C6-18D9-4877-A6DA-9769C37CB9E2Q30409811-C0E7C341-EF9F-4029-A3EF-A4A8BF01CE3AQ30409823-C0A1A19E-FDAD-4059-A15D-1FEF0785BA50Q30410965-9B276BE7-F5CD-42E5-A5F7-7E4D0DB1A4C8Q30412117-093E7E73-78BB-47AD-A306-79F81D2C4AA9Q30415517-31C9AFCE-9024-43C4-ABD8-A1860B780ED7Q30416241-36015A87-4D08-48A8-9EA0-0DB6C04067BAQ30416614-C0F6FAF8-3084-4CA2-9866-9210F976C321Q30416619-01469641-7970-4B24-8D89-770EF5C6CDC3Q30417379-32734E83-6AB5-4EA7-8206-A8BB7C7FB508Q30419609-0E6F0003-0665-4CB4-9776-305B2B9A43CAQ30422229-6E8564E8-91D7-41CF-B14C-8F359B57C84EQ30424200-51E7B8C3-5E56-4A19-9BA2-C31342AD0628Q30424297-9E0D4976-1348-4A4E-A4D9-0B197963C45EQ30424301-B5F77060-D790-4294-B1DF-9D6A3F9862FAQ30424305-DB3957FC-3AD5-4835-9CFA-6CCDDF75B4C9Q30424699-365A3516-83F4-4C11-B201-859D0FCCD47EQ30428124-61276610-41D9-4F83-916F-3C2E6D8ED511Q30428337-677B9A04-5F06-43CA-A851-E10A4A1299BBQ30429984-0008B3A6-F7FE-4B54-AE3B-A4AA10B816B2
P2860
A bihormonal closed-loop artificial pancreas for type 1 diabetes
description
2010 nî lūn-bûn
@nan
2010 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
A bihormonal closed-loop artificial pancreas for type 1 diabetes
@ast
A bihormonal closed-loop artificial pancreas for type 1 diabetes
@en
A bihormonal closed-loop artificial pancreas for type 1 diabetes
@nl
type
label
A bihormonal closed-loop artificial pancreas for type 1 diabetes
@ast
A bihormonal closed-loop artificial pancreas for type 1 diabetes
@en
A bihormonal closed-loop artificial pancreas for type 1 diabetes
@nl
prefLabel
A bihormonal closed-loop artificial pancreas for type 1 diabetes
@ast
A bihormonal closed-loop artificial pancreas for type 1 diabetes
@en
A bihormonal closed-loop artificial pancreas for type 1 diabetes
@nl
P2093
P2860
P1476
A bihormonal closed-loop artificial pancreas for type 1 diabetes
@en
P2093
David M Nathan
Edward R Damiano
Firas H El-Khatib
Robert G Sutherlin
Steven J Russell
P2860
P304
P356
10.1126/SCITRANSLMED.3000619
P407
P577
2010-04-01T00:00:00Z