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本文引用的文献

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Velocity-weighting to prevent controller-induced hypoglycemia in MPC of an artificial pancreas to treat T1DM.在用于治疗1型糖尿病的人工胰腺模型预测控制中采用速度加权以防止控制器诱发的低血糖。
Proc Am Control Conf. 2015 Jul;2015:1635-1640. doi: 10.1109/ACC.2015.7170967. Epub 2015 Jul 30.
2
MPC Design for Rapid Pump-Attenuation and Expedited Hyperglycemia Response to Treat T1DM with an Artificial Pancreas.用于快速泵衰减和加速高血糖反应以治疗1型糖尿病的人工胰腺的MPC设计
Proc Am Control Conf. 2014 Jun;2014:4224-4230. doi: 10.1109/ACC.2014.6859247. Epub 2014 Jul 21.
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Feasibility of Long-Term Closed-Loop Control: A Multicenter 6-Month Trial of 24/7 Automated Insulin Delivery.长期闭环控制的可行性:24/7 自动化胰岛素输送的多中心 6 个月试验。
Diabetes Technol Ther. 2017 Jan;19(1):18-24. doi: 10.1089/dia.2016.0333. Epub 2016 Dec 16.
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Physical Activity/Exercise and Diabetes: A Position Statement of the American Diabetes Association.体力活动/运动与糖尿病:美国糖尿病协会立场声明
Diabetes Care. 2016 Nov;39(11):2065-2079. doi: 10.2337/dc16-1728.
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Periodic zone-MPC with asymmetric costs for outpatient-ready safety of an artificial pancreas to treat type 1 diabetes.用于人工胰腺治疗1型糖尿病门诊就绪安全性的具有不对称成本的周期性区域-MPC
Automatica (Oxf). 2016 Sep;71:237-246. doi: 10.1016/j.automatica.2016.04.015. Epub 2016 Jun 1.
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Outcome Measures for Artificial Pancreas Clinical Trials: A Consensus Report.人工胰腺临床试验的结局指标:一份共识报告。
Diabetes Care. 2016 Jul;39(7):1175-9. doi: 10.2337/dc15-2716.
7
Day-and-Night Closed-Loop Control Using the Unified Safety System in Adolescents With Type 1 Diabetes at Camp.在营地中使用统一安全系统对1型糖尿病青少年进行昼夜闭环控制。
Diabetes Care. 2016 Aug;39(8):e106-7. doi: 10.2337/dc16-0817. Epub 2016 Jun 6.
8
Randomized Summer Camp Crossover Trial in 5- to 9-Year-Old Children: Outpatient Wearable Artificial Pancreas Is Feasible and Safe.5 至 9 岁儿童随机夏令营交叉试验:门诊使用可穿戴式人工胰腺是可行且安全的。
Diabetes Care. 2016 Jul;39(7):1180-5. doi: 10.2337/dc15-2815. Epub 2016 May 10.
9
Multinational Home Use of Closed-Loop Control Is Safe and Effective.跨国居家使用闭环控制系统是安全有效的。
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10
Day-and-Night Hybrid Closed-Loop Insulin Delivery in Adolescents With Type 1 Diabetes: A Free-Living, Randomized Clinical Trial.1型糖尿病青少年的昼夜混合闭环胰岛素给药:一项自由生活的随机临床试验。
Diabetes Care. 2016 Jul;39(7):1168-74. doi: 10.2337/dc15-2078. Epub 2016 Jan 6.

使用区域模型预测控制对青少年进行未宣布的适度运动的门诊闭环控制

Outpatient Closed-Loop Control with Unannounced Moderate Exercise in Adolescents Using Zone Model Predictive Control.

作者信息

Huyett Lauren M, Ly Trang T, Forlenza Gregory P, Reuschel-DiVirgilio Suzette, Messer Laurel H, Wadwa R Paul, Gondhalekar Ravi, Doyle Francis J, Pinsker Jordan E, Maahs David M, Buckingham Bruce A, Dassau Eyal

机构信息

1 Department of Chemical Engineering, University of California Santa Barbara , Santa Barbara, California.

2 William Sansum Diabetes Center , Santa Barbara, California.

出版信息

Diabetes Technol Ther. 2017 Jun;19(6):331-339. doi: 10.1089/dia.2016.0399. Epub 2017 May 1.

DOI:10.1089/dia.2016.0399
PMID:28459617
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5510043/
Abstract

BACKGROUND

The artificial pancreas (AP) has the potential to improve glycemic control in adolescents. This article presents the first evaluation in adolescents of the Zone Model Predictive Control and Health Monitoring System (ZMPC+HMS) AP algorithms, and their first evaluation in a supervised outpatient setting with frequent exercise.

MATERIALS AND METHODS

Adolescents with type 1 diabetes underwent 3 days of closed-loop control (CLC) in a hotel setting with the ZMPC+HMS algorithms on the Diabetes Assistant platform. Subjects engaged in twice-daily exercise, including soccer, tennis, and bicycling. Meal size (unrestricted) was estimated and entered into the system by subjects to trigger a bolus, but exercise was not announced.

RESULTS

Ten adolescents (11.9-17.7 years) completed 72 h of CLC, with data on 95 ± 14 h of sensor-augmented pump (SAP) therapy before CLC as a comparison to usual therapy. The percentage of time with continuous glucose monitor (CGM) 70-180 mg/dL was 71% ± 10% during CLC, compared to 57% ± 16% during SAP (P = 0.012). Nocturnal control during CLC was safe, with 0% (0%, 0.6%) of time with CGM <70 mg/dL compared to 1.1% (0.0%, 14%) during SAP. Despite large meals (estimated up to 120 g carbohydrate), only 8.0% ± 6.9% of time during CLC was spent with CGM >250 mg/dL (16% ± 14% during SAP). The system remained connected in CLC for 97% ± 2% of the total study time. No adverse events or severe hypoglycemia occurred.

CONCLUSIONS

The use of the ZMPC+HMS algorithms is feasible in the adolescent outpatient environment and achieved significantly more time in the desired glycemic range than SAP in the face of unannounced exercise and large announced meal challenges.

摘要

背景

人工胰腺(AP)有改善青少年血糖控制的潜力。本文首次对青少年的区域模型预测控制与健康监测系统(ZMPC+HMS)的AP算法进行评估,并首次在有频繁运动的门诊监督环境中对其进行评估。

材料与方法

1型糖尿病青少年在酒店环境中使用糖尿病辅助平台上的ZMPC+HMS算法进行了3天的闭环控制(CLC)。受试者每天进行两次运动,包括足球、网球和骑自行车。受试者估计餐量(不限量)并输入系统以触发大剂量胰岛素注射,但运动情况未提前告知。

结果

10名青少年(11.9 - 17.7岁)完成了72小时的CLC,将CLC前95±14小时的传感器增强泵(SAP)治疗数据作为常规治疗的对照。CLC期间连续血糖监测(CGM)处于70 - 180mg/dL的时间百分比为71%±10%,而SAP期间为57%±16%(P = 0.012)。CLC期间夜间控制是安全的,CGM<70mg/dL的时间为0%(0%,0.6%),而SAP期间为1.1%(0.0%,14%)。尽管摄入大量食物(估计碳水化合物含量高达120g),CLC期间CGM>250mg/dL的时间仅占8.0%±6.9%(SAP期间为16%±14%)。系统在CLC期间的连接时间占总研究时间的97%±2%。未发生不良事件或严重低血糖。

结论

在青少年门诊环境中使用ZMPC+HMS算法是可行的,并且在面对未提前告知的运动和大量已告知的进餐挑战时,与SAP相比,在理想血糖范围内的时间显著更长。