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基于血糖调节系统计算模型分析葡萄糖反应性胰高血糖素治疗。

Analysis of Glucose Responsive Glucagon Therapeutics using Computational Models of the Glucoregulatory System.

机构信息

Department of Chemical Engineering, Massachusetts Institute of Technology, Cambridge, MA, 02139, USA.

出版信息

Adv Healthc Mater. 2024 Nov;13(29):e2401410. doi: 10.1002/adhm.202401410. Epub 2024 Aug 29.

DOI:10.1002/adhm.202401410
PMID:39205540
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11582512/
Abstract

Glucose-responsive glucagon (GRG) therapeutics are a promising technology for reducing the risk of severe hypoglycemia as a complication of diabetes mellitus. Herein, the performance of candidate GRGs in the literature by modeling the kinetics of activation and connecting them as input into physiological glucoregulatory models is evaluated and projected the two distinct GRG designs, experimental results reported in Wu et al. (GRG-I) and Webber et al. (GRG-II) is considered. Both are evaluated using a multi-compartmental glucoregulatory model (IMPACT) and used to compare in-vivo experimental data of therapeutic performance in rats and mice. For GRG-I and GRG-II, the total integrated glucose material balances are overestimated by 41.5% ± 14% and underestimated by 24.8% ± 16% compared to in-vivo time-course data, respectively. These large differences to the relatively simple computational descriptions of glucagon dynamics in the model, which underscores the urgent need for improved glucagon models is attributed. Additionally, therapeutic insulin and glucagon infusion pumps are modeled for type 1 diabetes mellitus (T1DM) human subjects to extend the results to additional datasets. These observations suggest that both the representative physiological and non-physiological models considered in this work require additional refinement to successfully describe clinical data that involve simultaneous, coupled insulin, glucose, and glucagon dynamics.

摘要

葡萄糖响应性胰高血糖素 (GRG) 疗法是降低糖尿病严重低血糖并发症风险的有前途的技术。在此,通过模拟激活动力学将文献中的候选 GRG 性能建模,并将其作为输入连接到生理糖调节模型中进行评估,并预测了两种截然不同的 GRG 设计,考虑了 Wu 等人报告的实验结果 (GRG-I) 和 Webber 等人的实验结果 (GRG-II)。这两种设计都使用多室糖调节模型 (IMPACT) 进行评估,并用于比较大鼠和小鼠体内治疗性能的实验数据。对于 GRG-I 和 GRG-II,与体内时间过程数据相比,总积分葡萄糖物质平衡分别高估了 41.5%±14%和低估了 24.8%±16%。这些差异很大,而模型中胰高血糖素动力学的相对简单计算描述,凸显了急需改进胰高血糖素模型的必要性。此外,还为 1 型糖尿病 (T1DM) 人类受试者模拟了治疗性胰岛素和胰高血糖素输注泵,将结果扩展到其他数据集。这些观察结果表明,本工作中考虑的代表性生理和非生理模型都需要进一步改进,以成功描述涉及胰岛素、葡萄糖和胰高血糖素同时耦合的临床数据。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/527f/11582512/e2cd1d143aee/ADHM-13-0-g002.jpg
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本文引用的文献

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J Am Chem Soc. 2024 Mar 20;146(11):7498-7505. doi: 10.1021/jacs.3c13139. Epub 2024 Mar 11.
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Glucose-Triggered Gelation of Supramolecular Peptide Nanocoils with Glucose-Binding Motifs.具有葡萄糖结合基序的超分子肽纳米线圈的葡萄糖触发凝胶化。
Adv Mater. 2024 Apr;36(16):e2311498. doi: 10.1002/adma.202311498. Epub 2023 Dec 26.
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In Silico Investigation of the Clinical Translatability of Competitive Clearance Glucose-Responsive Insulins.
竞争性清除葡萄糖反应性胰岛素临床可转化性的计算机模拟研究
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