Rescuing emergency cases of COVID-19 patients: An intelligent real-time MSC transfusion framework based on multicriteria decision-making methods

IF 3.4 2区 计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
M. A. Alsalem, O. S. Albahri, A. A. Zaidan, Jameel R. Al-Obaidi, Alhamzah Alnoor, A. H. Alamoodi, A. S. Albahri, B. B. Zaidan, F. M. Jumaah
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引用次数: 17

Abstract

Mesenchymal stem cells (MSCs) have shown promising ability to treat critical cases of coronavirus disease 2019 (COVID-19) by regenerating lung cells and reducing immune system overreaction. However, two main challenges need to be addressed first before MSCs can be efficiently transfused to the most critical cases of COVID-19. First is the selection of suitable MSC sources that can meet the standards of stem cell criteria. Second is differentiating COVID-19 patients into different emergency levels automatically and prioritising them in each emergency level. This study presents an efficient real-time MSC transfusion framework based on multicriteria decision-making(MCDM) methods. In the methodology, the testing phase represents the ability to adhere to plastic surfaces, the upregulation and downregulation of specific surface protein markers and finally the ability to differentiate into different kinds of cells. In the development phase, firstly, two scenarios of an augmented dataset based on the medical perspective are generated to produce 80 patients with different emergency levels. Secondly, an automated triage algorithm based on a formal medical guideline is proposed for real-time monitoring of COVID-19 patients with different emergency levels (i.e. mild, moderate, severe and critical) considering the improvement and deterioration procedures from one level to another. Thirdly, a unique decision matrix for each triage level (except mild) is constructed on the basis of the intersection between the evaluation criteria of each emergency level and list of COVID-19 patients. Thereafter, MCDM methods (i.e. analytic hierarchy process [AHP] and vlsekriterijumska optimizcija i kaompromisno resenje [VIKOR]) are integrated to assign subjective weights for the evaluation criteria within each triage level and then prioritise the COVID-19 patients on the basis of individual and group decision-making(GDM) contexts. Results show that: (1) in both scenarios, the proposed algorithm effectively classified the patients into four emergency levels, including mild, moderate, severe and critical, taking into consideration the improvement and deterioration cases. (2) On the basis of experts’ perspectives, clear differences in most individual prioritisations for patients with different emergency levels in both scenarios were found. (3) In both scenarios, COVID-19 patients were prioritised identically between the internal and external group VIKOR. During the evaluation, the statistical objective method indicated that the patient prioritisations underwent systematic ranking. Moreover, comparison analysis with previous work proved the efficiency of the proposed framework. Thus, the real-time MSC transfusion for COVID-19 patients can follow the order achieved in the group VIKOR results.

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新冠肺炎急诊抢救:基于多准则决策方法的智能实时MSC输血框架
间充质干细胞(MSC)通过再生肺细胞和减少免疫系统过度反应,显示出治疗2019冠状病毒病(新冠肺炎)危重病例的良好能力。然而,首先需要解决两个主要挑战,然后才能有效地将MSC输注到新冠肺炎最危重的病例中。首先是选择能够满足干细胞标准的合适MSC来源。第二,将新冠肺炎患者自动区分为不同的紧急级别,并在每个紧急级别中对他们进行优先排序。本研究提出了一种基于多准则决策(MCDM)方法的高效实时MSC输血框架。在该方法中,测试阶段代表了粘附在塑料表面的能力、特异性表面蛋白标记物的上调和下调,以及最终分化为不同类型细胞的能力。在开发阶段,首先,生成基于医学视角的增强数据集的两个场景,以产生80名不同紧急级别的患者。其次,考虑到从一个级别到另一个级别的改善和恶化程序,提出了一种基于正式医疗指南的自动分诊算法,用于实时监测不同紧急级别(即轻度、中度、重度和危重)的新冠肺炎患者。第三,在每个急救级别的评估标准与新冠肺炎患者名单之间的交叉点的基础上,构建了每个分诊级别(轻度除外)的唯一决策矩阵。此后,整合了MCDM方法(即层次分析法(AHP)和vlsecriterijumska optimizcija i kaompromisno resenje(VIKOR)),为每个分诊级别内的评估标准分配主观权重,然后根据个人和群体决策(GDM)背景对新冠肺炎患者进行优先排序。结果表明:(1)在这两种情况下,考虑到改善和恶化的情况,该算法有效地将患者分为四个紧急级别,包括轻度、中度、重度和危重症。(2) 根据专家的观点,在两种情况下,不同急诊级别的患者的大多数个人优先顺序存在明显差异。(3) 在这两种情况下,新冠肺炎患者在内部和外部VIKOR组之间的优先顺序相同。在评估过程中,统计客观方法表明,对患者的优先级进行了系统排序。此外,与以往工作的比较分析证明了所提出的框架的有效性。因此,新冠肺炎患者的实时MSC输注可以遵循VIKOR组结果中实现的顺序。
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来源期刊
Applied Intelligence
Applied Intelligence 工程技术-计算机:人工智能
CiteScore
6.60
自引率
20.80%
发文量
1361
审稿时长
5.9 months
期刊介绍: With a focus on research in artificial intelligence and neural networks, this journal addresses issues involving solutions of real-life manufacturing, defense, management, government and industrial problems which are too complex to be solved through conventional approaches and require the simulation of intelligent thought processes, heuristics, applications of knowledge, and distributed and parallel processing. The integration of these multiple approaches in solving complex problems is of particular importance. The journal presents new and original research and technological developments, addressing real and complex issues applicable to difficult problems. It provides a medium for exchanging scientific research and technological achievements accomplished by the international community.
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