Multiple Organ Dysfunction Syndrome: Exploring the Paradigm of Complex Nonlinear Systems

Overview

Journal Crit Care Med

Specialties Critical Care
Emergency Medicine

Date 2000 Aug 2

PMID 10921540

Citations 78

Authors

A J Seely

N V Christou

Affiliations

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Abstract

Objectives: The objectives of this article are to introduce and explore a novel paradigm based on complex nonlinear systems, and to evaluate its application to critical care research regarding the systemic host response and multiple organ dysfunction syndrome (MODS).

Data Sources: Published original work, review articles, scientific abstracts and books, as well as our personal files.

Study Selection: Studies were selected for their relevance to the applications of nonlinear complex systems, to critical care medicine, and to the concepts presented.

Data Extraction: We extracted all applicable data.

Data Synthesis: Following a brief review of MODS, an introduction to complex nonlinear systems is presented, including clear concepts, definitions, and properties. By examining the multiple, nonlinear, interrelated, and variable interactions between the metabolic, neural, endocrine, immune, and inflammatory systems; data regarding interconnected antibody networks; and the redundant, nonlinear, interdependent nature of the inflammatory response, we present the hypothesis that the systemic host response to trauma, shock, or sepsis must be evaluated as a complex nonlinear system. This model provides a new explanation for the failure of trials using various antimediator therapies in the treatment of patients with sepsis and MODS. Understanding the host response as a complex nonlinear system offers innovative means of studying critical care patients, specifically by suggesting a greater focus on systemic properties. We hypothesize that analysis of variability and connectivity of individual variables offer a novel means of evaluating and differentiating the systemic properties of a complex nonlinear system. Current applications of evaluating variability and connectivity are discussed, and insights regarding future research are offered.

Conclusion: The paradigm offered by the study of complex nonlinear systems suggests new insights to pursue research to evaluate, monitor, and treat patients with MODS.

Citing Articles

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Roadmap for the evolution of monitoring: developing and evaluating waveform-based variability-derived artificial intelligence-powered predictive clinical decision support software tools.

Seely A, Newman K, Ramchandani R, Herry C, Scales N, Hudek N Crit Care. 2024; 28(1):404.

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Essential New Complexity-Based Themes for Patient-Centered Diagnosis and Treatment of Dementia and Predementia in Older People: Multimorbidity and Multilevel Phenomenology.

Wertman E J Clin Med. 2024; 13(14).

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