Thermoregulation: A journey from physiology to computational models and the intensive care unit.

IF 7.9 Q1 Medicine
Kristijan Skok, Maja Duh, Andraž Stožer, Andrej Markota, Marko Gosak
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引用次数: 0

Abstract

Thermoregulation plays a vital role in homeostasis. Many species of animals as well as humans have evolved various physiological mechanisms for body temperature control, which are characteristically flexible and enable a fine-tuned spatial and temporal regulation of body temperature in different environmental conditions and circumstances. Human beings normally maintain a core body temperature at around 37°C, and maintenance of this relatively high temperature is critical for survival. Therefore, principles of thermoregulatory control have also important clinical implications. Infections can cause the body temperature to rise internally and several diseases can cause a dysfunction of thermoregulatory mechanisms. Moreover, the utilization of thermotherapies in treating various diseases has been known for thousands of years with a recent resurgence of interest. An increasing amount of research suggests that targeted temperature management is of paramount importance to patient outcomes in certain clinical scenarios. We provide a concise summary of the basic concepts of thermoregulation. Emphasis is given to the principles of thermoregulation in humans in basic pathological states and to targeted temperature management strategies in the clinical environment, with special attention on therapeutic hypothermia in postcardiac arrest patients. Finally, the discussion is focused on the potential offered by computational thermophysiological models for predicting thermal responses of patients in various clinical circumstances, for proposing new perspectives in the design of novel thermal therapies, and to optimize targeted temperature management strategies. This article is categorized under: Cardiovascular Diseases > Cardiovascular Diseases>Computational Models Cardiovascular Diseases > Cardiovascular Diseases>Environmental Factors Cardiovascular Diseases > Cardiovascular Diseases>Biomedical Engineering.

体温调节:从生理学到计算模型和重症监护室的旅程。
体温调节在体内平衡中起着至关重要的作用。许多动物物种和人类都进化出了各种控制体温的生理机制,这些机制具有灵活的特点,能够在不同的环境条件和环境下对体温进行空间和时间上的微调。人类的核心体温通常维持在 37°C 左右,维持这一相对较高的体温对生存至关重要。因此,体温调节控制原理也具有重要的临床意义。感染可导致体内体温升高,多种疾病可导致体温调节机制功能失调。此外,利用体温疗法治疗各种疾病已有数千年的历史,近来再次引起人们的关注。越来越多的研究表明,在某些临床情况下,有针对性的体温管理对患者的治疗效果至关重要。我们简明扼要地总结了体温调节的基本概念。重点介绍了人类在基本病理状态下的体温调节原理以及临床环境中的针对性体温管理策略,并特别关注心搏骤停后患者的治疗性低温。最后,重点讨论了计算热生理学模型在预测各种临床情况下患者的热反应、提出新型热疗法设计的新视角以及优化有针对性的体温管理策略方面所具有的潜力。本文归类于心血管疾病 > 心血管疾病 > 计算模型 心血管疾病 > 心血管疾病 > 环境因素 心血管疾病 > 心血管疾病 > 生物医学工程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
18.40
自引率
0.00%
发文量
0
审稿时长
>12 weeks
期刊介绍: Journal Name:Wiley Interdisciplinary Reviews-Systems Biology and Medicine Focus: Strong interdisciplinary focus Serves as an encyclopedic reference for systems biology research Conceptual Framework: Systems biology asserts the study of organisms as hierarchical systems or networks Individual biological components interact in complex ways within these systems Article Coverage: Discusses biology, methods, and models Spans systems from a few molecules to whole species Topical Coverage: Developmental Biology Physiology Biological Mechanisms Models of Systems, Properties, and Processes Laboratory Methods and Technologies Translational, Genomic, and Systems Medicine
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