败血症期间的体温调节和存活:从盲肠结扎和穿刺实验模型中获得的启示。

IF 2.8 Q2 CRITICAL CARE MEDICINE Intensive Care Medicine Experimental Pub Date : 2024-11-10 DOI:10.1186/s40635-024-00687-8
Luis H A Costa, Isis P Trajano, Patricia Passaglia, Luiz G S Branco
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引用次数: 0

摘要

背景:败血症因其发病率和死亡率高而一直是全球关注的主要健康问题。体温(Tb)的变化,如低温或发热,是诊断指标,在败血症的病理生理学中起着至关重要的作用。本研究旨在利用盲肠结扎和穿刺(CLP)模型描述败血症期间的体温调节机制,并探讨败血症严重程度和环境温度(Ta)如何影响体温调节和死亡率。大鼠在温度中性(28 °C)或温度中性以下(22 °C)的环境中接受轻度或重度败血症的CLP治疗,并对其Tb进行12小时的监测,收集血液和下丘脑以分析细胞因子和前列腺素E2(PGE2):结果:28 °C时,发热反应幅度与败血症严重程度和炎症反应相关,尾部血管收缩是主要的热保持机制。在22 °C时,Tb在轻度败血症期间保持不变,但在重度败血症期间下降,这与棕色脂肪组织中UCP1表达减少和血管收缩效果较差有关。尽管体温调节反应不同,但两种温度条件都会诱发持续的炎症反应,并增加下丘脑 PGE2 的分泌。值得注意的是,28 °C(80%)与 22 °C(0%)相比,严重败血症的死亡率明显更高:我们的研究结果表明,环境温度和炎症负担对败血症早期的体温调节和存活率有重要影响。这些结果强调了在临床前败血症研究中考虑环境因素的重要性。虽然实验环境中的啮齿类动物通常能适应寒冷环境,但这些条件可能无法完全转化为人类败血症,因为人类很少有寒冷适应能力。因此,研究人员在设计实验和解释转化意义时应仔细考虑这些变量。
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Thermoregulation and survival during sepsis: insights from the cecal ligation and puncture experimental model.

Background: Sepsis remains a major global health concern due to its high prevalence and mortality. Changes in body temperature (Tb), such as hypothermia or fever, are diagnostic indicators and play a crucial role in the pathophysiology of sepsis. This study aims to characterize the thermoregulatory mechanisms during sepsis using the cecal ligation and puncture (CLP) model and explore how sepsis severity and ambient temperature (Ta) influence Tb regulation and mortality. Rats were subjected to mild or severe sepsis by CLP while housed at thermoneutral (28 °C) or subthermoneutral (22 °C) Ta, and their Tb was monitored for 12 h. Blood and hypothalamus were collected for cytokines and prostaglandin E2 (PGE2) analysis.

Results: At 28 °C, febrile response magnitude correlated with sepsis severity and inflammatory response, with tail vasoconstriction as the primary heat retention mechanism. At 22 °C, Tb was maintained during mild sepsis but dropped during severe sepsis, linked to reduced UCP1 expression in brown adipose tissue and less effective vasoconstriction. Despite differences in thermoregulatory responses, both Ta conditions induced a persistent inflammatory response and increased hypothalamic PGE2 production. Notably, mortality in severe sepsis was significantly higher at 28 °C (80%) compared to 22 °C (0%).

Conclusions: Our findings reveal that ambient temperature and the inflammatory burden critically influence thermoregulation and survival during early sepsis. These results emphasize the importance of considering environmental factors in preclinical sepsis studies. Although rodents in experimental settings are often adapted to cold environments, these conditions may not fully translate to human sepsis, where cold adaptation is rare. Thus, researchers should carefully consider these variables when designing experiments and interpreting translational implications.

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来源期刊
Intensive Care Medicine Experimental
Intensive Care Medicine Experimental CRITICAL CARE MEDICINE-
CiteScore
5.10
自引率
2.90%
发文量
48
审稿时长
13 weeks
期刊最新文献
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