Baicalin protects against heat-induced multiorgan dysfunction <i>via</i> organ-specific protein modulation: integrative <i>in silico</i> and <i>in vivo</i> evidence

⚡ 摘要

黄芩素通过器官特异性蛋白调节保护热诱导的多器官功能障碍:整合计算机模拟与体内实验证据

作者 Anjali Kumari; Aisha Tufail; Magda H. Abdellattif; Amit Dubey; Rakesh Kumar Sinha 期刊 RSC Advances 发表日期 2026 ISSN 2046-2069 DOI 10.1039/d5ra05510e 类型 原创研究 (Original Research)

📄 英文摘要 English Abstract

EN

Heatstroke-induced multiorgan dysfunction represents a life-threatening clinical emergency characterized by systemic oxidative stress, inflammation, and metabolic collapse across vital organs.

📄 中文摘要 Chinese Abstract

中文
热射病诱发的多器官功能障碍是一种危及生命的临床急症,其特征为全身性氧化应激、广泛性炎症反应以及影响多个重要器官的代谢衰竭。该病症发生于机体体温调节机制在极端热暴露下失效时,进而导致细胞损伤与器官功能衰竭。深入理解其潜在病理生理机制对于开发有效干预措施至关重要。

📋 英文结构化总结 English Structured Summary

摘要整理

EN

Background:

Heatstroke-induced multiorgan dysfunction is a life-threatening clinical emergency marked by systemic oxidative stress, widespread inflammation, and metabolic collapse affecting multiple vital organs. The condition arises when the body’s thermoregulatory mechanisms fail under extreme heat exposure, leading to cellular damage and organ failure. Understanding the underlying pathophysiology is critical for developing effective interventions.

Methods:

N/A – Review article

Results:

The abstract does not present specific experimental or observational findings, as it serves as an introductory statement rather than a detailed report of results.

Data Summary:

No quantitative results or key statistics are provided in the given text.

Conclusions:

The text emphasizes the severity and complexity of heatstroke-induced multiorgan dysfunction but does not draw explicit conclusions due to its limited scope.

Practical Significance:

This condition underscores the urgent need for rapid clinical recognition and targeted therapeutic strategies to mitigate organ damage and improve patient outcomes in heat-related emergencies.

📋 中文结构化总结 Chinese Structured Summary

中文

背景:

热射病诱发的多器官功能障碍是一种危及生命的临床急症,其特征为全身性氧化应激、广泛性炎症反应以及影响多个重要器官的代谢衰竭。该病症发生于机体体温调节机制在极端热暴露下失效时,进而导致细胞损伤与器官功能衰竭。深入理解其潜在病理生理机制对于开发有效干预措施至关重要。

方法:

不适用——综述类文章

结果:

本摘要未呈现具体的实验性或观察性发现,因其为引言性陈述,而非详细的结果报告。

数据摘要:

所提供文本中未包含定量结果或关键统计数据。

结论:

本文强调了热射病诱发多器官功能障碍的严重性与复杂性,但由于其范围有限,未得出明确结论。

实际意义:

该病症凸显了在热相关急症中迅速进行临床识别并采取针对性治疗策略以减轻器官损伤、改善患者预后的紧迫需求。