首页|期刊导航|空军军医大学学报|人工智能赋能高原低氧认知损伤研究:从机制解析到闭环神经调控

人工智能赋能高原低氧认知损伤研究:从机制解析到闭环神经调控OACHSSCD

Artificial intelligence-empowered research on high-altitude hypoxic cognitive impairment:from mechanism elucidation to closed-loop neuromodulation—new breakthroughs in digital twin brain and brain-apparatus conversations

中文摘要英文摘要

高原地区承载着重要的经济价值和深远的战略意义,是国家发展的关键所在.然而,该地区特有的低氧环境对机体认知健康构成了严峻挑战,严重影响高原人群的生活质量.因此,高原低氧认知功能损伤机制解析及防护技术研究已成为特殊环境医学领域的重要科学问题.随着人工智能技术的飞速发展和大数据时代的到来,数字孪生脑、闭环神经调控等前沿技术为上述研究提供了新的视角与切入点,不仅有助于深入阐明损伤机制,也为高原人群的认知健康防护赋能.本文对高原低氧认知功能损伤的研究现状进行简要综述,并论述了相关前沿技术在该领域研究中的潜在应用价值,旨在为特殊环境医学中的医工交叉与多学科融合提供参考.

Plateau regions bear significant economic value and profound strategic importance,serving as the key to national development.However,the unique hypoxic environment in these areas poses a serious challenge to cognitive health,severely affecting the quality of life of plateau populations.Therefore,research on the mechanism analysis of hypoxic cognitive impairment in plateau regions and related protective technologies has become an important scientific issue in the field of special environmental medicine.With the rapid development of artificial intelligence and the advent of the big data era,cutting-edge technologies such as digital twin brain and closed-loop neuromodulation provide new perspectives and entry points for the above research,not only helping to elucidate the injury mechanisms but also empowering cognitive health protection for plateau populations.A brief review is provided on the current research status of hypoxic cognitive impairment in plateau regions,and the potential application value of relevant cutting-edge technologies in this field is discussed,aiming to offer a reference for medical-engineering integration and multidisciplinary convergence in special environmental medicine.

郭思嘉;陈景元

空军军医大学军事预防医学系军队劳动与环境卫生学教研室,特殊作业环境危害评估与防治教育部重点实验室,陕西 西安 710032空军军医大学军事预防医学系军队劳动与环境卫生学教研室,特殊作业环境危害评估与防治教育部重点实验室,陕西 西安 710032

医药卫生

高原低氧认知损伤人工智能数字孪生脑脑器交互闭环神经调控

high-altitude hypoxiacognitive impairmentartificial intelligencedigital twin brainbrain-apparatus conversationsclosed-loop neuromodulation

《空军军医大学学报》 2026 (5)

625-630,6

国家自然科学基金重点项目(82030055)

10.13276/j.issn.2097-1656.2026.05.001

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