体温过低
医学
麻醉
缺血
临床试验
安慰剂
冲程(发动机)
脑缺血
心脏病学
内科学
动物研究
神经保护
通风(建筑)
缺氧(环境)
呼吸
氯丙嗪
缺血性中风
药理学
抗胆碱能
作者
Shuaili Xu,Qi Wang,Hong An,H. Wang,Qiang Fang,Tao Li,Qinqin He,Jian Zhou,Jian Chen,Liang Yu,Miaowen Jiang,Ming Li,Huan Zhang,Yuchuan Ding,Shiao Li,Mengqi Wang,Chuanjie Wu,Xunming Ji,Di Wu
标识
DOI:10.1126/scitranslmed.ady7847
摘要
Hypothermia and hypometabolism are important for hibernating animals to survive harsh environmental conditions. Induction of a hypothermic and hypometabolic state is considered an avenue to treat severe diseases, such as ischemic stroke. However, noninvasive and safe methods to achieve a long-lasting hypothermic and hypometabolic state remain limited. Here, we present data from preclinical and clinical studies to explore the feasibility and safety of drug-induced hypothermia by administration of chlorpromazine and promethazine (C+P). In mice, C+P treatment induced hypothermia and suppressed glucose metabolism in the brain. C+P treatment reduced infarct volumes and improved neurological deficit in a mouse middle cerebral artery occlusion model induced by suture insertion. Furthermore, C+P treatment reduced body temperature, suppressed metabolism, and exerted cerebroprotective effects in a rhesus monkey model of stroke. In a double-blind, phase 1 clinical trial (NCT06663631), a total of 32 patients diagnosed with acute ischemic stroke were enrolled, receiving either placebo or increasing doses of C+P treatment: 10, 20, 50, or 100 milligrams. All doses were safe and well tolerated. Only 100 milligrams of C+P resulted in a modest and transient reduction in body temperature. Plasma proteomic profiling revealed a down-regulation of markers associated with aerobic respiration and glucose metabolism. These findings highlight the translational potential of C+P treatment and warrant a larger trial to further investigate safety and efficacy of C+P.
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