新生儿脑缺氧/缺血引起的脑损伤:病理和药理修饰。

U I Tuor, M R Del Bigio, P D Chumas
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引用次数: 0

摘要

脑缺氧/缺血引起的脑损伤仍然是人类婴儿的一个主要问题,这为在动物模型中测试潜在的神经保护剂提供了动力。虽然这些动物模型并不完全反映人类病理(例如,关于易受损伤的区域),但它们通常具有人类灰质缺氧/缺血性损伤的组织学特征。直接比较模型的一个重要因素是出生时大脑的发育阶段,这在物种之间差异很大。预防或治疗新生儿脑缺氧/缺血性损伤的方法与成人相似。然而,大多数这些结果应该谨慎解释,因为经常使用很少同步生理监测的新生大鼠模型。与成人一样,在受辱期间的适度低温或受辱前的预适应应激可防止缺氧/缺血性脑损伤。与成人不同的是,在缺氧/缺血损伤期间,用中等剂量的糖皮质激素或高血糖进行预处理可以保护大脑免受梗死。部分保护,主要是在新生大鼠中,也通过预处理电压敏感钙通道拮抗剂、自由基清除剂、生长因子、神经节苷类、抗惊厥药、抗炎药和一氧化氮合酶抑制剂产生。一些药物的后处理是有效的。最一致的是在损伤前和损伤后4小时内使用谷氨酸受体拮抗剂观察到的保护作用。在考虑临床应用之前,应该测量大多数这些疗法对血糖、体温和/或体循环的影响,并在更大的物种中证实其保护作用。
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Brain damage due to cerebral hypoxia/ischemia in the neonate: pathology and pharmacological modification.

Brain damage due to an episode of cerebral hypoxia/ischemia remains a major problem in the human infant, providing impetus for the testing of potential neuroprotective agents in animal models. Although these animal models do not mirror the human pathology exactly (e.g., with respect to regions vulnerable to damage), they usually have the histological characteristics of gray matter hypoxic/ischemic injury in the human. An important factor in comparing models directly is the stage of development of the brain at birth, which varies widely between species. Approaches to prevent or treat cerebral hypoxic/ischemic damage in neonates have paralleled those in adults. However, most of these results should be interpreted cautiously, since neonatal rat models with little concurrent physiological monitoring are often used. As in adults, moderate hypothermia during the insult or a preconditioning stress prior to the insult has prevented hypoxic/ ischemic brain damage. Different from adults is the demonstration that pretreatment with moderate doses of glucocorticoids or hyperglycemia during the hypoxic/ ischemic insult protects the brain against infarction. Partial protection, primarily in neonatal rats, has also been produced by pretreatment with voltage-sensitive calcium channel antagonists, free radical scavengers, growth factors, gangliosides, anticonvulsants, antiinflammatory agents, and nitric oxide synthase inhibitors. Posttreatment has been effective with a few agents. The most consistent has been the protective effect observed with glutamate receptor antagonists administered before but also up to 4 h after the insult. The effects of most of these therapies on blood glucose, body temperature, and/or the systemic circulation should be measured and the protective effects confirmed in larger species prior to considering clinical applications.

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Brain damage due to cerebral hypoxia/ischemia in the neonate: pathology and pharmacological modification. The stress gene response in brain. Periinfarct depolarizations. Perfluorochemical oxygen carriers: potential uses in neurosciences. Cortical thermal clearance as a predictor of imminent neurological deterioration.
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