Redmond J M, Gillinov A M, Blue M E, Zehr K J, Troncoso J C, Cameron D E, Johnston M V, Baumgartner W A
Johns Hopkins Medical Institutions, Baltimore, MD.
Surgery. 1993 Aug;114(2):324-32; discussion 332-3.
Neurologic injury associated with prolonged hypothermic circulatory arrest (HCA) may be mediated by calcium-dependent glutamate excitotoxicity (GE). The monosialoganglioside GM1 has been shown in vitro to limit GE in conditions of metabolic stress. To test the hypothesis that gangliosides can prevent HCA-induced brain injury, GM1 was used in a canine model of HCA.
Twelve male dogs were placed on closed-chest cardiopulmonary bypass, subjected to 2 hours of HCA at 18 degrees C, and rewarmed to 36 degrees to 37 degrees C on closed-chest cardiopulmonary bypass. All were mechanically ventilated and monitored for 20 hours before extubation and survived for 3 days. Group 1 dogs (n = 6) were pretreated with GM1, 30 mg/kg/24hr for 3 days before HCA, and received continuous infusion of GM1 during the procedure and 30 mg/kg/24hr for 3 days after HCA. Group 2 dogs (n = 6) received vehicle only. With a species-specific behavior scale that yielded a neurodeficit score ranging from 0% (normal) to 100% (brain dead), all animals were neurologically assessed every 12 hours. After death at 72 hours, brains were examined by glutamate receptor autoradiography and by histologic examination for patterns of selective neuronal necrosis and were scored blindly from 0 (normal) to 100 (severe injury).
Group 1 dogs had better neurologic function compared with group 2 (neurodeficit score, 4.2% +/- 3% vs 38.4% +/- 8%; p < 0.001) and had less neuronal injury (11.3 +/- 3 vs 48.3 +/- 9, p < 0.001). Densitometric receptor autoradiography revealed preservation of neuronal glutamate receptor expression in group 1 only.
These results provide evidence of a role for GE in the development of HCA-induced brain injury and suggest that monosialogangliosides may have a neuroprotective capacity in prolonged periods of HCA.
与长时间低温循环停止(HCA)相关的神经损伤可能由钙依赖性谷氨酸兴奋性毒性(GE)介导。单唾液酸神经节苷脂GM1在体外已显示在代谢应激条件下可限制GE。为了检验神经节苷脂可预防HCA诱导的脑损伤这一假说,在犬HCA模型中使用了GM1。
12只雄性犬接受闭胸式体外循环,在18℃下进行2小时的HCA,并在闭胸式体外循环下复温至36℃至37℃。所有犬均进行机械通气,并在拔管前监测20小时,存活3天。第1组犬(n = 6)在HCA前3天用GM1预处理,剂量为30 mg/kg/24小时,并在手术过程中持续输注GM1,HCA后3天剂量为30 mg/kg/24小时。第2组犬(n = 6)仅接受赋形剂。使用产生神经功能缺损评分范围从0%(正常)至100%(脑死亡)的物种特异性行为量表,每12小时对所有动物进行神经学评估。在72小时死亡后,通过谷氨酸受体放射自显影和组织学检查来检查大脑,以观察选择性神经元坏死模式,并进行盲法评分,范围从0(正常)至100(严重损伤)。
与第2组相比,第1组犬具有更好的神经功能(神经功能缺损评分,4.2%±3%对38.4%±8%;p < 0.)和更少的神经元损伤(11.3±3对48.3±9,p < 0.001)。密度测定受体放射自显影显示仅在第1组中神经元谷氨酸受体表达得以保留。
这些结果提供了证据,证明GE在HCA诱导的脑损伤发展中起作用,并表明单唾液酸神经节苷脂在长时间HCA期间可能具有神经保护能力。
