Fabian Matthew J, Proctor Kenneth G
Department of Physiology, University of Tennessee Health Science Center, Memphis, USA.
J Trauma. 2002 Nov;53(5):864-75. doi: 10.1097/00005373-200211000-00010.
The purposes of this study were to determine how clinically relevant levels of acute ethanol (EtOH) influence cerebral perfusion pressure (CPP), cerebral venous O saturation (Scvo ), and systemic hemodynamics after fluid resuscitation from traumatic brain injury (TBI); and to test the hypothesis that the actions of EtOH on these variables are mediated by adenosine.
Anesthetized swine were ventilated (Fio = 0.4) and instrumented. In protocol 1, EtOH (3.5 g/kg, n = 11) or its vehicle (n = 17) was administered orally before TBI + 40% hemorrhage. At 90 minutes post-TBI, resuscitation consisted of shed blood + saline. In protocol 2, either saline (n = 15) or an adenosine-regulating agent (5-amino-4-imidazolecarboxamide riboside) in saline (1 mg/kg bolus + 12 mg/kg/h intravenously [i.v.]) (n = 5), was administered i.v. before TBI + 45% hemorrhage. At 90 minutes post-TBI, resuscitation consisted of saline only (three times shed blood volume). In protocol 3, EtOH was administered i.v. (1 g/kg; 20% vol/vol in saline) followed by either an adenosine receptor antagonist (theophylline, 10 mg/kg) or an adenosine uptake inhibitor (dipyridamole, 0.25 mg/kg).
In protocol 1, with no EtOH, 11 of 17 (65%) survived post-TBI hypotension. Mean arterial blood pressure, cardiac index, and mixed venous oxygen saturation were stable for 1 hour at 40% to 60% below their respective baselines, whereas lactate increased three- to fourfold (all p < 0.05). After fluid resuscitation, most variables rapidly corrected, but intracranial pressure was increased 10 to 15 mm Hg (p < 0.05). With EtOH, 9 of 11 (82%) survived post-TBI hypotension (p = 0.42 vs. no EtOH). After resuscitation from TBI, there were significant effects of EtOH on systemic hemodynamics (mean arterial pressure, cardiac index, mixed venous oxygen saturation), on CPP, on lactate, and on Scvo at normo- and hypercapnia (all p < 0.05). The data from protocol 2 showed that essentially none of these changes were duplicated with an adenosine-regulating agent. In protocol 3, i.v EtOH produced small but significant changes in Scvo, intracranial pressure, and lactate, at normo-, hyper-, and hypocapnia. Dipyridamole and theophylline tended to have opposite, albeit small and not statistically significant, effects on these variables relative to EtOH alone.(2) (2)
Acute EtOH (200-300 mg/dL) did not increase mortality after TBI + secondary hypotension, as long as cardiopulmonary support was provided. With EtOH, CPP was maintained and cerebral blood flow appeared to be adequate, if not excessive, with respect to cerebral metabolic demand, as judged by changes in Scvo at normo-, hyper-, and hypocapnia. These changes were probably not mediated, but might have been modulated, by increases in endogenous adenosine.
本研究的目的是确定急性乙醇(EtOH)的临床相关水平如何影响创伤性脑损伤(TBI)液体复苏后的脑灌注压(CPP)、脑静脉血氧饱和度(Scvo)和全身血流动力学;并检验乙醇对这些变量的作用是由腺苷介导的这一假设。
对麻醉的猪进行通气(Fio = 0.4)并进行仪器监测。在方案1中,在TBI + 40%出血前口服给予乙醇(3.5 g/kg,n = 11)或其溶媒(n = 17)。TBI后90分钟,复苏包括回输血 + 生理盐水。在方案2中,在TBI + 45%出血前静脉注射生理盐水(n = 15)或生理盐水(1 mg/kg推注 + 12 mg/kg/h静脉内[i.v.])中的腺苷调节剂(5 - 氨基 - 4 - 咪唑甲酰胺核糖苷)(n = 5)。TBI后90分钟,复苏仅包括生理盐水(回输血体积的三倍)。在方案3中,静脉注射乙醇(1 g/kg;20% vol/vol于生理盐水中),随后给予腺苷受体拮抗剂(茶碱,10 mg/kg)或腺苷摄取抑制剂(双嘧达莫,0.25 mg/kg)。
在方案1中,未给予乙醇时,17只猪中有11只(65%)在TBI后低血压中存活。平均动脉血压、心脏指数和混合静脉血氧饱和度在低于各自基线40%至60%的水平下稳定1小时,而乳酸增加三至四倍(所有p < 0.05)。液体复苏后,大多数变量迅速恢复正常,但颅内压升高10至15 mmHg(p < 0.05)。给予乙醇后,11只猪中有9只(82%)在TBI后低血压中存活(与未给予乙醇相比,p = 0.42)。TBI复苏后,乙醇对全身血流动力学(平均动脉血压、心脏指数、混合静脉血氧饱和度)、CPP、乳酸以及正常和高碳酸血症及低碳酸血症时的Scvo均有显著影响(所有p <
