Cobb J P, Natanson C, Hoffman W D, Lodato R F, Banks S, Koev C A, Solomon M A, Elin R J, Hosseini J M, Danner R L
Department of Critical Care Medicine, Warren G. Magnusen Clinical Center, National Institutes of Health, Bethesda, Maryland 20892.
J Exp Med. 1992 Oct 1;176(4):1175-82. doi: 10.1084/jem.176.4.1175.
Inhibitors of nitric oxide synthase (NOS) have been reported to increase mean arterial pressure in animal models of sepsis and recently have been given to patients in septic shock. However, controlled studies to determine the effects of these agents on cardiovascular function and survival in awake animal models of sepsis have not been reported. To examine the therapeutic potential of NOS inhibition in septic shock, we challenged canines with endotoxin (2 or 4 mg/kg i.v.) and treated them with either normal saline or N omega-amino-L-arginine (10 or 1 mg/kg/h), the most specific inhibitor available for the isoform of NOS implicated in septic shock. Endotoxemic animals treated with N omega-amino-L-arginine (n = 11) had higher systemic and pulmonary vascular resistance indices (SVRI and PVRI, p less than or equal to 0.033) and decreased heart rates (p = 0.009), cardiac indices (CI, p = 0.01), oxygen delivery indices (p = 0.027), and oxygen consumption indices (p = 0.046) compared with controls (n = 6). Moreover, N omega-amino-L-arginine increased mortality rates after endotoxin challenge (10 of 11 vs. 1 of 6 controls, p = 0.005). Administration of L-arginine did not improve survival or alter the cardiopulmonary effects of N omega-amino-L-arginine, which suggests that inhibition of NOS may not have been competitive. In normal animals, N omega-amino-L-arginine alone (n = 3) increased SVRI (p = 0.0008) and mean arterial pressure (p = 0.016), and decreased CI (p = 0.01) compared with saline-treated controls (n = 3), but, at the high dose, also produced neuromuscular rigidity and seizure-like activity that was not apparent in the endotoxemic model. Thus, the mortality rate from endotoxemia increased either because of NOS inhibition per se or because of properties unique to N omega-amino-L-arginine, or both.
据报道,一氧化氮合酶(NOS)抑制剂可增加脓毒症动物模型的平均动脉压,最近已用于感染性休克患者。然而,尚未有关于这些药物对清醒脓毒症动物模型心血管功能和生存率影响的对照研究报道。为了研究NOS抑制在感染性休克中的治疗潜力,我们用内毒素(2或4mg/kg静脉注射)攻击犬类,并分别用生理盐水或Nω-氨基-L-精氨酸(10或1mg/kg/h)对其进行治疗,Nω-氨基-L-精氨酸是可用于感染性休克相关NOS亚型的最特异性抑制剂。与对照组(n = 6)相比,接受Nω-氨基-L-精氨酸治疗的内毒素血症动物(n = 11)的全身和肺血管阻力指数(SVRI和PVRI,p≤0.033)更高,心率(p = 0.009)、心脏指数(CI,p = 0.01)、氧输送指数(p = 0.027)和氧消耗指数(p = 0.046)更低。此外,Nω-氨基-L-精氨酸增加了内毒素攻击后的死亡率(11只中的10只 vs. 6只对照组中的1只,p = 0.005)。给予L-精氨酸并不能提高生存率,也不能改变Nω-氨基-L-精氨酸对心肺的影响,这表明对NOS的抑制可能没有竞争性。在正常动物中,与生理盐水处理的对照组(n = 3)相比,单独使用Nω-氨基-L-精氨酸(n = 3)可增加SVRI(p = 0.0008)和平均动脉压(p = 0.016),并降低CI(p = 0.01),但在高剂量时,还会产生神经肌肉强直和癫痫样活动,这在内毒素血症模型中并不明显。因此,内毒素血症的死亡率增加要么是由于NOS抑制本身,要么是由于Nω-氨基-L-精氨酸独特的特性,或者两者兼而有之。
