Aaron S D, Valenza F, Volgyesi G, Mullen J B, Slutsky A S, Stewart T E
Department of Medicine, University of Ottawa, ON, Canada.
Crit Care Med. 1998 Feb;26(2):309-14. doi: 10.1097/00003246-199802000-00033.
Increases in exhaled nitric oxide have been demonstrated to originate from the lungs of rats after septic lung injury. The aim of this study was to investigate whether treatment with the nitric oxide synthase inhibitor N-nitro-L-arginine methyl ester (L-NAME) would prevent lipopolysaccharide (LPS)-induced increases in exhaled nitric oxide and whether this would have an effect on septic lung inflammation.
Prospective, randomized, placebo-controlled animal laboratory investigation.
University laboratory.
Male, anesthetized, paralyzed, and mechanically ventilated Sprague-Dawley rats (n = 27).
Rats were mechanically ventilated with air filtered to remove nitric oxide (expiratory rate 40 breaths/min, tidal volume 3 mL, positive end-expiratory pressure 0, FIO2 0.21). They were then randomized to receive intravenous injections of either L-NAME (25 mg/kg/hr x 4 hrs) (n = 11) or saline (n = 10). Both groups were again randomized to receive either LPS (Salmonella typhosa: 20 mg/kg i.v. x 1 dose) or an equal volume of saline 5 mins later. Thereafter, exhaled gas was collected in polyethylene bags for measurements of nitric oxide concentration. After 4 hrs, the rats were killed and the lungs were preserved and examined histologically. To examine the effect of L-NAME and LPS on mean arterial blood pressure, six additional rats underwent the same ventilation protocol with cannulation of the right internal carotid artery so that systemic arterial pressures could be measured.
Exhaled gas was collected and measurements of NO concentrations were made using chemiluminescence every 20 mins for 240 mins during ventilation. A total lung injury score was calculated by determining the extent of cellular infiltrate, exudate and hemorrhage. Mean arterial pressure was recorded every 5 mins for 20 mins and then at 20-min periods for 120 mins. Exhaled nitric oxide concentrations increased in all the LPS-treated rats that did not receive L-NAME by 120 mins; a plateau was reached by 190 mins that was approximately 4 times greater than control rats not treated with LPS (p < .001). In contrast, rats treated with L-NAME and LPS did not show an increase in exhaled NO. Administration of L-NAME induced a 10-min nonsustained increase in mean arterial pressure in two rats treated with L-NAME followed by LPS. This increase in mean arterial pressure was not seen in two placebo and two LPS-treated rats that did not receive L-NAME. Lung inflammation was significantly worse in the two groups of rats which received LPS compared with the two that did not. L-NAME did not cause lung inflammation in rats that did not receive LPS; however, LPS-treated rats that received L-NAME had more inflammatory interstitial infiltrate (p < .05) and a trend toward worse lung injury than did LPS-treated rats that did not receive L-NAME.
We conclude that L-NAME can inhibit the increase in exhaled NO from the lungs of septic rats, but that this inhibition does not reduce lung inflammation, and may worsen it.
已证实脓毒症肺损伤后大鼠呼出一氧化氮增加源自肺部。本研究旨在探讨一氧化氮合酶抑制剂N-硝基-L-精氨酸甲酯(L-NAME)治疗是否能预防脂多糖(LPS)诱导的呼出一氧化氮增加,以及这是否会对脓毒症肺部炎症产生影响。
前瞻性、随机、安慰剂对照动物实验室研究。
大学实验室。
雄性、麻醉、麻痹并机械通气的Sprague-Dawley大鼠(n = 27)。
用经过滤以去除一氧化氮的空气对大鼠进行机械通气(呼气频率40次/分钟,潮气量3 mL,呼气末正压0,吸入氧浓度0.21)。然后将它们随机分为接受静脉注射L-NAME(25 mg/kg/小时×4小时)(n = 11)或生理盐水(n = 10)。两组再次随机分为接受LPS(伤寒沙门氏菌:20 mg/kg静脉注射×1剂)或5分钟后等量生理盐水。此后,将呼出气体收集在聚乙烯袋中以测量一氧化氮浓度。4小时后,处死大鼠,保存肺并进行组织学检查。为了检查L-NAME和LPS对平均动脉血压的影响,另外6只大鼠接受相同的通气方案并插入右颈内动脉以便测量全身动脉压。
在通气期间每20分钟收集呼出气体并使用化学发光法测量一氧化氮浓度,共240分钟。通过确定细胞浸润、渗出液和出血的程度计算总肺损伤评分。每5分钟记录平均动脉压20分钟,然后每20分钟记录120分钟。在所有未接受L-NAME的LPS处理大鼠中,呼出一氧化氮浓度在120分钟时增加;到190分钟时达到平台期,约为未用LPS处理的对照大鼠的4倍(p <.001)。相比之下,用L-NAME和LPS处理的大鼠呼出一氧化氮未增加。在两只接受L-NAME随后接受LPS处理的大鼠中,给予L-NAME导致平均动脉压出现10分钟的非持续性升高。在两只未接受L-NAME的安慰剂和两只LPS处理大鼠中未观察到平均动脉压的这种升高。与未接受LPS的两组大鼠相比,接受LPS的两组大鼠肺部炎症明显更严重。L-NAME在未接受LPS的大鼠中未引起肺部炎症;然而,接受L-NAME的LPS处理大鼠比未接受L-NAME的LPS处理大鼠有更多的炎症性间质浸润(p <.05),且有肺损伤加重的趋势。
我们得出结论,L-NAME可抑制脓毒症大鼠肺部呼出一氧化氮的增加,但这种抑制并未减轻肺部炎症,反而可能使其加重。
