Powell R W, Dyess D L, Collins J N, Roberts W S, Tacchi E J, Swafford A N, Ferrara J J, Ardell J L
Department of Surgery, University of South Alabama College of Medicine, Mobile, USA.
J Pediatr Surg. 1999 Jan;34(1):193-8. doi: 10.1016/s0022-3468(99)90255-5.
BACKGROUND/PURPOSE: Hypothermia (HT) remains a significant stress to the newborn and has been implicated in the pathogenesis of necrotizing enterocolitis (NEC). The authors assessed the effect of transient HT (32 degrees C) on regional organ blood flow in anesthetized piglets at age 7 to 10 days preterm (PREM), 1 to 2 days (NB), and 1 to 2 weeks (NEO).
Radiolabeled microspheres were used to determine organ blood flows (mL/min/g) at baseline, 15, and 60 minutes after HT and 60 minutes after rewarming to baseline core temperature.
Heart rate and cardiac output decreased significantly in all groups. Cardiac flow decreased significantly in the NEO group, and central nervous system (CNS) flow decreased significantly in the NB and NEO groups. Both returned to baseline levels after rewarming. The PREM group experienced decreased cardiac, CNS, and intestinal blood flows but not to significant levels. NB and NEO intestinal blood flow showed significant decreases, which remained so after rewarming (a response not seen in hypoxia or hypovolemia). Cardiac output did not return to baseline levels in any group.
HT causes derangements in organ blood flows that differ from other deleterious stimuli such as hypoxia and hypovolemia. The prolonged intestinal ischemia supports HT as a factor in the development of NEC. This delay may offer opportunity to intervene in an attempt to lessen ischemia-reperfusion injury.
背景/目的:低温对新生儿来说仍是一个重大应激因素,且与坏死性小肠结肠炎(NEC)的发病机制有关。作者评估了短暂低温(32摄氏度)对7至10天早产(PREM)、出生1至2天(NB)以及出生1至2周(NEO)的麻醉仔猪局部器官血流的影响。
使用放射性微球来测定在基线、低温后15分钟和60分钟以及复温至基线核心温度后60分钟时的器官血流(毫升/分钟/克)。
所有组的心率和心输出量均显著下降。NEO组的心脏血流显著减少,NB组和NEO组的中枢神经系统(CNS)血流显著减少。复温后两者均恢复至基线水平。PREM组的心脏、CNS和肠道血流减少,但未达到显著水平。NB组和NEO组的肠道血流显著减少,复温后仍保持如此(这一反应在缺氧或低血容量时未出现)。任何组的心输出量均未恢复至基线水平。
低温导致器官血流紊乱,这与缺氧和低血容量等其他有害刺激不同。肠道长时间缺血支持低温作为NEC发展中的一个因素。这种延迟可能提供干预机会,以试图减轻缺血再灌注损伤。
