Loos Nathalie, Grant Daniel A, Wild Jennene, Paul Seana, Barfield Charles, Zoccoli Giovanna, Franzini Carlo, Walker Adrian M
Pole Genie Biomedical Perinatalite-Enfance, Universite de Picardie Jules Verne, ETPAPC (EA 2088), Faculte de Medecine, 3 rue des Louvels, Amiens Cedex, France.
J Sleep Res. 2005 Sep;14(3):275-83. doi: 10.1111/j.1365-2869.2005.00464.x.
Cerebral vessels are extensively innervated by sympathetic nerves arising from superior cervical ganglia, and these nerves might play a protective role during the large arterial pressure surges of active sleep (AS). We studied lambs (n=10) undergoing spontaneous sleep-wake cycles before and after bilateral removal of the superior cervical ganglia (SCGx, n=5) or sham ganglionectomy (n=5). Lambs were instrumented to record cerebral blood flow (CBF, flow probe on the superior sagittal sinus), carotid arterial pressure (P(ca)), intra-cranial pressure (P(ic)), cerebral perfusion pressure (Pcp=Pca-Pic) and cerebral vascular resistance (CVR). Prior to SCGx, CBF (mL min-1) was significantly higher in AS than in Quiet Sleep (QS) and Quiet Wakefulness (QW) (17+/-2, 13+/-3, and 14+/-3 respectively, mean+/-SD, P<0.05). Following SCGx, baseline CBF increased by 34, 31, and 29% respectively (P<0.05). CVR also decreased in all states by approximately 25% (P<0.05). During phasic AS, surges of Pca were associated with transient increases in Pcp, Pic and CBF. Following SCGx, peak CBF and Pic during surges became higher and more prolonged (P<0.05). Our study is the first to reveal that tonic sympathetic nerve activity (SNA) constricts the cerebral circulation and restrains baseline CBF in sleep. SNA is further incremented during arterial pressure surges of AS, limiting rises in CBF and Pic, possibly by opposing vascular distension as well as by constricting resistance vessels. Thus, SNA may protect cerebral microvessels from excessive distension during AS, when large arterial blood pressure surges are common.
脑血管理由来自颈上神经节的交感神经广泛支配,这些神经可能在主动睡眠(AS)期间的大动脉压力波动中发挥保护作用。我们研究了10只羔羊,其中5只在双侧切除颈上神经节(SCGx)之前和之后经历自然睡眠-觉醒周期,另外5只接受假神经节切除术。给羔羊安装仪器以记录脑血流量(CBF,上矢状窦上的血流探头)、颈动脉血压(P(ca))、颅内压(P(ic))、脑灌注压(Pcp = Pca - Pic)和脑血管阻力(CVR)。在SCGx之前,AS期间的CBF(mL·min-1)显著高于安静睡眠(QS)和安静觉醒(QW)(分别为17±2、13±3和14±3,平均值±标准差,P<0.05)。SCGx后,基线CBF分别增加了34%、31%和29%(P<0.05)。所有状态下的CVR也降低了约25%(P<0.05)。在AS的相位期,Pca的波动与Pcp、Pic和CBF的短暂增加有关。SCGx后,波动期间的CBF峰值和Pic变得更高且持续时间更长(P<0.05)。我们的研究首次揭示,紧张性交感神经活动(SNA)会收缩脑循环并限制睡眠中的基线CBF。在AS的动脉压力波动期间,SNA进一步增加,限制CBF和Pic的升高,这可能是通过对抗血管扩张以及收缩阻力血管来实现的。因此,当大动脉血压波动常见时,SNA可能保护脑微血管在AS期间免受过度扩张。
