Triedman J K, Saul J P
Department of Cardiology, Children's Hospital, Boston, Mass. 02115.
Circulation. 1994 Jan;89(1):169-79. doi: 10.1161/01.cir.89.1.169.
Despite constant fluctuations in cardiac preload caused by the effects of respiration and changes in posture on venous return to the heart, arterial blood pressure remains remarkably constant. The effects of instantaneous lung volume (ILV) and variations of central venous pressure (CVP) on blood pressure (BP) were studied by use of frequency domain techniques to quantify the contribution of heart rate (HR) reflexes to attenuation of the effects of changes in right ventricular preload on arterial pressure.
Random independent variation of ILV, then CVP (obtained using lower-body negative pressure), was performed in eight humans in the supine position. HR, ILV, CVP, and systolic (SBP) and diastolic (DBP) BPs were recorded during control periods and after complete blockade obtained by use of 0.04 mg/kg atropine and 0.2 mg/kg propranolol. A frequency-domain analysis was performed on pairwise relations by the cross-spectral technique. During autonomic blockade, fluctuations in CVP were induced up to 0.14 Hz but caused corresponding changes in arterial pressure only up to 0.08 Hz (P < .02), indicating a mechanical damping effect of the heart and pulmonary vasculature. Fluctuations of BP were also delayed from CVP by 1.55 to 2.10 seconds. At frequencies < 0.1 Hz, relations of CVP to all indices of BP increased with blockade (CVP-SBP, 0.9 +/- 0.5 versus 2.7 +/- 0.8 mm Hg/mm Hg, P < .01; CVP-DBP, 1.3 +/- 0.4 versus 4.3 +/- 1.4 mm Hg/mm Hg, P < .01; CVP-pulse pressure [PP], 1.0 +/- 0.3 versus 1.9 +/- 0.8 mm Hg/mm Hg, P < .05). Higher-frequency fluctuations of arterial BP were a relatively pure manifestation of respiratory activity. At frequencies from 0.15 to 0.35 Hz, the relation of ILV to SBP was unchanged with blockade, whereas relations of ILV to DBP and PP decreased (ILV-DBP, 6.1 +/- 3.5 versus 3.3 +/- 2.2 mm Hg/L, P < .02; ILV-PP, 7.0 +/- 4.3 versus 2.7 +/- 2.2 mm Hg/L, P < .01). An associated change in phase of these relations suggested that neurally mediated changes in HR may offset mechanical effects caused by respiration.
Both slow changes of BP (< 0.08 Hz) induced by variations of CVP and more rapid changes induced by ILV are actively buffered by heart rate reflexes. During blockade, the mechanical properties of interposed cardiopulmonary structures limit CVP-induced fluctuations of BP. These findings have implications for BP regulation in pathological conditions associated with impairment of HR control.
尽管呼吸作用和姿势改变对静脉回心血量产生影响,导致心脏前负荷不断波动,但动脉血压仍保持显著稳定。本研究采用频域技术,探讨瞬时肺容积(ILV)和中心静脉压(CVP)变化对血压(BP)的影响,以量化心率(HR)反射对右心室前负荷变化所致动脉压影响的衰减作用。
对8名仰卧位受试者,先随机独立改变ILV,然后通过下体负压法改变CVP。记录对照期及使用0.04mg/kg阿托品和0.2mg/kg普萘洛尔完全阻断自主神经后,HR、ILV、CVP以及收缩压(SBP)和舒张压(DBP)。采用交叉谱技术对各配对关系进行频域分析。自主神经阻断期间,CVP波动频率可达0.14Hz,但仅在0.08Hz以下频率引起动脉压相应变化(P<0.02),提示心脏和肺血管系统存在机械性阻尼效应。BP波动相对于CVP延迟1.55至2.10秒。在频率<0.1Hz时,CVP与所有BP指标的关系在阻断后增强(CVP-SBP,0.9±0.5对2.7±0.8mmHg/mmHg,P<0.01;CVP-DBP,1.3±0.4对4.3±1.4mmHg/mmHg,P<0.01;CVP-脉压[PP],1.0±0.3对1.9±0.8mmHg/mmHg,P<0.05)。动脉BP的高频波动是呼吸活动的相对单纯表现。在0.15至0.35Hz频率范围内,ILV与SBP的关系在阻断后不变,而ILV与DBP和PP的关系减弱(ILV-DBP,6.1±3.5对3.3±2.2mmHg/L,P<0.02;ILV-PP,7.0±4.3对2.7±2.2mmHg/L,P<0.01)。这些关系的相位相关变化提示,HR的神经介导变化可能抵消呼吸引起的机械效应。
CVP变化引起的BP缓慢变化(<0.08Hz)和ILV引起的更快变化均受到心率反射的有效缓冲。阻断期间,心肺结构的机械特性限制了CVP引起的BP波动。这些发现对与HR控制受损相关的病理状态下的BP调节具有重要意义。
