Kussmaul W G, Altschuler J A, Herrmann H C, Laskey W K
Department of Medicine, University of Pennsylvania School of Medicine, Philadelphia.
Circulation. 1992 Dec;86(6):1770-9. doi: 10.1161/01.cir.86.6.1770.
Mitral stenosis is characterized by progressive pulmonary hypertension and eventual right ventricular failure. However, the correlation between right ventricular failure and the level of pulmonary hypertension is poor, suggesting that factors other than those recognized from nonpulsatile hemodynamic parameters may contribute to impaired right ventricular performance in this condition.
We studied 16 patients with severe mitral stenosis (mean valve area, 1.0 +/- 0.2 cm2) at supine rest and during pacing tachycardia using high-fidelity catheter recordings of pulmonary artery (PA) pressure and flow velocity. Pulmonary impedance spectra, wave reflection properties, and hydraulic power data were derived from Fourier analysis of signal-averaged data. Pacing tachycardia (baseline heart rate, 81 +/- 11 beats per minute; pacing, 132 +/- 11 beats per minute) significantly raised pulmonary wedge and mean PA pressures. There was no change in pulmonary vascular resistance (209 +/- 144 to 232 +/- 164 dyne-sec/cm5) or PA characteristic impedance (62 +/- 25 to 55 +/- 28 dyne-sec/cm5). However, first harmonic impedance (Z1) significantly decreased (134 +/- 71 to 100 +/- 68 dyne-sec/cm5; p < 0.001). Accordingly, oscillatory and total dissipated hydraulic power per unit forward flow (WT/CO) fell during tachycardia (2.6 +/- 1.6 to 2.3 +/- 1.4 mW/ml.sec-1; p = 0.06) despite acute pulmonary hypertension. Reflected pressure waves returned earlier to the proximal PA, suggesting increased vessel stiffness. Immediately after percutaneous balloon mitral valvuloplasty (PBV) in eight of the patients, baseline and pacing data were again recorded. Compared with the pre-PBV baseline state, post-PBV resting data demonstrated no change in resistance or characteristic impedance, but there was a significant fall in Z1 (166 +/- 75 to 103 +/- 45 dyne-sec/cm5; p < 0.05) and in the magnitude of pulmonary wave reflections. WT/CO tended to decrease after PBV, and pacing after PBV produced a further decrease in WT/CO, again in association with lower Z1.
These data demonstrate that 1) increased pulmonary characteristic impedance, although a feature of mitral stenosis, is not exacerbated by the acute effects of increased distending pressure; 2) pacing tachycardia in mitral stenosis causes little change in the pulmonary impedance spectrum except at low frequencies, where decreased impedance lowers power requirements per unit flow; and 3) relief of mitral stenosis produces immediate improvement in low-frequency impedance and in hydraulic power requirements. These findings suggest that although characteristic impedance may be a measure of the long-term effects of pulmonary hypertension on the pulmonary circulation, acute increases and decreases in PA pressure produce effects on right ventricular load that are best described in terms of the low-frequency properties of the PA system. Improvement in low-frequency impedance diminishes hydraulic power requirements and thus reflects improved ventricular-vascular coupling, irrespective of distending PA pressure. Efforts to treat or prevent right heart failure in the presence of pulmonary hypertension should take account of the potential benefit of changes in low-frequency impedance characteristics of the pulmonary vascular bed.
二尖瓣狭窄的特征是进行性肺动脉高压及最终的右心室衰竭。然而,右心室衰竭与肺动脉高压水平之间的相关性较差,这表明除了非搏动性血流动力学参数所识别的因素外,其他因素可能导致这种情况下右心室功能受损。
我们使用肺动脉(PA)压力和流速的高保真导管记录,研究了16例重度二尖瓣狭窄患者(平均瓣膜面积,1.0±0.2cm²),记录其仰卧休息时及起搏性心动过速期间的数据。肺阻抗谱、波反射特性及水力功率数据通过对信号平均数据进行傅里叶分析得出。起搏性心动过速(基线心率,81±11次/分钟;起搏时,132±11次/分钟)显著升高肺楔压和平均PA压力。肺血管阻力(209±144至232±164达因·秒/厘米⁵)或PA特征阻抗(62±25至55±28达因·秒/厘米⁵)无变化。然而,一次谐波阻抗(Z1)显著降低(134±71至100±68达因·秒/厘米⁵;p<0.001)。因此,尽管存在急性肺动脉高压,但心动过速期间每单位前向血流的振荡和总耗散水力功率(WT/CO)下降(2.6±1.6至2.3±1.4毫瓦/毫升·秒⁻¹;p = 0.06)。反射压力波更早返回近端PA,提示血管僵硬度增加。8例患者经皮球囊二尖瓣成形术(PBV)后立即再次记录基线和起搏数据。与PBV前的基线状态相比,PBV后静息数据显示阻力和特征阻抗无变化,但Z1显著下降(166±75至103±45达因·秒/厘米⁵;p<0.05),肺波反射幅度也下降。PBV后WT/CO有下降趋势,PBV后起搏导致WT/CO进一步下降,同样与较低的Z1相关。
这些数据表明,1)肺特征阻抗增加虽然是二尖瓣狭窄的一个特征,但不会因扩张压力增加的急性效应而加剧;2)二尖瓣狭窄时起搏性心动过速除了在低频处外,对肺阻抗谱影响很小,在低频处阻抗降低会降低每单位血流的功率需求;3)二尖瓣狭窄的缓解会使低频阻抗和水力功率需求立即改善。这些发现表明,尽管特征阻抗可能是肺动脉高压对肺循环长期影响的一个指标,但PA压力的急性升高和降低对右心室负荷的影响,最好用PA系统的低频特性来描述。低频阻抗的改善会降低水力功率需求,从而反映心室-血管耦合的改善,而与扩张的PA压力无关。在存在肺动脉高压的情况下,治疗或预防右心衰竭的努力应考虑到肺血管床低频阻抗特性变化的潜在益处。
