Krombach R S, Clair M J, Hendrick J W, Houck W V, Zellner J L, Kribbs S B, Whitebread S, Mukherjee R, de Gasparo M, Spinale F G
Division of Cardiothoracic Surgery, Medical University of South Carolina, Charleston, USA.
Cardiovasc Res. 1998 Jun;38(3):631-45. doi: 10.1016/s0008-6363(98)00050-9.
AT1 receptor activation has been demonstrated to cause increased vascular resistance properties which may be of particular importance in the setting of congestive heart failure (CHF). The overall goal of this study was to examine the effects of ACE inhibition (ACEI) alone, AT1 receptor blockade alone and combined ACEI and AT1 receptor blockade on LV pump function, systemic hemodynamics and regional blood flow patterns in the normal state and with the development of pacing induced CHF, both at rest and with treadmill induced exercise.
Pigs (25 kg) were instrumented in order to measure cardiac output (CO), systemic (SVR) and pulmonary vascular (PVR) resistance, neurohormonal system activity, and myocardial blood flow distribution in the conscious state and assigned to one of 4 groups: (1) rapid atrial pacing (240 bpm) for 3 weeks (n = 7); (2) ACEI (benazeprilat, 3.75 mg/day) and pacing (n = 7); (3) AT1 receptor blockade (valsartan, 60 mg/day) and rapid pacing (n = 7); and (4) ACEI and AT1 receptor blockade (benazeprilat/valsartan, 1/60 mg/day, respectively) and pacing (n = 7). Measurements were obtained at rest and with treadmill exercise (15 degrees, 3 miles/h; 10 min) in the normal control state and after the completion of the treatment protocols. With rapid pacing, CO was reduced at rest and with exercise compared to controls. ACEI or AT1 blockade normalized CO at rest, but remained lower than control values with exercise. Combination therapy normalized CO both at rest and with exercise. Resting SVR in the CHF group was higher than controls and SVR fell to a similar degree with exercise; all treatment groups reduced resting SVR. With exercise, SVR was reduced from rapid pacing values in the ACEI and combination therapy groups. PVR increased by over 4-fold in the rapid pacing group both at rest and with exercise, and was reduced in all treatment groups. In the combination therapy group, PVR was similar to control values with exercise. Plasma catecholamines and endothelin levels were increased by over 3-fold with chronic rapid pacing, and were reduced in all treatment groups. In the combination therapy group, the relative increase in catecholamines and endothelin with exercise were significantly blunted when compared to rapid pacing only values. LV myocardial blood flow at rest was reduced in the rapid pacing only and monotherapy groups, but was normalized with combination therapy.
These findings suggest that with developing CHF, combined ACE inhibition and AT1 receptor blockade improved vascular resistive properties and regional blood flow distribution to a greater degree than that of either treatment alone. Thus, combined ACEI and AT1 receptor blockade may provide unique benefits in the setting of CHF.
已证实血管紧张素Ⅱ1型(AT1)受体激活会导致血管阻力增加,这在充血性心力衰竭(CHF)情况下可能尤为重要。本研究的总体目标是研究单独使用血管紧张素转换酶抑制剂(ACEI)、单独使用AT1受体阻滞剂以及联合使用ACEI和AT1受体阻滞剂对正常状态下以及起搏诱导的CHF发生时左心室泵功能、全身血流动力学和局部血流模式的影响,包括静息状态和跑步机运动状态。
对体重25千克的猪进行仪器植入,以测量清醒状态下的心输出量(CO)、全身血管阻力(SVR)和肺血管阻力(PVR)、神经激素系统活性以及心肌血流分布,并将其分为4组之一:(1)快速心房起搏(240次/分钟)3周(n = 7);(2)ACEI(苯那普利拉,3.75毫克/天)并起搏(n = 7);(3)AT1受体阻滞剂(缬沙坦,60毫克/天)并快速起搏(n = 7);(4)ACEI和AT1受体阻滞剂(分别为苯那普利拉/缬沙坦,1/60毫克/天)并起搏(n = 7)。在正常对照状态以及治疗方案完成后进行静息和跑步机运动(15度,3英里/小时;10分钟)时进行测量。与对照组相比,快速起搏时静息和运动状态下的CO均降低。ACEI或AT1受体阻滞剂可使静息时的CO恢复正常,但运动时仍低于对照值。联合治疗可使静息和运动时的CO均恢复正常。CHF组静息时的SVR高于对照组,运动时SVR下降程度相似;所有治疗组均降低了静息时的SVR。运动时,ACEI组和联合治疗组的SVR从快速起搏值下降。快速起搏组静息和运动时PVR均增加超过4倍,所有治疗组的PVR均降低。联合治疗组运动时PVR与对照值相似。慢性快速起搏使血浆儿茶酚胺和内皮素水平增加超过3倍,所有治疗组均降低。与仅快速起搏相比,联合治疗组运动时儿茶酚胺和内皮素的相对增加明显减弱。仅快速起搏组和单一疗法组静息时左心室心肌血流减少,但联合治疗使其恢复正常。
这些发现表明,在CHF发展过程中,联合使用ACEI和AT1受体阻滞剂比单独使用任何一种治疗方法能更大程度地改善血管阻力特性和局部血流分布。因此,联合使用ACEI和AT1受体阻滞剂在CHF情况下可能具有独特的益处。
