自体灌注血管成形术期间的冠状动脉血流分析。

Ferrari M, Werner G S, von zur Mühlen F, Andreas S, Wicke J, Figulla H R

Department of Cardiology, Georg-August-University, Göttingen, Germany.

Coron Artery Dis. 1997 Nov-Dec;8(11-12):697-702. doi: 10.1097/00019501-199711000-00004.

BACKGROUND

Autoperfusion balloons are available for the protection of the myocardium during balloon angioplasty. The aortic pressure is the driving force that delivers blood to the distal vessel during balloon inflation. Autoperfusion balloons can achieve sufficient flow rates in vitro. The use of these devices is recommended in high-risk patients in danger of haemodynamic collapse during balloon inflation. The quantity of the distal blood flow during balloon inflation in vivo is still unknown.

OBJECTIVES

To measure distal coronary perfusion using Doppler guidewires during percutaneous transluminal coronary angioplasty (PTCA) with autoperfusion balloons.

METHODS

Coronary flow velocity was measured with 0.014-inch Doppler guidewires bypassing the autoperfusion balloon in eight patients undergoing elective PTCA (degree of stenosis 74 +/- 7.2%). We used balloons with diameters of 3.0 and 3.5 mm. The coronary diameter at the location of the flow measurements was obtained by quantitative angiography in two planes. Coronary blood flow was calculated as the luminal area multiplied by the average peak flow velocity of the Doppler wire divided by 2. Coronary flow velocity reserve was measured before and after angioplasty by intracoronary injection of adenosine.

RESULTS

Coronary blood flow was 35 +/- 11.6 ml/min before PTCA. During average inflation times of 4.6 +/- 0.9 min, coronary blood flow was 19 +/- 3.8 ml/min (P = 0.002) after withdrawing the guidewire in the autoperfusion balloon. Five minutes after angioplasty it increased to 42 +/- 13.5 ml/min (P < 0.001). Four patients had electrocardiographic changes during balloon inflation; three patients reported chest pain. One patient required a stent because of a local dissection. To achieve satisfactory angiographic results (residual stenosis 11 +/- 8.5%), we performed 2.1 +/- 0.78 inflations on average with a cumulative inflation time of 8.8 +/- 3.35 min. Coronary flow velocity reserve increased from 1.3 +/- 0.20 to 2.2 +/- 0.22 (P < 0.001).

CONCLUSIONS

Using the autoperfusion balloon we measured a coronary blood flow during angioplasty of 56 +/- 10.3% of the distal perfusion before PTCA. In high-risk patients dependent on adequate coronary perfusion, autoperfusion balloons are not able to provide sufficient distal coronary blood flow during balloon inflation. In these patients active coronary or circulatory support devices are recommended.

背景

自动灌注球囊可用于在球囊血管成形术期间保护心肌。主动脉压力是在球囊膨胀时将血液输送至远端血管的驱动力。自动灌注球囊在体外可实现足够的流速。对于在球囊膨胀期间有血流动力学崩溃风险的高危患者，建议使用这些装置。球囊膨胀时体内远端血流的量仍不清楚。

目的

在使用自动灌注球囊的经皮腔内冠状动脉成形术（PTCA）期间，使用多普勒导丝测量远端冠状动脉灌注。

方法

在8例接受择期PTCA（狭窄程度74±7.2%）的患者中，使用0.014英寸的多普勒导丝绕过自动灌注球囊测量冠状动脉流速。我们使用了直径为3.0和3.5毫米的球囊。通过在两个平面进行定量血管造影获得血流测量部位的冠状动脉直径。冠状动脉血流量计算为管腔面积乘以多普勒导丝的平均峰值流速再除以2。通过冠状动脉内注射腺苷在血管成形术前和术后测量冠状动脉血流储备。

结果

PTCA前冠状动脉血流量为35±11.6毫升/分钟。在平均膨胀时间4.6±0.9分钟期间，在自动灌注球囊中抽出导丝后，冠状动脉血流量为19±3.8毫升/分钟（P = 0.002）。血管成形术后5分钟，血流量增加至42±13.5毫升/分钟（P < 0.001）。4例患者在球囊膨胀期间出现心电图改变；3例患者报告胸痛。1例患者因局部夹层需要置入支架。为了获得满意的血管造影结果（残余狭窄11±8.5%），我们平均进行2.1±0.78次膨胀，累积膨胀时间为8.8±3.35分钟。冠状动脉血流储备从1.3±0.20增加至2.2±0.22（P < 0.001）。