Gray W A, Gewirtz H
Department of Medicine, Rhode Island Hospital, Providence 02903.
Circulation. 1991 Oct;84(4):1796-807. doi: 10.1161/01.cir.84.4.1796.
This study tested the hypotheses in the setting of a coronary artery stenosis that 1) planar 99mTc-teboroxime myocardial scans are capable of providing a good estimate of relative coronary flow reserve, and 2) delayed washout of the tracer from the myocardium is a marker of reduced myocardial blood flow and, in certain cases, myocardial ischemia.
Experiments were conducted in eight closed-chest domestic swine prepared with an artificial stenosis that reduced diameter of the left anterior descending coronary artery by 80%. Measurements of hemodynamics, regional myocardial blood flow, oxygen, and lactate metabolism were made 1) at baseline, 2) after 5 minutes of intravenous infusion of adenosine and neosynephrine ("stress"), and 3) at recovery 2 hours after discontinuing the adenosine/neosynephrine infusion. Simultaneous intravenous injection of teboroxime (approximately 9 mCi) and thallium (approximately 3.5 mCi) was made at peak stress, and serial planar teboroxime imaging began 1-2 minutes later. Scans were made in dynamic mode for 30 seconds each for 7 minutes after which a stress thallium scan (7 minutes acquisition) was obtained. A redistribution thallium scan was made 2 hours later after which a repeat teboroxime injection followed by serial imaging for 7 minutes was performed. The animal was then killed, and the heart removed for determination of microsphere activity. Under baseline conditions, transmural myocardial blood flow (ml/min/g) distal to the stenosis (1.06 +/- 0.17) was reduced (p less than 0.01) compared with the normally perfused circumflex zone (1.50 +/- 0.31). In response to intravenous infusion of adenosine/neosynephrine, flow increased (p less than 0.01) compared with baseline in both distal (2.00 +/- 0.84) and circumflex (4.67 +/- 1.55) zones. However, the distal : circumflex flow declined (0.45 +/- 0.17) compared with baseline (0.73 +/- 0.17; p less than 0.01). Two hours later flow had returned to baseline levels in both zones, and lactate production during stress (-41.7 +/- 37.5 mumol/min/100 g) had reverted to consumption (13.6 +/- 7.7; p less than 0.05). Analysis of stress teboroxime scans demonstrated 1) an increase (p less than 0.01) in the ischemic : normal zone (IZ:NZ) count between 30-second (0.50 +/- 0.14) and 7-minute scans (0.61 +/- 0.11); 2) a good correlation between the 30-second scan IZ:NZ count and the stress distal : circumflex flow (0.45 +/- 0.17; r = 0.74; p less than 0.05; slope = 0.90; intercept = 0); and 3) a close correlation between the IZ:NZ count of the 7-minute scan (0.61 +/- 0.11) and the recovery distal : circumflex flow (0.69 +/- 0.21; r = 0.89; p less than 0.01). The IZ:NZ count also increased (p less than 0.01) between 30-second (0.65 +/- 0.15) and 7-minute (0.72 +/- 0.14) scans following rest injection of teboroxime. As anticipated, serial thallium scans demonstrated evidence of redistribution between stress (IZ:NZ count = 0.62 +/- 0.08) and recovery (IZ:NZ count = 0.75 +/- 0.06; p less than 0.01) time points. The stress thallium scan IZ:NZ, however, was greater than that of the 30-second teboroxime scan as well as that of the stress distal : circumflex flow.
Accordingly, the data indicate that 1) myocardial imaging with 99mTc-teboroxime is valuable in the noninvasive assessment of relative coronary flow reserve and that 2) delayed washout of the tracer from the myocardium reflects reduced myocardial blood flow and, under conditions comparable to those of the present study, may be a marker of myocardial ischemia.
本研究在冠状动脉狭窄的情况下验证以下假设:1)平面99mTc-替硼肟心肌扫描能够很好地评估相对冠状动脉血流储备;2)示踪剂从心肌的延迟洗脱是心肌血流减少的标志,在某些情况下是心肌缺血的标志。
对8只开胸家猪进行实验,通过人工制造狭窄使左前降支冠状动脉直径减少80%。分别在以下三个阶段进行血流动力学、局部心肌血流、氧和乳酸代谢的测量:1)基线状态;2)静脉输注腺苷和新福林5分钟后(“应激”状态);3)停止输注腺苷/新福林2小时后的恢复阶段。在应激峰值时同时静脉注射替硼肟(约9mCi)和铊(约3.5mCi),1 - 2分钟后开始进行系列平面替硼肟成像。以动态模式扫描30秒,共扫描7分钟,之后进行应激铊扫描(采集7分钟)。2小时后进行铊再分布扫描,然后再次注射替硼肟并进行7分钟的系列成像。随后处死动物,取出心脏测定微球活性。在基线状态下,狭窄远端的透壁心肌血流(ml/min/g)(1.06±0.17)与正常灌注的回旋支区域(1.50±0.31)相比降低(p<0.01)。静脉输注腺苷/新福林后,狭窄远端(2.00±0.84)和回旋支(4.67±1.55)区域的血流与基线相比均增加(p<0.01)。然而,与基线(0.73±0.17)相比,远端与回旋支区域的血流比值下降(0.45±0.17;p<0.01)。2小时后,两个区域的血流均恢复到基线水平,应激期间的乳酸生成(-41.7±37.5μmol/min/100g)转变为乳酸消耗(13.6±7.7;p<0.05)。应激替硼肟扫描分析显示:1)缺血区与正常区(IZ:NZ)计数在30秒扫描时(0.50±0.14)到7分钟扫描时(0.61±0.11)增加(p<0.01);2)30秒扫描时的IZ:NZ计数与应激时远端与回旋支区域的血流比值(0.45±0.17)具有良好的相关性(r = 0.74;p<0.05;斜率 = 0.90;截距 = 0);3)7分钟扫描时的IZ:NZ计数(0.61±0.11)与恢复时远端与回旋支区域的血流比值(0.69±0.21)密切相关(r = 0.89;p<0.01)。静息注射替硼肟后,30秒扫描时(0.65±0.15)到7分钟扫描时(0.72±0.14)的IZ:NZ计数也增加(p<0.01)。正如预期的那样,系列铊扫描显示应激(IZ:NZ计数 = 0.62±0.08)和恢复(IZ:NZ计数 = 0.75±0.06;p<0.01)时间点之间存在再分布。然而,应激铊扫描的IZ:NZ大于30秒替硼肟扫描以及应激时远端与回旋支区域的血流比值。
因此,数据表明:1)99mTc-替硼肟心肌成像在无创评估相对冠状动脉血流储备方面具有重要价值;2)示踪剂从心肌的延迟洗脱反映心肌血流减少,在与本研究类似的条件下,可能是心肌缺血的标志。
