Chua T, Kiat H, Germano G, Takemoto K, Fernandez G, Biasio Y, Friedman J, Berman D
Dept. of Imaging, Cedars-Sinai Medical Center, Los Angeles, CA 90048.
J Nucl Med. 1993 Sep;34(9):1485-93.
Technetium-99m-teboroxime is characterized by a high extraction fraction over a wide range of blood flow rates, rapid myocardial clearance and avid hepatic uptake. This study determined the imaging parameters and examined the clinical efficacy of a rapid back to back adenosine stress/rest teboroxime myocardial perfusion SPECT protocol using a triple-detector camera. Acquisition parameters were determined using cardiac phantom studies which were then applied in SPECT studies of 51 catheterized patients (22 with prior myocardial infarction) and 20 patients with a "low" (7.9% +/- 4.3%) likelihood of coronary artery disease. Technetium-99m-teboroxime (20-25 mCi) was injected at the third minute of adenosine infusion. Teboroxime (20-25 mCi) was also injected at rest, 15 min later. Stress followed by rest SPECT were completed within 25 min using a triple-detector camera and sequential, 1-min continuous rotations in alternating directions. Summed raw data from the first to second (1-2 min), second to third (2-3 min) and second to fifth (2-5 min) minutes of imaging following stress teboroxime injection were reconstructed and compared for image quality, degree of liver interference, and accuracy for diagnostic efficacy. In a subgroup of 30 patients, 2-8-min summed images were also reconstructed to compare this more conventional imaging protocol with our rapid acquisition. Image quality was fair to good in 75% of the 1-2-min, 84% of the 2-3-min and 2-5-min studies and 53% of the 2-8-min scans. The frequency of severe liver interference appeared to increase with the duration of imaging time (1-2 min: 3%; 2-3 min: 7%; 2-5 min: 8%) and was greatest (30%, p = 0.08) with 2-8-min images. Three patients (4%) had uninterpretable studies due to intense hepatic uptake. Overall sensitivity (95%) and specificity (71%) were equal for the 2-3-min and 2-5-min stress images and appeared better than in the 1-2-min images (84% and 57%, respectively). For the 2-8-min scans, vessel sensitivity (69%) and specificity (63%) appeared poorer than with 2-3-min studies (83% and 81%, respectively). Normalcy rates were 89% for the 2-3-min and 2-5-min and 79% for 1-2-min images. The back to back adenosine stress/rest teboroxime SPECT can be performed in 30 min using a triple-detector camera. Although overall high sensitivity and normalcy rates were achieved, the protocol is technically demanding. Interference due to intense liver uptake remains problematic.
锝-99m-替硼肟的特点是在很宽的血流速率范围内具有高摄取分数、心肌清除迅速且肝脏摄取活跃。本研究确定了成像参数,并使用三探测器相机检查了快速连续腺苷负荷/静息替硼肟心肌灌注单光子发射计算机断层扫描(SPECT)方案的临床疗效。通过心脏模型研究确定采集参数,然后将其应用于51例接受心导管检查的患者(22例有心肌梗死病史)和20例冠状动脉疾病可能性“低”(7.9%±4.3%)的患者的SPECT研究中。在腺苷输注的第3分钟注射锝-99m-替硼肟(20 - 25毫居里)。15分钟后静息时也注射替硼肟(20 - 25毫居里)。使用三探测器相机并以交替方向进行连续1分钟的顺序旋转,在25分钟内完成负荷后静息SPECT检查。对负荷替硼肟注射后成像的第1至第2分钟(1 - 2分钟)、第2至第3分钟(2 - 3分钟)和第2至第5分钟(2 - 5分钟)的原始数据总和进行重建,并比较图像质量、肝脏干扰程度和诊断效能的准确性。在30例患者的亚组中,还重建了2 - 8分钟的总和图像,以将这种更传统的成像方案与我们的快速采集进行比较。在1 - 2分钟研究的75%、2 - 3分钟和2 - 5分钟研究的84%以及2 - 8分钟扫描的53%中,图像质量为中等至良好。严重肝脏干扰的频率似乎随成像时间的延长而增加(1 - 2分钟:3%;2 - 3分钟:7%;2 - 5分钟:8%),在2 - 8分钟图像时最高(30%,p = 0.08)。3例患者(4%)由于肝脏摄取强烈而无法进行解读。2 - 3分钟和2 - 5分钟负荷图像的总体敏感性(95%)和特异性(71%)相等,且似乎优于1 - 2分钟图像(分别为84%和57%)。对于2 - 8分钟扫描,血管敏感性(69%)和特异性(63%)似乎比2 - 3分钟研究(分别为83%和81%)差。2 - 3分钟和2 - 5分钟图像的正常率为89%,1 - 半分钟图像为79%。使用三探测器相机可在30分钟内完成连续腺苷负荷/静息替硼肟SPECT检查。虽然总体上实现了高敏感性和正常率,但该方案对技术要求较高。肝脏摄取强烈引起的干扰仍然是个问题。
