Tatsuo Sakamaki

Myocardial contrast echocardiography: a reproducible technique of myocardial opacification for identifying regional perfusion deficits.

The effects and reliability of a simple method of contrast two-dimensional echocardiographic delineation of myocardium after intracoronary injections were evaluated in closed-chest dogs. Multiple injections of an agitated saline-Renografin (meglumine diatrizoate) mixture (3:2 ratio, 2-ml bolus) into the left main coronary artery as well as at different sites of the left anterior descending and circumflex coronary arteries were studied in several short-axis and long-axis cross sections of the left ventricle. These contrast injections opacified specific regions of left ventricular myocardium depending on the site of injection. Contrast injection into the left main coronary artery provided a clear, echo-free outline (negative contrast) of underperfused myocardium distal to the coronary occlusion. Reproducibility studies of the extent of involved zones measured in echocardiographic cross sections indicated high intra- and interobserver correlation coefficients (r = 0.97 and 0.97). The effects of the intracoronary injection of contrast material appeared minor and brief. ECG ST-T changes lasted 49.4 ± 36.7 seconds, aortic systolic pressure was reduced by 7.6 ± 4.4% for 18.9 ± 4.8 seconds, and the peak rate of left ventricular pressure rise decreased by 14.3 ± 2.6%, but returned to control levels within 19.4 ± 6.1 seconds. The zone of left ventricular asynergy after coronary occlusions was also delineated by cross-sectional echocardiography and corresponded to the contrast-outlined underperfused zone (negative contrast). This new intracoronary echocardiographic technique has only minor hemodynamic consequences and provides reliable quantitation of underperfused and dysfunctioning zones after experimental coronary occlusions. Further investigation and validation of this method may provide useful characterization of the extent and severity of myocardial ischemia and infarction.

Mitral valve prolapse in short-term experimental coronary occlusion: a possible mechanism of ischemic mitral regurgitation.

Experimental coronary occlusions were carried out in 12 closed-chest dogs to investigate the functional anatomic characteristics of the mitral valve complex during acute myocardial ischemia. Two-dimensional echocardiography was used to assess left ventricular function, the mitral valve complex, and left atrial size. Presence of mitral regurgitation was assessed by left ventricular contrast echocardiography. Thirty-seven coronary occlusions of up to 10 min in duration were carried out in proximal or distal locations in the left anterior descending and the left circumflex coronary arteries. Mitral regurgitation, which was mild in severity as judged by a small rise in pulmonary artery wedge pressures, was observed in 15 of 37 brief coronary occlusion experiments. Mitral valve prolapse was noted in all 15 experiments, as well as in four additional studies in which mitral regurgitation was not seen. The development of experimental mitral valve prolapse was explained by measurements that demonstrated a relative displacement of the papillary muscle tips toward the mitral orifice. We conclude that mitral valve prolapse is a common sequela of short-term coronary occlusion and is often associated with mild mitral regurgitation. Relative displacement of ischemic papillary muscles toward the mitral orifice appears to be a likely mechanism of acute ischemic mitral valve prolapse.

Diagnosis of Coronary Stenosis by Two-Dimensional Echographic Study of Dysfunction of Ventricular Segments During and Immediately After Pacing

The adequacy of two-dimensional echocardiography during right atrial pacing for the detection and characterization of coronary artery stenosis was examined in 10 closed chest dogs. Pacing at successively higher rates up to 210 beats/min was carried out in the control state and again during a 70% left anterior descending coronary artery stenosis-induced with intracoronary plugs. Left ventricular short-axis echographic cross sections were obtained at several levels of the left ventricle. After computer-aided standardized subdivision, contractile function of the global section and its subsegments was characterized by computed systolic fractional area change percent and wall thickening percent. Ventricular segments supplied from the site of the 70% coronary stenosis were delineated in a low papillary level cross section by a myocardial contrast echographic technique, and these segments demonstrated significant dysfunction during pacing at 150 to 210 beats/min. Echographic observation of the involved segments immediately after pacing revealed a maximal depression of function 5 seconds after pacing, equivalent to dysfunction at peak pacing, with function returning to control levels within about 2 minutes. Both maximal pacing and early postpacing studies facilitated satisfactory discrimination of ischemic from normally perfused myocardial segments. These experiments show that right atrial pacing study with quantitative two-dimensional echocardiography may serve to detect and assess a coronary stenosis associated with minor or no cardiac dysfunction in the rest state.

Relation between myocardial injury and postextrasystolic potentiation of regional function measured by two-dimensional echocardiography

An experimental study was designed to validate postextrasystolic potentiation assessment of myocardial viability or functional reserve of cardiac segments after acute coronary occlusion. Segmental systolic fractional area changes and wall thickening in pacing-induced postextrasystolic beats were mapped in 12 closed chest dogs by two-dimensional echocardiography during a control period and from 20 minutes to 3 hours after occlusion of the left anterior descending coronary artery. The extent of myocardial ischemic and necrotic zones was evaluated in left ventricular slices and subsegements corresponding to echographic cross sections. During two-dimensional echocardiography, left ventricular segments that were found to be neither ischemic nor necrotic always exhibited a significant augmentation of both fractional area change and wall thickening during the postextrasystolic beat that followed an induced premature contraction with a 42.4% coupling interval. In segments without necrosis but with varying degrees of ischemia, significant postextrasystolic potentiation was also demonstrated, even after 3 hours of occlusion. In contrast, segments that developed more than 80% necrosis failed to potentiate systolic fractional area change after 2 hours, and systolic wall thickening, even after 20 minutes of coronary occlusion. Statistical evaluation revealed a characteristic threshold at 41 to 60% necrosis, beyond which no potentiation of function could be elicited 3 hours after occlusion. Extrapolation from the experimental data suggests that when two-dimensional echographic studies in myocardial ischemia indicate postextrasystolic augmentation of segmental left ventricular function, the latter segments may be assumed to contain only small infarcts or to consist of reversibly ischemic and normal myocardium. Conversely, segments that fail to exhibit postextrasystolic potentiation can be assumed to be more than 60% necrotic.

Localized right ventricular structural abnormalities in patients with idiopathic ventricular fibrillation: magnetic resonance imaging study.

SummaryLethal arrhythmias, including ventricular tachycardia and ventricular fibrillation, may occur in the absence of apparent morphological abnormalities. However, a recent study using magnetic resonance imaging (MRI) has suggested that localized, minor structural abnormalities of the right ventricle are responsible for right ventricular outflow tract ventricular tachycardia in a number of patients. We demonstrated regional wall thinning and systolic dyskinesia of the right ventricle by MRI in two patients with idiopathic ventricular fibrillation in whom other cardiac imaging modalities failed to show abnormalities. This finding implies that minor structural abnormalities do exist in patients with so-called idiopathic ventricular fibrillation.

Magnetic resonance imaging of cardiac hemangiopericytoma

SummaryWe report a patient with hemangiopericytoma, a rare soft tissue sarcoma involving the left ventricle. T1- and T2-weighted magnetic resonance imaging (MRI) revealed a high signal mass invading the left ventricular wall. A biopsied specimen obtained from the metastatic subcutaneous tumor in the right popliteal fossa showed pathologic findings consistent with hemangiopericytoma.

Transesophageal echocardiographically detected atherosclerotic aortic debris in a patient with systemic embolism following coronary angiography

SummaryTransesophageal echocardiography (TEE) has enabled detection of the cardiac source of systemic emboli. We report the case of a patient who manifested systemic, multiple embolization in the kidney, skin, and upper gastrointestinal tract following coronary angiography. TEE allowed visualization of the atherosclerotic debris in the thoracic aorta. The clinical picture of the patient was consistent with that of cholesterol embolism. We recommend that patients with extensive atherosclerotic disease should undergo TEE before cardiac catheterization or other invasive procedures involving the aorta are carried out.