Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0151744 (myocardial ischemia)
31,282 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The main blood flow velocity patterns in the LVOT and RVOT were recorded by pulsed Doppler echocardiography in 28 normal healthy cases, in two athletes, and in 85 patients with atrial septal defects, pulmonary regurgitation, tetralogy of Fallot, aortic regurgitation, mitral stenosis, aortic stenosis, mitral regurgitation, hypertrophic cardiomyopathy, ischemic heart disease, and pulmonary hypertension. Blood flow velocities were displayed using a graphic system to form a real time sonogram, using Fast Fourier Transformation. In the normal group, the blood flow velocity was 1.69 KHz in LVOT, and 1.71 KHz in RVOT. In AR and T/F but not MS, there was high blood flow velocity in the LVOT, and the peak of blood flow velocity was shifted to mid-to late systole. In ASD and VSD with a L-R shunt, high blood flow velocity occurred in the RVOT, and the peak velocity shifted to early systole. Pulmonary hypertension occasionally produced a W- or V-shaped curve. In normal subjects, a small "a" wave could be detected in the LVOT recording. The "a" wave began at point B on the AML tracer of the M-mode echocardiography, reached maximum velocity at point C, and returned to zero (baseline) at point C'. The "a" wave was coincident with the R wave of the ECG, and with the Ia of the phonocardiogram (PCG). The normal velocity of the "a" wave was 602 Hz, and the a/H ratio was 0.36. In cases of HCM and IHD, the "a" wave velocity and the a/H ratio correlated with the end diastolic pressure and the peak dP/dT. These data suggest that the Doppler blood flow patterns in the LVOT and RVOT can indicate volume overload in the right and left ventricles, and that the "a" wave velocity and a/H ratio can provide new information concerning cardiac performance.
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PMID:Main systolic blood flow patterns in the left and right ventricular outflow tracts determined by Doppler echocardiography. 404 Jul 20

To investigate the genesis of the third ( IIIs ) and fourth heart sounds (IVs), apical phonocardiograms were recorded simultaneously with pulsed Doppler signals of the mitral flow and interventricular septal (IVS) and left ventricular posterior wall (PW) echoes by M-mode echocardiography in 26 cases with the IIIs and 11 cases with the IVs. The following results were obtained: Cases with the IIIs were classified into the following three groups according to the time relationship between the IIIs and a rapid filling wave (D wave) of the mitral flow velocity pattern. IIIs -peak group: The IIIs occurred coincidently with the peak of the D wave in five healthy adolescents and in 12 cases with absolute left ventricular volume overload including mitral regurgitation (MR: eight cases), postoperative atrial septal defect (ASD: three cases) and ventricular septal defect (one case). IIIs -delay group: The IIIs occurred about 38 msec after the peak of the D wave in eight cases with relative left ventricular volume overload including congestive cardiomyopathy (CCM: three cases) and ischemic heart disease (IHD: five cases). IIIs -early phase group: The IIIs occurred about 35 msec before the peak of the D wave in a case with acute MR due to chordal rupture. In the IIIs -peak group, the IIIs coincided in time with the points of inflection (check points) of both the IVS and PW during rapid filling phase in three cases with MR of mild to moderate degree and one case of postoperative ASD. In the IIIs -delay group, the IIIs occurred simultaneously with either the check point of the IVS or PW in two cases with CCM and one case with IHD, and it occurred before the check points of both the IVS and PW in two cases with severe MR of IIIs -peak group and in a case with acute MR due to chordal rupture of IIIs -early phase group. Cases with the IVs were classified into following 2 groups according to the time relationship between the IVs and the atrial contraction wave (A wave) of the mitral flow velocity pattern. IVs-peak group: The IVs occurred coincidentally with the peak of the A wave in six cases with left ventricular hypertrophy including hypertrophic cardiomyopathy (five cases) and hypertension (one case). IVs-delay group: The IVs occurred about 33 msec after the peak of the A wave in five cases with left ventricular dilatation or dysfunction including old myocardial infarction (two cases), CCM (one case), postoperative ASD (one case) and aortic regurgitation (one case). There were two types of IVs in time relationship between the IVs and the check points of the left ventricular wall during atrial contraction phase.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[Studies on the mechanisms of the third and fourth heart sounds: with special reference to the phase analysis of mitral flow velocity pattern]. 667 90

Echocardiographic evidence of paradoxical septal motion frequently occurs after cardiac surgery. To assess possible etiologic factors 17 patients were studied preoperatively, intraoperatively, and 7 days after surgery. Preoperative septal motion was normal in 14 and paradoxical in three (two with previous cardiac surgery, one with atrial septal defect [ASD]). Intraoperative septal motion prior to surgical procedure was normal in 16 and paradoxical in one (ASD). Septal motion (excursion and thickening fraction) was normal in all patients prior to chest closure. Echocardiograms of adequate quality were obtained at 7 days post surgery in 15 patients; septal motion was paradoxical in nine (group A) and normal in six (group B). No significant differences were seen between the two groups in ischemic time or in the preoperative to postoperative change in left ventricular (LV) and right ventricular diastolic dimension, shortening fraction, or septal and posterior wall thickening fraction. A significant postoperative decrease in septal excursion was seen in group A but not in group B; significant postoperative increases in posterior wall excursion were seen in both groups. Cross-sectional two-dimensional echocardiograms performed in 20 patients (8 normal, 12 postoperative paradoxical septal motion) were analyzed. In normal controls no significant change was detected in the LV centroid position during systole. In contrast, the 12 postoperative patients showed significant anterior displacement of the LV centroid and right septum during systole. Thus, paradoxical septal motion after cardiac surgery appears to relate to excessive anterior cardiac mobility due to pericardiotomy rather than to myocardial ischemia resulting from cardiopulmonary bypass.
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PMID:Effect of cardiac surgery on ventricular septal motion: assessment by intraoperative echocardiography and cross-sectional two-dimensional echocardiography. 714 45

The authors performed 451 transesophageal echocardiographic (TEE) investigations over a period of three years and four months. Atrial septal aneurysm (ASA) was found in 40 cases. Of these, protrusion of the atrial septum towards the right atrium was observed in 17 cases, whilst oscillation of the atrial septum was noted in 23 cases. ASA was associated with patent foramen ovale (PFO) in ten patients, with type II. ASD in nine patients, with other congenital heart disease in six patients, and with other organic heart disease in eight patients. In three cases either an embolus or a tumor was detected in the left atrium, whilst in four cases with ASA there were no other organic cardiac disorders found. In ten patients there was a history of cerebral embolisation. Of these two had chronic atrial fibrillation, whilst the others had sinusrhythm. Of those who had cerebral embolisation, four patients had PFO, one patient had left atrial and auricular thrombi, whilst in four patients various organic heart problems (ischemic heart disease, left ventricular hypertrophy) were detected. In one patient with ASA there was no other cardiac abnormality detected. The authors conclude that ASA, which is often associated with PFO and ASD (in 25.0% and 22.5% of their cases, respectively) is detected in around eight percent of the patients who undergo TEE. ASA particularly when associated with PFO should be considered as a potential source of cerebral emboli. Indeed, cerebral embolisation occurred in 25% of their patients with ASA. It is recommended, that patients with ASA are treated with acetyl salicylic acid, whilst in patients with ASA and PFO anticoagulant therapy is the treatment of choice. In case of cerebral embolisation, or repeated cerebral ischemic attacks, operative interventions should be considered.
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PMID:[Incidence of septal aneurysm and its clinical significance]. 955 64

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