Changes in left ventricular diastolic function in coronary artery disease with and without angina pectoris assessed from exercise ventriculography

Tebbe, Ulrich; Hoffmeister, N.; Sauer, G.; Neuhaus, K. L.; Kreuzer, H

doi:10.1002/clc.4960030104

Cited by 14 publications

(7 citation statements)

References 22 publications

(14 reference statements)

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“…Other factors suggested to result in cardiac allograft diastolic dysfunction, such as arterial hypertension, the number of episodes of allograft rejection, age, or hemodynamically relevant macroscopic coronary artery stenosis, 17 were not related to the increase in LVEDP (Table). This may be due to the small number of patients (nϭ72) or incomplete consideration of other parameters, such as hypoxia 32 induced by allograft vasculopathy prevailing in the microcirculation, which is not analyzed by coronary angiograms. 33 Also, other factors that may result in diastolic failure, such as hypertrophy or wall stress, 34 were not considered.…”

Section: Discussionmentioning

confidence: 99%

Subunit Expression of the Cardiac L-Type Calcium Channel Is Differentially Regulated in Diastolic Heart Failure of the Cardiac Allograft

Hullin¹,

Asmus²,

Ludwig³

et al. 1999

Circulation

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Background-Left ventricular diastolic dysfunction is a major cause of cardiac allograft failure. Multimeric L-type calcium channels (␣ 1 -, ␣ 2 /␦-, and ␤-subunits) are essential for excitation/contraction coupling in the heart. Their gene expression was studied in allografts that developed diastolic heart failure. Methods and Results-mRNA levels of calcium channel subunits were measured by competitive reverse transcriptasepolymerase chain reaction in microbiopsy samples from the interventricular septum. Size and tissue variabilities between biopsy samples were assessed by determination of cardiac calsequestrin mRNA levels. In the cardiac allografts studied, mRNA levels in microbiopsy samples were considered to represent left ventricular gene expression, because septal and left ventricular gene expression in Northern blots was equivalent, and left ventricles contracted homogeneously. Biopsy samples (nϭ72) were taken from allografts with normal left ventricular end-diastolic pressure (LVEDP; 8 to 13 mm Hg; nϭ30), moderately elevated LVEDP (14 to 18 mm Hg; nϭ26), and elevated LVEDP (19 to 28 mm Hg; nϭ16). Increased LVEDP was related to slowed diastolic relaxation determined by the time constant (r 2 ϭ0.86), whereas systolic performance (dP/dt; ejection fraction) was preserved. With increasing LVEDP, mRNA levels of the pore-forming ␣ 1c -subunit (nϭ15) and of the regulatory ␣ 2 /␦-subunit (nϭ17) remained unchanged but decreased exponentially (r 2 ϭϪ0.83) for the regulatory ␤-subunit (nϭ40). Compared with cardiac allografts with normal LVEDP (nϭ15), ␤-subunit mRNA level was reduced by 75% at elevated LVEDP (nϭ9; Pϭ0.012). In an explanted, diastolically failing cardiac allograft, ␤-subunit expression was reduced correspondingly by 72% and 76% on the mRNA level in septal and left ventricular myocardium and by 80% on the protein level. Conclusions-The downregulated expression of the calcium channel ␤-subunit might contribute to altered calcium handling in diastolically failing cardiac allografts. (Circulation. 1999;100:155-163.)

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Section: Discussionmentioning

confidence: 99%

Subunit Expression of the Cardiac L-Type Calcium Channel Is Differentially Regulated in Diastolic Heart Failure of the Cardiac Allograft

Hullin¹,

Asmus²,

Ludwig³

et al. 1999

Circulation

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“…[15][16][17][18][19][20][21][22][23][24][25][26][27][28][29][30][31][32][33] This study sought to characterize the alterations in performance of the heart in delivering an increased stroke volume and in diastolic filling during stress and how these parameters of left ventricular performance might be altered by ischemia.…”

Section: Discussionmentioning

confidence: 99%

“…3 Diastolic performance has been demonstrated to be very sensitive to ischemia. [15][16][17][18][19][20][21][22][23][24][25][26][27][28][29][30][31][32][33] Careful assessment of diastolic properties during stress, however, has not been previously well characterized by radionuclide angiography, and might prove to enhance the sensitivity of detection of ischemia. We therefore sought to evaluate and characterize the detection of ischemic heart disease by alteration in diastolic as well as systolic parameters during exercise.…”

mentioning

confidence: 99%

Alteration of diastolic filling rate during exercise radionuclide angiography: a highly sensitive technique for detection of coronary artery disease.

Poliner¹,

Farber²,

Glaeser³

et al. 1984

Circulation

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Diastolic and systolic parameters of left ventricular performance were characterized from high-frequency time-activity curves obtained in 10 normal volunteers (mean age 29 4 yr), in 25 patients with normal coronary arteries, and in 50 patients with coronary artery disease (CAD) at rest and during three stages of exercise radionuclide angiography. In the normal volunteers ejection fraction was 65 + 5% (SD) at rest and 78 + 5% with exercise (p < .001). In patients with normal coronary arteries ejection fraction was 64 + 5% at rest and 72 + 8% with exercise (p < .0001). In patients with CAD resting ejection fraction was 60 ± 10% and that during exercise was 61 ± 13% (p = NS). Peak diastolic filling rate in the first half of diastole, peak systolic ejection rate, and times to peak rates and to end-systole were measured. In the normal subjects resting peak distolic filling rate was 3.1 ± 0.6 enddiastolic counts/sec and it increased in all subjects with exercise to 3.6 + 0.7 (p < .05). In patients with normal arteries and those with CAD peak diastolic filling rate was 2.3 ± 0.8 at rest and with exercise this parameter increased to 3.2 + 1.1 (p < .001) in patients with normal arteries and fell to 1.7 ± 0.6 in those with CAD (p < .001). Peak systolic ejection rate decreased from 2.5 0.8 to 1.9 ± 0.8 with exercise in patients with CAD (p < .001). The sensitivity of wall motion and ejection fraction response to exercise for detection of CAD in patients was 62% (80% excluding those with one-vessel disease), with no false-positive results. Sensitivity and specificity of peak systolic ejection rate were 66% and 67%, respectively. Peak diastolic filling rate exercise/rest ratio was greater than 1 for patients with normal and 1 or less for patients with diseased arteries, with sensitivity of 98% and specificity of 94%. Thus, alteration of peak diastolic filling rate during exercise is a very sensitive and specific indicator of ischemic heart disease. Circulation 70, No. 6, 942-950, 1984.

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“…4' The noninvasive assessment of left ventricular diastolic performance in the patient with coronary artery disease either at rest or during physiologic stress such as exercise has been difficult by traditional techniques.…”

mentioning

confidence: 99%

Left ventricular diastolic performance at rest and during exercise in patients with coronary artery disease. Assessment with first-pass radionuclide angiography.

et al. 1981

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SUMMARY We used first-pass radionuclide angiocardiography to assess filling fraction during the first third of diastole, peak filling rate and peak filling rate during the first third of diastole as indexes of left ventricular diastolic performance at rest and after upright bicycle exercise in 32 normal patients and 68 patients with coronary artery disease. The mean filling fraction was unchanged from rest to exercise in normal patients (47 ± 15% vs 46 ± 13%; NS). Even in 49 coronary patients with normal (. 50%) ejection fraction at rest, filling fraction was less than that in normal patients at rest (35 ± 11% vs 47 ± 15%,p < 0.001). Despite similar resting heart rates, patients with coronary disease had lower (p < 0.001) peak filling rate and peak filling rate during the first third of diastole than normal patients. With exercise, filling fraction decreased (p < 0.001) from the resting value in coronary patients. These data suggest that (1) indexes of diastolic performance can be noninvasively assessed at rest and during exercise using first-pass radionuclide angiocardiography, (2) abnormalities in early diastolic performance are often present at rest in patients with coronary artery disease despite normal systolic performance, and (3) exercise-induced ischemia results in increased early diastolic dysfunction in patients with coronary disease.ABNORMALITIES in left ventricular diastolic performance are common in patients with coronary artery disease.1 2 Myocardial relaxation during early diastole is an active, energy-dependent process and previous investigations have shown that hypoxia may impair the rate of myocardial relaxation.3 Abnormalities in diastolic performance during ischemia may occur in the absence of impaired systolic performance.4' The noninvasive assessment of left ventricular diastolic performance in the patient with coronary artery disease either at rest or during physiologic stress such as exercise has been difficult by traditional techniques.Use of first-pass angiocardiography and gated cardiac blood pool imaging have shown that the response of left ventricular systolic performance to exercise is a sensitive marker of left ventricular ischemia.6 8 Few

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Changes in left ventricular diastolic function in coronary artery disease with and without angina pectoris assessed from exercise ventriculography

Cited by 14 publications

References 22 publications

Subunit Expression of the Cardiac L-Type Calcium Channel Is Differentially Regulated in Diastolic Heart Failure of the Cardiac Allograft

Subunit Expression of the Cardiac L-Type Calcium Channel Is Differentially Regulated in Diastolic Heart Failure of the Cardiac Allograft

Alteration of diastolic filling rate during exercise radionuclide angiography: a highly sensitive technique for detection of coronary artery disease.

Left ventricular diastolic performance at rest and during exercise in patients with coronary artery disease. Assessment with first-pass radionuclide angiography.

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