Effects of substrate availability on myocardial C-11 palmitate kinetics by positron emission tomography in normal subjects and patients with ventricular dysfunction

The possibility of demonstrating noninvasively with C-11 palmitate and positron emission tomography (PET) changes in myocardial substrate metabolism in normal and diseased human myocardium in response to altered substrate availability in blood and disease-related abnormalities was examined in five n...

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Published inThe American heart journal Vol. 111; no. 6; pp. 1055 - 1064
Main Authors Schelbert, Heinrich R., Henze, Eberhard, Sochor, Heinz, Grossman, Robert G., Huang, Sung-Cheng, Barrio, Jorge R., Schwaiger, Markus, Phelps, Michael E.
Format Journal Article
LanguageEnglish
Published New York, NY Mosby, Inc 01.06.1986
Elsevier
Subjects
Adult
Biological and medical sciences
Blood Glucose - metabolism
Carbon Radioisotopes
Cardiology. Vascular system
Fatty Acids, Nonesterified - blood
Female
Heart
Heart Diseases - metabolism
Heart Diseases - physiopathology
Heart failure, cardiogenic pulmonary edema, cardiac enlargement
Hemodynamics
Humans
Kinetics
Male
Medical sciences
Metabolic Clearance Rate
Middle Aged
Myocardium - metabolism
Palmitates - metabolism
Palmitic Acids - metabolism
Tomography, Emission-Computed
Radionuclide study
Human
Heart disease
Oral administration
Myocardium
Cardiovascular disease
Lipids
Glucose
Left ventricular failure
Metabolism
Positron emission tomography
Online AccessGet full text
ISSN0002-8703
1097-6744
DOI10.1016/0002-8703(86)90006-2

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Abstract The possibility of demonstrating noninvasively with C-11 palmitate and positron emission tomography (PET) changes in myocardial substrate metabolism in normal and diseased human myocardium in response to altered substrate availability in blood and disease-related abnormalities was examined in five normal volunteers and 16 patients with ventricular dysfunction. C-11 palmitate injection and serial PET imaging were performed after an overnight fast (control period) and again 2 hours later after oral glucose (50 gm). Myocardial C-11 time-activity curves from serial PET images revealed a biexponential clearance pattern. An early rapid phase, defined by relative size and clearance half-time, reflects C-11 palmitate oxidation and the late slow phase tracer deposition in the endogenous lipid pool. During the control period, the tracer fraction entering the early rapid phase averaged 47 ± 13% (SD) in normal subjects and 45 ± 12% in patients. Corresponding clearance half-times were 19 ± 7 and 20 ± 5 minutes, respectively. Heart rate and blood pressure remained unchanged after glucose, but plasma glucose levels rose by 72.5% in normal subjects and by 98.9% in patients, while free fatty acid levels fell by 72% and 42% ( p < 0.001), respectively. In normal subjects, the tracer fraction in the early rapid phase fell by 43% ( p < 0.005) and the clearance half-time increased by 46% ( p < 0.01). In patients, the response of C-11 palmitate tissue kinetics to glucose was variable. In nine patients, it was similar to that in normal subjects while in the other seven patients a “paradoxic” response occurred. The tracer fraction entering the rapid clearance phase increased after glucose by 30% ( p < 0.05) associated with a 36% ( p < 0.05) decline in clearance half-times. The paradoxic response was unrelated to disease etiology or plasma substrate levels but occurred mostly in left ventricles with more severely depressed function. Thus, PET and C-11 palmitate allow the noninvasive demonstration of the known response of substrate metabolism of the human heart to altered substrate availability. Glucose administration in fasted humans serves as a provocative test of substrate regulation which can be abnormal in myocardial disease and can be demonstrated noninvasively.
AbstractList The possibility of demonstrating noninvasively with C-11 palmitate and positron emission tomography (PET) changes in myocardial substrate metabolism in normal and diseased human myocardium in response to altered substrate availability in blood and disease-related abnormalities was examined in five normal volunteers and 16 patients with ventricular dysfunction. C-11 palmitate injection and serial PET imaging were performed after an overnight fast (control period) and again 2 hours later after oral glucose (50 gm). Myocardial C-11 time-activity curves from serial PET images revealed a biexponential clearance pattern. An early rapid phase, defined by relative size and clearance half-time, reflects C-11 palmitate oxidation and the late slow phase tracer deposition in the endogenous lipid pool. During the control period, the tracer fraction entering the early rapid phase averaged 47 +/- 13% (SD) in normal subjects and 45 +/- 12% in patients. Corresponding clearance half-times were 19 +/- 7 and 20 +/- 5 minutes, respectively. Heart rate and blood pressure remained unchanged after glucose, but plasma glucose levels rose by 72.5% in normal subjects and by 98.9% in patients, while free fatty acid levels fell by 72% and 42% (p less than 0.001), respectively. In normal subjects, the tracer fraction in the early rapid phase fell by 43% (p less than 0.005) and the clearance half-time increased by 46% (p less than 0.01). In patients, the response of C-11 palmitate tissue kinetics to glucose was variable. In nine patients, it was similar to that in normal subjects while in the other seven patients a "paradoxic" response occurred. The tracer fraction entering the rapid clearance phase increased after glucose by 30% (p less than 0.05) associated with a 36% (p less than 0.05) decline in clearance half-times. The paradoxic response was unrelated to disease etiology or plasma substrate levels but occurred mostly in left ventricles with more severely depressed function. Thus, PET and C-11 palmitate allow the noninvasive demonstration of the known response of substrate metabolism of the human heart to altered substrate availability. Glucose administration in fasted humans serves as a provocative test of substrate regulation which can be abnormal in myocardial disease and can be demonstrated noninvasively.
The possibility of demonstrating noninvasively with C-11 palmitate and positron emission tomography (PET) changes in myocardial substrate metabolism in normal and diseased human myocardium in response to altered substrate availability in blood and disease-related abnormalities was examined in five normal volunteers and 16 patients with ventricular dysfunction. C-11 palmitate injection and serial PET imaging were performed after an overnight fast (control period) and again 2 hours later after oral glucose (50 gm). Myocardial C-11 time-activity curves from serial PET images revealed a biexponential clearance pattern. An early rapid phase, defined by relative size and clearance half-time, reflects C-11 palmitate oxidation and the late slow phase tracer deposition in the endogenous lipid pool. During the control period, the tracer fraction entering the early rapid phase averaged 47 +/- 13% (SD) in normal subjects and 45 +/- 12% in patients. Corresponding clearance half-times were 19 +/- 7 and 20 +/- 5 minutes, respectively. Heart rate and blood pressure remained unchanged after glucose, but plasma glucose levels rose by 72.5% in normal subjects and by 98.9% in patients, while free fatty acid levels fell by 72% and 42% (p less than 0.001), respectively. In normal subjects, the tracer fraction in the early rapid phase fell by 43% (p less than 0.005) and the clearance half-time increased by 46% (p less than 0.01). In patients, the response of C-11 palmitate tissue kinetics to glucose was variable. In nine patients, it was similar to that in normal subjects while in the other seven patients a "paradoxic" response occurred. The tracer fraction entering the rapid clearance phase increased after glucose by 30% (p less than 0.05) associated with a 36% (p less than 0.05) decline in clearance half-times. The paradoxic response was unrelated to disease etiology or plasma substrate levels but occurred mostly in left ventricles with more severely depressed function. Thus, PET and C-11 palmitate allow the noninvasive demonstration of the known response of substrate metabolism of the human heart to altered substrate availability. Glucose administration in fasted humans serves as a provocative test of substrate regulation which can be abnormal in myocardial disease and can be demonstrated noninvasively.The possibility of demonstrating noninvasively with C-11 palmitate and positron emission tomography (PET) changes in myocardial substrate metabolism in normal and diseased human myocardium in response to altered substrate availability in blood and disease-related abnormalities was examined in five normal volunteers and 16 patients with ventricular dysfunction. C-11 palmitate injection and serial PET imaging were performed after an overnight fast (control period) and again 2 hours later after oral glucose (50 gm). Myocardial C-11 time-activity curves from serial PET images revealed a biexponential clearance pattern. An early rapid phase, defined by relative size and clearance half-time, reflects C-11 palmitate oxidation and the late slow phase tracer deposition in the endogenous lipid pool. During the control period, the tracer fraction entering the early rapid phase averaged 47 +/- 13% (SD) in normal subjects and 45 +/- 12% in patients. Corresponding clearance half-times were 19 +/- 7 and 20 +/- 5 minutes, respectively. Heart rate and blood pressure remained unchanged after glucose, but plasma glucose levels rose by 72.5% in normal subjects and by 98.9% in patients, while free fatty acid levels fell by 72% and 42% (p less than 0.001), respectively. In normal subjects, the tracer fraction in the early rapid phase fell by 43% (p less than 0.005) and the clearance half-time increased by 46% (p less than 0.01). In patients, the response of C-11 palmitate tissue kinetics to glucose was variable. In nine patients, it was similar to that in normal subjects while in the other seven patients a "paradoxic" response occurred. The tracer fraction entering the rapid clearance phase increased after glucose by 30% (p less than 0.05) associated with a 36% (p less than 0.05) decline in clearance half-times. The paradoxic response was unrelated to disease etiology or plasma substrate levels but occurred mostly in left ventricles with more severely depressed function. Thus, PET and C-11 palmitate allow the noninvasive demonstration of the known response of substrate metabolism of the human heart to altered substrate availability. Glucose administration in fasted humans serves as a provocative test of substrate regulation which can be abnormal in myocardial disease and can be demonstrated noninvasively.
The possibility of demonstrating noninvasively with C-11 palmitate and positron emission tomography (PET) changes in myocardial substrate metabolism in normal and diseased human myocardium in response to altered substrate availability in blood and disease-related abnormalities was examined in five normal volunteers and 16 patients with ventricular dysfunction. C-11 palmitate injection and serial PET imaging were performed after an overnight fast (control period) and again 2 hours later after oral glucose (50 gm). Myocardial C-11 time-activity curves from serial PET images revealed a biexponential clearance pattern. An early rapid phase, defined by relative size and clearance half-time, reflects C-11 palmitate oxidation and the late slow phase tracer deposition in the endogenous lipid pool. During the control period, the tracer fraction entering the early rapid phase averaged 47 ± 13% (SD) in normal subjects and 45 ± 12% in patients. Corresponding clearance half-times were 19 ± 7 and 20 ± 5 minutes, respectively. Heart rate and blood pressure remained unchanged after glucose, but plasma glucose levels rose by 72.5% in normal subjects and by 98.9% in patients, while free fatty acid levels fell by 72% and 42% ( p < 0.001), respectively. In normal subjects, the tracer fraction in the early rapid phase fell by 43% ( p < 0.005) and the clearance half-time increased by 46% ( p < 0.01). In patients, the response of C-11 palmitate tissue kinetics to glucose was variable. In nine patients, it was similar to that in normal subjects while in the other seven patients a “paradoxic” response occurred. The tracer fraction entering the rapid clearance phase increased after glucose by 30% ( p < 0.05) associated with a 36% ( p < 0.05) decline in clearance half-times. The paradoxic response was unrelated to disease etiology or plasma substrate levels but occurred mostly in left ventricles with more severely depressed function. Thus, PET and C-11 palmitate allow the noninvasive demonstration of the known response of substrate metabolism of the human heart to altered substrate availability. Glucose administration in fasted humans serves as a provocative test of substrate regulation which can be abnormal in myocardial disease and can be demonstrated noninvasively.
Author Barrio, Jorge R.
Schwaiger, Markus
Huang, Sung-Cheng
Grossman, Robert G.
Schelbert, Heinrich R.
Henze, Eberhard
Phelps, Michael E.
Sochor, Heinz
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  givenname: Eberhard
  surname: Henze
  fullname: Henze, Eberhard
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  givenname: Robert G.
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– sequence: 6
  givenname: Jorge R.
  surname: Barrio
  fullname: Barrio, Jorge R.
  organization: From the Division of Nuclear Medicine and Biophysics, Department of Radiological Sciences, UCLA School of Medicine, University of California, Los Angeles, Calif., USA
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  fullname: Schwaiger, Markus
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  givenname: Michael E.
  surname: Phelps
  fullname: Phelps, Michael E.
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Issue 6
Keywords Radionuclide study
Human
Heart disease
Oral administration
Myocardium
Cardiovascular disease
Lipids
Glucose
Left ventricular failure
Metabolism
Positron emission tomography
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Snippet The possibility of demonstrating noninvasively with C-11 palmitate and positron emission tomography (PET) changes in myocardial substrate metabolism in normal...
SourceID proquest
pubmed
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StartPage 1055
SubjectTerms Adult
Biological and medical sciences
Blood Glucose - metabolism
Carbon Radioisotopes
Cardiology. Vascular system
Fatty Acids, Nonesterified - blood
Female
Heart
Heart Diseases - metabolism
Heart Diseases - physiopathology
Heart failure, cardiogenic pulmonary edema, cardiac enlargement
Hemodynamics
Humans
Kinetics
Male
Medical sciences
Metabolic Clearance Rate
Middle Aged
Myocardium - metabolism
Palmitates - metabolism
Palmitic Acids - metabolism
Tomography, Emission-Computed
Title Effects of substrate availability on myocardial C-11 palmitate kinetics by positron emission tomography in normal subjects and patients with ventricular dysfunction
URI https://dx.doi.org/10.1016/0002-8703(86)90006-2
https://www.ncbi.nlm.nih.gov/pubmed/3487240
https://www.proquest.com/docview/76885165
Volume 111
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