Journal ArticleDOI
Regional myocardial perfusion assessed with N-13 labeled ammonia and positron emission computerized axial tomography
Heinrich R. Schelbert,Michael E. Phelps,Edward J. Hoffman,Sung-Cheng Huang,Carl Selin,David E. Kuhl +5 more
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TLDR
Positron emission computerized axial tomography permits quantitative measurements of the distribution of this agent in myocardium and therefore should prove useful in measuring regional myocardial perfusion and blood flow and compares favorably with conventional monovalent perfusion imaging agents.Abstract:
The usefulness of N-13 ammonia as an indicator of regional myocardial perfusion suitable for positron emission tomography has been suggested. However, the relation between myocardial blood flow and uptake of N-13 ammonia has not been examined quantitatively. To quantitate the relation of myocardial N-13 ammonia tissue concentration to myocardial blood flow and examine its suitability for positron emission tomographic imaging, 12 open chest dogs were studied. In eight of the dogs, 25 imaging procedures with N-13 ammonia and positron emission tomography were performed; in the remaining four dogs the relation between flow and myocardial N-13 ammonia concentration was assessed with in vitro techniques. Positron emission tomography provided high quality cross-sectional images of the distribution of N-13 ammonia in left ventricular myocardium. No significant redistribution of N-13 ammonia in the myocardium occurred with time. Alterations in regional myocardial blood flow resulted in changes in the regional distribution of N-13 ammonia that were visible in the cross-sectional images. Myocardial N-13 ammonia concentrations measured with positron emission tomography were closely related to myocardial blood flow, although in a nonlinear fashion. The nonlinear relation determined with positron emission tomography was identical to that observed with in vitro techniques. The nonlinearity of this relation of flow to N-13 ammonia concentration was probably due to the inverse relation between flow and the N-13 ammonia single pass extraction fraction. The uptake of N-13 ammonia was studied at myocardial blood flows ranging from 0 to 500 ml/min per 100 g, whereas physiologically occurring flows in man range only from near 0 to approximately 300 ml/min per 100 g. Within this physiologic flow range, the relation between flow and N-13 ammonia concentration was relatively linear, and a 100 percent increase in flow produced an approximately 70 percent increase in N-13 ammonia concentration. It is concluded that N-13 ammonia is a good indicator of myocardial blood flow and compares favorably with conventional monovalent perfusion imaging agents. Positron emission computerized axial tomography permits quantitative measurements of the distribution of this agent in myocardium and therefore should prove useful in measuring regional myocardial perfusion and blood flow.read more
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Journal ArticleDOI
Noninvasive quantification of regional blood flow in the human heart using N-13 ammonia and dynamic positron emission tomographic imaging
Gary D. Hutchins,Markus Schwaiger,Karen C. Rosenspire,Janine Krivokapich,Heinrich R. Schelbert,David E. Kuhl +5 more
TL;DR: The observed coronary flow reserve after dipyridamole is in close agreement with the results obtained by invasive techniques, indicating accurate flow estimates over a wide range, and positron emission tomography may provide accurate and noninvasive definition of the functional significance of coronary artery disease.
Journal ArticleDOI
N-13 ammonia as an indicator of myocardial blood flow.
Heinrich R. Schelbert,M.E. Phelps,S.-C. Huang,Norman S. MacDonald,Herbert Hansen,Carl Selin,David E. Kuhl +6 more
TL;DR: The relative constancy of metabolic trapping over a wide range of hemodynamic and metabolic conditions demonstrates the value of N-13 ammonia as a myocardial blood flow imaging agent.
Journal ArticleDOI
Noninvasive assessment of coronary stenoses with myocardial perfusion imaging during pharmacologic coronary vasodilatation. V. Detection of 47 percent diameter coronary stenosis with intravenous nitrogen-13 ammonia and emission-computed tomography in intact dogs.
TL;DR: It is concluded that noninvasive myocardial emission-computed tomography with nitrogen-13 ammonia during dipyridamole-induced coronary vasodilatation detects mild coronary stenoses for purposes of potential medical intervention.
Journal ArticleDOI
Regional perfusion, glucose metabolism, and wall motion in patients with chronic electrocardiographic Q wave infarctions: evidence for persistence of viable tissue in some infarct regions by positron emission tomography.
Richard C. Brunken,Jan H. Tillisch,Markus Schwaiger,John S. Child,Robert C. Marshall,M Mandelkern,M.E. Phelps,Heinrich R. Schelbert +7 more
TL;DR: Positron tomography reveals evidence of persistent tissue metabolism in a high proportion of chronic electrocardiographic Q wave regions, and commonly used clinical tests do not reliably distinguish hypoperfused but viable regions from tomographically defined regions of myocardial infarction.
Journal ArticleDOI
Noninvasive quantification of regional myocardial blood flow in coronary artery disease with oxygen-15-labeled carbon dioxide inhalation and positron emission tomography
Luis I. Araujo,Adriaan A. Lammertsma,Christopher G. Rhodes,E O McFalls,Hidehiro Iida,Eldad Rechavia,Alfredo R. Galassi,R De Silva,Terry Jones,Attilio Maseri +9 more
TL;DR: PET with C1502 inhalation provides an accurate noninvasive quantitative method for measuring regional myocardial blood flow in patients and is validated in animals and patients.
References
More filters
Journal ArticleDOI
Blood flow measurements with radionuclide-labeled particles.
TL;DR: The microsphere technique is relatively simple and extremely accurate when appropriately and correctly applied, and it can be used to quantify arteriovenous anastomoses as well as the measurement of organ blood flows and distribution of blood flow within those organs.
Journal ArticleDOI
Physiologic basis for assessing critical coronary stenosis : Instantaneous flow response and regional distribution during coronary hyperemia as measures of coronary flow reserve
TL;DR: Flow response and regional distribution during coronary hyperemia caused by Hypaque are quantitative measures for physiologically assessing critical coronary stenosis and flow reserve with potential applicability to patients.
Journal ArticleDOI
The Permeability of Capillaries in Various Organs as Determined by Use of the ‘Indicator Diffusion’ Method
TL;DR: It is shown that the permeability of a capillary area can be expressed by three parameters: the initial extraction of test substances added in a single injection to the blood flowing to an organ, the blood flow and the surface area of the capillaries.
Journal ArticleDOI
Noninvasive assessment of coronary stenoses by myocardial imaging during pharmacologic coronary vasodilatation. II. Clinical methodology and feasibility
TL;DR: The initial results warrant a larger clinical study in order to define the diagnostic sensitivity and specificity of the technique.
Journal ArticleDOI
Noninvasive assessment of coronary stenoses with myocardial perfusion imaging during pharmacologic coronary vasodilatation. V. Detection of 47 percent diameter coronary stenosis with intravenous nitrogen-13 ammonia and emission-computed tomography in intact dogs.
TL;DR: It is concluded that noninvasive myocardial emission-computed tomography with nitrogen-13 ammonia during dipyridamole-induced coronary vasodilatation detects mild coronary stenoses for purposes of potential medical intervention.