H L Kanter
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Explore the profile of H L Kanter including associated specialties, affiliations and a list of published articles.
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11
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Recent Articles
1.
Kanter H, Beyer E, Saffitz J
Microsc Res Tech
. 1995 Aug;
31(5):357-63.
PMID: 8534897
Electrical activation of the heart requires intercellular transfer of current through gap junctions connecting individual cardiac myocytes. Using a combination of light and electron microscopic techniques and molecular approaches, we...
2.
Saffitz J, Davis L, Darrow B, Kanter H, Laing J, Beyer E
J Cardiovasc Electrophysiol
. 1995 Jun;
6(6):498-510.
PMID: 7551319
Electrical activation of the heart requires transfer of current from one discrete cardiac myocyte to another, a process that occurs at gap junctions. Recent advances in knowledge have established that,...
3.
Vom Dahl J, Eitzman D, Kanter H, Hicks R, Deeb G, Kirsh M, et al.
Circulation
. 1994 Nov;
90(5):2356-66.
PMID: 7955194
Background: Imaging of myocardial glucose metabolism using [18F]fluorodeoxyglucose (FDG) with positron emission tomography (PET) has been proposed for identification of tissue viability in patients with advanced coronary artery disease. This...
4.
Davis L, Kanter H, Beyer E, Saffitz J
J Am Coll Cardiol
. 1994 Oct;
24(4):1124-32.
PMID: 7930207
Objectives: We sought to characterize the connexin phenotypes of selected regions of the canine heart with different conduction properties to determine whether variations in connexin expression might contribute to the...
5.
Kanter H, Saffitz J, Beyer E
J Mol Cell Cardiol
. 1994 Jul;
26(7):861-8.
PMID: 7966354
Intercellular coupling of cardiac myocytes through gap junction channels facilitates normal cardiac impulse conduction. Multiple gap junction sequences (connexins) have been previously identified in mammalian and avian heart, but only...
6.
Saffitz J, Kanter H, Green K, Tolley T, Beyer E
Circ Res
. 1994 Jun;
74(6):1065-70.
PMID: 8187276
Electrical conduction is very rapid and highly anisotropic in atrial fiber bundles, such as the crista terminalis. In contrast to left ventricular myocardium in which the ratio of longitudinal to...
7.
Kanter H, Laing J, Beyer E, Green K, Saffitz J
Circ Res
. 1993 Aug;
73(2):344-50.
PMID: 8392450
We have recently shown that adult canine ventricular myocytes express three distinct gap junction channel proteins, connexin40 (Cx40), connexin43 (Cx43), and connexin45 (Cx45). These proteins have unique cytoplasmic domains that...
8.
Kanter H, Laing J, Beau S, Beyer E, Saffitz J
Circ Res
. 1993 May;
72(5):1124-31.
PMID: 8386597
Electrical conduction is more rapid in Purkinje fibers than in ventricular muscle, which are distinct cardiac tissues that have different active and passive electrophysiological properties. We have recently demonstrated that...
9.
Eitzman D, Kanter H, Vom Dahl J, Kirsh M, Deeb G, Schwaiger M
J Am Coll Cardiol
. 1992 Sep;
20(3):559-65.
PMID: 1512333
Objective: The aim of this study was to determine the prognostic significance of perfusion-metabolism imaging in patients undergoing positron emission tomography for myocardial viability assessment. Background: Positron emission tomography using...
10.
Beyer E, Reed K, Westphale E, Kanter H, Larson D
J Membr Biol
. 1992 Apr;
127(1):69-76.
PMID: 1328644
Gap junctions contain intercellular channels which are formed by members of a group of related proteins called connexins. Connexins contain conserved transmembrane and extracellular domains, but unique cytoplasmic regions which...