H. Gareth Tobler scite author profile

H. Gareth Tobler

4Publications

71Citation Statements Received

1Citation Statement Given

How they've been cited

186

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Affiliations

Central Arkansas Veterans Healthcare System, University of Minnesota Medical Center, United Hospital

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Electrophysiologic effects of papillary muscle traction in the intact heart.

Gornick¹,

Tobler²,

Pritzker³

et al. 1986

Circulation

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In this study we used transmural multipolar electrodes, sonomicrometers implanted within the left ventricular wall, and cardiac electrical stimulation techniques to examine the effect of transient mechanical posterior papillary muscle traction on local myocardial electrophysiologic characteristics. Nine open-chest dogs were atrially paced (cycle length 400 msec) followed by insertion of timed premature extrastimuli at left ventricular epicardial pacing sites either in the vicinity of (traction zone) or remote from (nontraction zone) the site of papillary muscle traction. Electrophysiologic recordings were made before and during periods of intermittent papillary muscle traction of predetermined timing, application rate (25 cm/sec), and duration (170 msec). Papillary muscle traction was applied in late diastole just before the last beat of each atrial drive train. In seven of nine dogs application of transient papillary muscle traction resulted in significantly earlier local ventricular activation (mean activation advancement 30 ± 13 msec), altered QRS morphology of the last conducted atrial drive-train beat, and relative prolongation of ventricular functional refractory period in the traction zone. Conversely, in nontraction zones in these seven dogs, early activation did not occur and refractoriness remained unchanged as tested by a locally placed extrastimulus. In two of nine dogs traction failed to induce early activation and changes in refractoriness did not occur. Alterations in regional myocardial blood flow (assessed by radioactive microsphere technique) did not appear responsible for the observed changes, since there was no demonstrable traction-induced difference in regional blood flow between the traction and nontraction zones. Thus, in normal myocardium in situ, regional abnormal wall motion may be associated with alterations of local ventricular activation and refractoriness, factors that in the diseased heart may lead to increased susceptibility to arrhythmias.

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Costs and quality of life associated with radial artery and saphenous vein cardiac bypass surgery: results from a Veterans Affairs multisite trial

Sethi

Holman

Lee³

et al. 2011

The American Journal of Surgery

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Frequency and location of atherosclerotic plaques in the ascending aorta

Tobler

Edwards

1988

The Journal of Thoracic and Cardiovascular Surgery

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Electrophysiological effects of transient aortic occlusion in intact canine heart

Benditt¹,

Kriett²,

Tobler³

et al. 1985

American Journal of Physiology-Heart and Circulatory Physiology

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This study utilized sonomicrometers transmural multipolar electrodes and cardiac electrical stimulation techniques to examine the effect on myocardial electrophysiological characteristics of altering ventricular systolic mechanical properties by transient aortic occlusion. Nine anesthetized open-chest dogs were atrially paced, and timed extrastimuli were inserted during alternate drive-train sequences at right or left ventricular (RV, LV) epicardial sites to measure ventricular effective refractory period (ERP). Sonomicrometer measurements of LV systolic mechanical parameters and both RV and LV electrophysiological findings were determined prior to and during periods of transient aortic occlusion. Aortic occlusion was applied just prior to the last beat of each eight-beat atrial drive train and released immediately following the programmed ventricular extrastimulus. Aortic occlusion increased LV systolic pressure (+42 +/- 26.6 mmHg, P less than 0.01) and diminished segmental stroke shortening (0.100 +/- 0.059 mm, P less than 0.02), shortening fraction (0.086 +/- 0.048, P less than 0.001), mean velocity of stroke shortening (0.444 +/- 0.186 mm/s, P less than 0.001), and stroke work (P less than 0.001). LV epicardial and endocardial ERP were prolonged as a result of aortic occlusion (5 +/- 7.2 and 6 +/- 6.5 ms, respectively, P less than 0.05), whereas RV ERP was unchanged. Latency of premature beats at equivalent coupling intervals was unaltered. ERP prolongation correlated most strongly with reductions of segmental stroke shortening (r = 0.928, P less than 0.001), shortening fraction (r = 0.901, P less than 0.001), and mean shortening velocity (r = 0.819, P less than 0.01). Thus transient aortic occlusion prolonged LV refractoriness, and electrophysiological changes closely paralleled the severity of systolic mechanical disturbance.

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H. Gareth Tobler

Electrophysiologic effects of papillary muscle traction in the intact heart.

Costs and quality of life associated with radial artery and saphenous vein cardiac bypass surgery: results from a Veterans Affairs multisite trial

Frequency and location of atherosclerotic plaques in the ascending aorta

Electrophysiological effects of transient aortic occlusion in intact canine heart

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