J O'Riordan scite author profile

This study was designed to evaluate the sensitivity of changes in myocardial carbon dioxide and oxygen tensions as indicators of regional myocardial ischemia and also to determine to what extent these changes can be related to changes in intramyocardial ST segment voltage. Changes in ST segment voltage recorded in unipolar epicardial electrodes proved to be a less-sensitive indicator of underlying myocardial ischemia than were changes in ST segment voltage recorded in unipolar intramyocardial electrodes. In 9 dogs, regional ischemia was produced by placing a variable constrictor on the left circumflex coronary artery; circumflex flow was monitored. Myocardial carbon dioxide and oxygen tensions were measured using a mass spectrometer. Unipolar electrograms were recorded using a multicontact plunge electrode. With progressive degrees of proximal stenosis, ranging from a critical stenosis, which is associated with a decrease in mean flow of less than 15%, to a severe stenosis associated with and 80% decrease, ST voltage increased 21 mv and carbon dioxide tension increased 84 mm Hg, but oxygen tension decreased only 7 mm Hg. The study suggests that increases in intramyocardial ST segment voltage, an index of myocardial ischemia, are associated with parallel increases in myocardial carbon dioxide tension, each providing a more sensitive quantitative correlate of regional myocardial ischemia than do decreases in oxygen tension. The local accumulation of carbon dioxide may be an important pathophysiological mechanism in myocardial ischemia.

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Comparative response of male and female patients with coronary artery disease to exercise rehabilitation

O’Callaghan¹,

Teo²,

O'Riordan³

et al. 1984

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Male (227) and female (37) participants in a supervised rehabilitation programme for patients with coronary artery disease were compared in relation to their compliance with and response to the programme. The drop-out rate was higher in females (18.9% vs 7.9%) and their attendance rate at sessions was lower (77% vs 87%). Following the programme, exercise duration was significantly increased in both groups to a similar degree, although absolute values were consistently higher in males. The heart rates required to perform given workloads were reduced for both sexes, the magnitude of reduction being similar. Blood pressure was not altered after rehabilitation. These findings show that female patients, despite poorer compliance than males, can benefit equally from exercise rehabilitation.

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Effects of atrial pacing on regional myocardial gas tensions with critical coronary stenosis

O'Riordan

Flaherty

Khuri

et al. 1977

American Journal of Physiology-Heart and Circulatory Physiology

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Changes in myocardial carbon dioxide (PmCO2) and oxygen tension (PmO2) measured by mass spectrometry have been shown to reflect quantitatively progressive degrees of regional myocardial ischemia associated with stepwise reduction in coronary blood flow. The present study utilized mass spectrometry to assess the severity of regional myocardial ischemia developing during atrial pacing in the presence of a flow-limiting proximal critical coronary artend subendocardial layers was measured by the radioactive microsphere technique. Application of a "critical stenosis" resulted in a 6-mmHg decrease in PmO2 and a 17-mmHg increase in PmCO2 in the region of the myocardium supplied by the stenosed vessel. The addition of atrial pacing resulted in a 3-mmHg further decrease in Pmo2 and a 40-mmHg further increase in PmCO2. In the region of myocardium supplied by the critically stenosed vessel MBF increased in the subepicardial layer, but decreased or remained unchanged in the subendocardial layer. The failure of myocardial blood flow to increase in deeper myocardial layers in response to the increased myocardial oxygen demand of atrial pacing would provide a mechanism for the development of subendocardial ischemia in the presence of a critical coronary stenosis.

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The Effect of Cardiopulmonary Bypass Perfusion Pressure on Myocardial Gas Tensions in the Presence of Coronary Stenosis

Khuri

Brawley

O'Riordan

et al. 1975

The Annals of Thoracic Surgery

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J O'Riordan

Changes in intramyocardial ST segment voltage and gas tensions with regional myocardial ischemia in the dog.

Comparative response of male and female patients with coronary artery disease to exercise rehabilitation

Effects of atrial pacing on regional myocardial gas tensions with critical coronary stenosis

The Effect of Cardiopulmonary Bypass Perfusion Pressure on Myocardial Gas Tensions in the Presence of Coronary Stenosis

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