S. Pugh scite author profile

Fourteen patients undergoing routine cardiac catheterisation were paced at a steady frequency; after this test, stimuli were introduced with a variable preceding interval (test pulse interval). The QT interval of the electrocardiogram and the duration of the monophasic action potential of the right ventricle were measured. QT interval is a function of action potential duration; the two variables were very closely correlated in this study. Both these variables increased in duration with increasing test pulse interval. A biphasic response, as previously reported, was not seen. An increase in steady state pacing frequency caused QT interval and action potential duration to decrease for any given R-R interval. When frequency of stimulation was suddenly increased and then maintained, there was an immediate action potential shortening followed by a further more gradual shortening occurring over several minutes. These results imply that a simple correction of QT interval for heart rate (QTc) is inadequate. It is concluded that the relation between action potential duration (or QT interval) and heart rate depends on both the instantaneous interval between beats and the duration of the prevailing heart rate.

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Validation of beat by beat pulsed Doppler measurements of ascending aortic blood velocity in man

Innes

Mills

Noble

et al. 1987

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The volume, velocity, and acceleration of ascending aortic blood were measured in man using a pulsed Doppler ultrasound instrument, with online spectral analysis and offline computer processing of velocity data. This system was firstly validated in a test rig capable of generating pulsatile flow of talc particles in water at physiological velocities and accelerations in a model aorta. Doppler measurements correlated well (r greater than or equal to 0.90) with simultaneous electromagnetic measurements of stroke volume, peak ejection velocity, and maximum acceleration in this rig. In vivo validation was performed firstly by comparing simultaneous Doppler and thermodilution cardiac output (Q) measurements; this yielded the following regression equation: Doppler Q = 0.90 X thermodilution Q + 0.03 litre.min-1, r = 0.92; n = 38. Beat by beat measurements were then validated against simultaneous invasive aortic blood velocity measurements made using a Mills electromagnetic cathetertip probe. When paced single beats of different size were compared within subjects the correlation coefficients between Doppler and electromagnetic measurements averaged 0.89 for stroke volume, 0.91 for peak ejection velocity, and 0.79 for maximum acceleration in five subjects. The absolute values for velocity and acceleration from the Doppler system differed significantly from the absolute values given by the electromagnetic system and this difference was not consistent between subjects. It is concluded that the Doppler system can non-invasively record relative changes in left ventricular ejection in man.

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The effect of dobutamine on blood flow of free tissue transfer flaps during head and neck reconstructive surgery*

Scholz¹,

Pugh²,

Fardy

et al. 2009

Anaesthesia

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Summary In view of the controversy over the use of inotropes in free tissue transfer surgery, we assessed the effect of different intra‐operative dobutamine infusion rates on blood flow in the anastomosed recipient artery. Twenty patients undergoing head and neck tumour resection and immediate reconstructive surgery with free tissue transfer were recruited. After completion of the microvascular anastomoses, patients received dobutamine infusions of 2, 4 and 6 μg.kg−1.min−1 in a randomised order. After steady state dobutamine concentration was achieved, mean and maximum blood flow in the arterial anastomosis was measured at each concentration, using the Medi‐Stim Butterfly Flowmeter system. Systemic haemodynamic parameters were simultaneously recorded using a pulse contour cardiac output system. Both mean and maximum blood flow increased significantly in the anastomosed artery at dobutamine infusions of 4 and 6 μg.kg−1.min−1 and this was accompanied by increased cardiac output. This may improve free flap perfusion.

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Hemodynamic response to treadmill exercise in normal volunteers: An assessment by Doppler ultrasonic measurement of ascending aortic blood velocity and acceleration

Mehta

Boyle

Bennett

et al. 1988

American Heart Journal

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S. Pugh

Aortic and Mitral Valve Calcification in Patients With End-Stage Renal Disease

Relation of human cardiac action potential duration to the interval between beats: implications for the validity of rate corrected QT interval (QTc).

Validation of beat by beat pulsed Doppler measurements of ascending aortic blood velocity in man

The effect of dobutamine on blood flow of free tissue transfer flaps during head and neck reconstructive surgery*

Hemodynamic response to treadmill exercise in normal volunteers: An assessment by Doppler ultrasonic measurement of ascending aortic blood velocity and acceleration

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