Upton Rn scite author profile

Upton Rn

4Publications

93Citation Statements Received

95Citation Statements Given

How they've been cited

111

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Affiliations

Royal Adelaide Hospital, University of Adelaide, Flinders Medical Centre

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Agreement Between Ultrasonic Doppler Venous Outflow and Kety and Schmidt Estimates Of Cerebral Blood Flow

Doolette

Rn²,

Grant³

1999

Clin Exp Pharmacol Physiol

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1. The present study compares the indirect Fick nitrous oxide equilibration method of Kety and Schmidt for cerebral blood flow (CBF) estimation with a direct ultrasonic Doppler index of venous outflow. 2. Cerebral blood flow was determined simultaneously by the direct measurement of sagittal sinus blood velocity and the indirect Kety and Schmidt method in five anaesthetized sheep during high and low steady states of CBF. High- and low-flow states were achieved by altering ventilation to produce hypercarbia and hypocarbia, respectively. 3. Four different sets of calculations were used to make the Kety and Schmidt estimations: arterial-venous nitrous oxide concentration differences during uptake or elution of the indicator and with or without extrapolation of arterial-venous differences to infinity. 4. During 15 min nitrous oxide administration, apparent blood:tissue equilibration of nitrous oxide was rapid in some data sets and slow in others. 5. There were no significant differences in CBF estimates between any of the four Kety and Schmidt calculations or the direct ultrasonic Doppler venous outflow method; however, CBF estimates based on nitrous oxide uptake correlated more strongly with the direct method than estimates based on nitrous oxide elution. 6. In the high-flow state, CBF estimates based on nitrous oxide uptake, but not those based on elution, distinguished between rapid and slow blood:tissue equilibration of nitrous oxide. 7. This provides validation of the Doppler sheep brain venous outflow method against the widely used Kety and Schmidt method.

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Cerebrovascular Carbon Dioxide Reactivity in Sheep: Effect of Propofol or Isoflurane Anaesthesia

Myburgh

et al. 2002

Anaesth Intensive Care

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Propofol and isoflurane are commonly used in neuroanaesthesia. Some published data suggest that the use of these agents is associated with impaired cerebral blood flow/carbon dioxide (CO 2) reactivity. Cerebrovascular CO 2 reactivity was therefore measured in three cohorts of adult merino sheep: awake (n=6), anaesthetized with steadystate propofol (15 mg/min; n=6) and anaesthetized with 2% isoflurane (n=6). Changes in cerebral blood flow were measured continuously from changes in velocities of blood in the sagittal sinus via a Doppler probe. Alterations in the partial pressure of carbon dioxide in arterial blood (P a CO 2) over the range 18-63 mmHg were achieved by altering either the inspired CO 2 concentration or the rate of mechanical ventilation. Cerebral blood flow/CO 2 relationships were determined by linear regression analysis, with changes in cerebral blood flow expressed as a percentage of the value for a P a CO 2 of 35 mmHg. Propofol decreased cerebral blood flow by 55% relative to pre-anaesthesia values (P=0.0001), while isoflurane did not significantly alter cerebral blood flow (88.45% of baseline, P=0.39). Significant linear relationships between cerebral blood flow and CO 2 tension were determined in all individual studies (r 2 ranged from 0.72 to 0.99). The slopes of the lines were highly variable between individuals for the awake cohort (mean 4.73, 1.42-7.12, 95% CI). The slopes for the propofol (mean 2.67, 2.06-3.28, 95% CI) and isoflurane (mean 2.82, 2.19-3.45, 95% CI) cohorts were more predictable. However, there was no significant difference between these anaesthetic agents with respect to the CO 2 reactivity of cerebral blood flow.

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The Cerebrovascular Effects of Adrenaline, Noradrenaline and Dopamine Infusions under Propofol and Isoflurane Anaesthesia in Sheep

Myburgh

Grant

et al. 2002

Anaesth Intensive Care

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Infusions of catecholamines are frequently administered to patients receiving propofol or isoflurane anaesthesia. Interactions between these drugs may affect regional circulations, such as the brain. The aim of this animal (sheep) study was to determine the effects of ramped infusions of adrenaline, noradrenaline (10, 20, 40 µg/min) and dopamine (10, 20, 40 µg/kg/min) on cerebral blood flow (CBF), intracranial pressure (ICP), cerebrovascular resistance (CVR) and cerebral metabolic rate for oxygen (CMRO 2). These measurements were made under awake physiological conditions, and during continuous propofol (15 mg/min) or 2% isoflurane anaesthesia. All three catecholamines significantly and equivalently increased mean arterial pressure from baseline in a dosedependent manner in the three cohorts (P<0.001). In the awake cohort (n=8), dopamine (P<0.01) significantly increased CBF from baseline whilst adrenaline and noradrenaline did not (P>0.05). Under propofol (n=6) and isoflurane (n=6), all three catecholamines significantly increased CBF (P<0.001). Dopamine caused the greatest increase in CBF, and was associated with significant increases in ICP (awake: P<0.001; propofol P<0.05; isoflurane P<0.001) and CVR (isoflurane P<0.05). No significant changes in CMRO 2 were demonstrated. Under propofol and isoflurane anaesthesia, the cerebrovascular effects of catecholamines were significantly different from the awake, physiological state, with dopamine demonstrating the most pronounced effects, particularly under propofol. Dopamine-induced hyperaemia was associated with other cerebrovascular changes. In the presence of an equivalent effect on mean arterial pressure, the exaggerated cerebrovascular effects under anaesthesia appear to be centrally mediated, possibly induced by propofol-or isoflurane-dependent changes in blood-brain barrier permeability, thereby causing a direct influence on the cerebral vasculature.

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The Influence of Acidosis on the Distribution of Lidocaine and Bupivacaine into the Myocardium and Brain of the Sheep

Nancarrow

et al. 1987

Anesthesia & Analgesia

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Upton Rn

Agreement Between Ultrasonic Doppler Venous Outflow and Kety and Schmidt Estimates Of Cerebral Blood Flow

Cerebrovascular Carbon Dioxide Reactivity in Sheep: Effect of Propofol or Isoflurane Anaesthesia

The Cerebrovascular Effects of Adrenaline, Noradrenaline and Dopamine Infusions under Propofol and Isoflurane Anaesthesia in Sheep

The Influence of Acidosis on the Distribution of Lidocaine and Bupivacaine into the Myocardium and Brain of the Sheep

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