Colin M Goutcher scite author profile

Respiratory challenge MRI is the modification of arterial oxygen (PaO2) and/or carbon dioxide (PaCO2) concentration to induce a change in cerebral function or metabolism which is then measured by MRI. Alterations in arterial gas concentrations can lead to profound changes in cerebral haemodynamics which can be studied using a variety of MRI sequences. Whilst such experiments may provide a wealth of information, conducting them can be complex and challenging. In this paper we review the rationale for respiratory challenge MRI including the effects of oxygen and carbon dioxide on the cerebral circulation. We also discuss the planning, equipment, monitoring and techniques that have been used to undertake these experiments. We finally propose some recommendations in this evolving area for conducting these experiments to enhance data quality and comparison between techniques.

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Reduction in mouth opening with semi-rigid cervical collars † †Presented as a poster at the Difficult Airway Society Annual Scientific Meeting, Leicester, UK, November 25–26, 2004.

Goutcher

Lochhead

2005

British Journal of Anaesthesia

134

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Oxygen challenge magnetic resonance imaging in healthy human volunteers

Dani

Moreton

Santosh

et al. 2016

J Cereb Blood Flow Metab

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Oxygen challenge imaging involves transient hyperoxia applied during deoxyhaemoglobin sensitive (T2*-weighted) magnetic resonance imaging and has the potential to detect changes in brain oxygen extraction. In order to develop optimal practical protocols for oxygen challenge imaging, we investigated the influence of oxygen concentration, cerebral blood flow change, pattern of oxygen administration and field strength on T2*-weighted signal. Eight healthy volunteers underwent multi-parametric magnetic resonance imaging including oxygen challenge imaging and arterial spin labelling using two oxygen concentrations (target FiO 2 of 100 and 60%) administered consecutively (two-stage challenge) at both 1.5T and 3T. There was a greater signal increase in grey matter compared to white matter during oxygen challenge (p < 0.002 at 3T, P < 0.0001 at 1.5T) and at FiO 2 ¼ 100% compared to FiO 2 ¼ 60% in grey matter at both field strengths (p < 0.02) and in white matter at 3Tonly (p ¼ 0.0314). Differences in the magnitude of signal change between 1.5T and 3T did not reach statistical significance. Reduction of T2*-weighted signal to below baseline, after hyperoxia withdrawal, confounded interpretation of two-stage oxygen challenge imaging. Reductions in cerebral blood flow did not obscure the T2*-weighted signal increases. In conclusion, the optimal protocol for further study should utilise target FiO 2 ¼ 100% during a single oxygen challenge. Imaging at both 1.5T and 3T is clinically feasible.

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Magnesium in the management of catecholaminesecreting glomus tumours with intracranial extension

et al. 2006

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Colin M Goutcher

Respiratory challenge MRI: Practical aspects

Reduction in mouth opening with semi-rigid cervical collars † †Presented as a poster at the Difficult Airway Society Annual Scientific Meeting, Leicester, UK, November 25–26, 2004.

Oxygen challenge magnetic resonance imaging in healthy human volunteers

Magnesium in the management of catecholaminesecreting glomus tumours with intracranial extension

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