Browsing Physics (Scholarly Publications) by Author "WETTERLING, FRIEDRICH"
Now showing items 1-5 of 5
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A double-tuned 1H/23Na dual resonator system for tissue sodium concentration measurements in the rat brain via Na-MRI
FAGAN, ANDREW; WETTERLING, FRIEDRICH (2010)A method for quantifying the Tissue Sodium Concentration (TSC) in the rat brain from 23Na-MR images was developed. TSC is known to change in a variety of common human diseases and holds considerable potential to contribute ... -
A Double-Tuned 1H/23Na Two Element Phased Array System for In Vivo 23Na Magnetic Resonance Microscopy at 7 T
WETTERLING, FRIEDRICH; FAGAN, ANDREW (2010)Accurate identification of the potentially salvageable ischaemic penumbra is critical in identifying stroke patients who will benefit from thrombolysis and in designing future clinical trials of potential neuroprotectants. ... -
Non-Invasive and Temporally Resolved Measurement of Ischaemic Tissue Damage in Acute Stroke Using Quantitative 23Na Magnetic Resonance Microscopy at 7 T
WETTERLING, FRIEDRICH; FAGAN, ANDREW (2010)The aim of this study was to define a quantifiable parameter which would allow for the classification of still-viable penumbra and irreversibly damaged (ischaemic core) tissue after Middle Cerebral Artery Occlusion (MCAO) ... -
The Quantification of Tissue Sodium Concentration using 23Na-Magnetic Resonance Microscopy at 7 T: Probing the Acute Stroke Phase
WETTERLING, FRIEDRICH; FAGAN, ANDREW (2010)Accurate identification of the potentially salvageable ischaemic penumbra is critical in identifying stroke patients who will benefit from thrombolysis and in designing future clinical trials of potential neuroprotectants. ... -
Regional and temporal variations in tissue sodium concentration during the acute stroke phase
WETTERLING, FRIEDRICH; FAGAN, ANDREW (2012)A technique for noninvasively quantifying the concentration of sodium (23Na) ions was applied to the study of ischemic stroke. 23Na-magnetic resonance imaging techniques have shown considerable potential for measuring ...