Your search keyword '"Matthews, P.M."' showing total 5 results

1. Remembering John Newsom-Davis' contribution to human imaging in Oxford

Author

Matthews, P.M., Radda, G.K., Johansen-Berg, H., Tracey, I., and Cowey, A.

Subjects

*BRAIN imaging, *DIAGNOSTIC imaging, *MEDICAL imaging systems

Abstract

Abstract: John Newsom-Davis played a crucial role in supporting areas of scientific exploration beyond his own research interests. In particular, he was one of the key players in establishing human neuroimaging in Oxford. Here, we celebrate the role that he played in this endeavour, both in the early days of pulling together funding, and solving practical challenges, and in the following years, when we all appreciated his ongoing encouragement and support. [Copyright &y& Elsevier]

Published

2008

2. White matter and lesion T1 relaxation times increase in parallel and correlate with disability in multiple sclerosis.

Author

Parry, A., Clare, S., Jenkinson, M., Smith, S., Palace, J., and Matthews, P.M.

Subjects

MULTIPLE sclerosis, VIRUS diseases, MEDICAL imaging systems, PREVENTIVE medicine, THALAMUS, MYELIN sheath diseases

Abstract

Previous studies have established the clinical relevance of hypointense lesions (“black holes”) on T1-weighted MRI as a surrogate marker for pathological change [36]. In contrast to measuring the volume of “black holes”, the direct measurement of T1 values allows an objective assessment of the changes contributing to hypointensity both in the focal lesions and in the normal appearing white matter (NAWM). The aims of this study were first, to determine the relationship between T1 values in the NAWM and in discrete lesions, second, to test the relationship between white matter T1 changes and measures of disability and third, to determine whether pathology leading to T1 change occurred in thalamic grey matter of patients with multiple sclerosis. 24 patients with clinically definite multiple sclerosis (13 with relapsing-remitting multiple sclerosis and 11 with secondary progressive multiple sclerosis) and 11 controls participated. White matter T1 histograms and mean T1 values for the thalamus were generated from whole brain T1 relaxation time maps measured using a novel echo-planar imaging based MRI sequence at 3Tesla. Tissue segmentation based on T2- and T1-weighted images allowed independent study of changes in lesions and NAWM. White matter T1 histograms from the patient group showed a reduced peak height and a shift towards higher T1 values (p = 0.028) relative to controls. The mean thalamic T1 was greater for secondary progressive patients than for healthy controls (p = 0.03). Mean white matter T1 values correlated significantly with disability (r = 0.48, p = 0.02). The mean T1 value in the T1-hypointense lesions correlated strongly with the mean T1 value in the NAWM (r = 0.80, p < 0.001). No significant relationship was found between mean white matter T1 value and cerebral volume (r = -0.23, p = 0.31). The T1 measurements extend previous observations suggesting that changes in the NAWM occur in parallel with pathology in lesions of MS. T1 measurements of either the total or NAWM therefore may provide a potentially observer- and scanner- independent marker of pathology relevant to disability in MS. [ABSTRACT FROM AUTHOR]

Published

2002

3. Altered cortical activation with finger movement after peripheral denervation: comparison of active and passive tasks.

Author

Reddy, H., Floyer, A., Donaghy, M., and Matthews, P.M.

Subjects

ALTERNATIVE medicine, FRONTAL lobe, MAGNETIC resonance imaging, DIAGNOSTIC imaging, CEREBRAL cortex, MEDICAL imaging systems

Abstract

We wished to contrast cortical activation during hand movements in profoundly weak patients with motor neuropathy and in normal controls using a paradigm that is behaviourally matched between the two groups. Previous work has suggested that a passive movement task could be appropriate. Using functional magnetic resonance imaging (fMRI), we first characterised patterns of brain activation during active and passive index finger movements in healthy controls (n=10). Although the relative activation differences were highly variable, there was a trend for the mean number of significantly activated voxels in the primary motor cortex contralateral to the hand moved (CMC) to be lower for the passive than for the active task (40% relative decrease, P=0.09). There was a small posterior shift in the centre of mass of the CMC (mean, 8 mm, P<0.02) and of the ipsilateral sensorimotor cortex (IMC) (mean, 11 mm, P<0.05). No activation with passive movement was found in the patients with severe distal sensory neuropathy (n=2), suggesting that activation with passive movements is dependent on sensory feedback and unlikely to be due to mental imagery alone. In contrast, patients with severe pure motor neuropathies (MN, n=2) showed substantial increases in the volumes of activation compared to controls. The relative increases in numbers of voxels activated above threshold in different regions of interest for both the active (MN/controls: CMC, 2.1; IMC, 8.1; supplementary motor area [SMA], 5.2) and passive (CMC, 2.6; IMC, 8.0; SMA, 5.1) tasks were similar. These results confirm expansion of cortical representation for finger movement in patients with motor neuropathy and demonstrate central reorganisation as a consequence of the motor nerve loss. An expanded representation for finger movement in the primary motor cortex with peripheral weakness suggests the possibility that the primary motor cortex may encode motor unit activation rather directly. [ABSTRACT FROM AUTHOR]

Published

2001

4. Discordant white matter N-acetylasparate and diffusion MRI measures suggest that chronic metabolic dysfunction contributes to axonal pathology in multiple sclerosis

Author

Cader, S., Johansen-Berg, H., Wylezinska, M., Palace, J., Behrens, T.E., Smith, S., and Matthews, P.M.

Subjects

*DIFFUSION magnetic resonance imaging, *CORPUS callosum, *MEDICAL imaging systems, *MULTIPLE sclerosis

Abstract

Abstract: Diffusion MRI and magnetic resonance spectroscopic measurements of selectively neuronally localised N-acetylaspartate (NAA) both have been used widely to assess white matter integrity and axonal loss. We have tested directly the relationship between changes in diffusion MRI parameters and NAA concentrations in the corpus callosum (CC) in an in vivo study of patients with MS. Fifteen MS patients (median EDSS 2.5, range 1–4) were studied with T1 anatomical, T2-weighted, and diffusion-sensitised MRI and PRESS single-voxel MRS. A recently described method, tract-based spatial statistics (TBSS) [Smith, S.M., Jenkinson, M., Johansen-Berg, H., Rueckert, D., Nichols, T.E., Mackay, C.E. et al., 2006. Tract-based spatial statistics: voxelwise analysis of multi-subject diffusion data. Neuroimage 31, 1487–1505] also was used to perform exploratory voxelwise whole-brain analysis of white matter diffusion fractional anisotropy (FA). We found a strong correlation between callosal size and both mean FA (r =0.68, p <0.005) (related specifically to changes in the radial tensor component) and mean inter-hemispheric motor tract connectivity probability (r =0.74, p <0.001). TBSS confirmed that the diffusion anisotropies of white matter voxels specifically within the callosum were correlated with the callosal size. Individual patient global T2 lesion volumes were correlated with both the probability of callosal connectivity (r =−0.69, p <0.005) and fractional anisotropy across the callosum (r =−0.76, p <0.001). However, absolute concentrations of NAA from the voxel showed no correlation with callosal cross-sectional area, mean connectivity or fractional anisotropy within the callosal pathway. We conclude that diffusion MRI shows changes consistent with sensitivity to axonal loss, but that relative NAA changes are not necessarily related directly to this. Axonal metabolic function, independent of structural integrity, may be a major determinant of NAA measures in MS. [Copyright &y& Elsevier]

Published

2007

5. Relating neocortical pathology to disability progression in multiple sclerosis using MRI

Author

Chen, J.T., Narayanan, S., Collins, D.L., Smith, S.M., Matthews, P.M., and Arnold, D.L.

Subjects

*MULTIPLE sclerosis, *MEDICAL imaging systems, *MAGNETIC resonance imaging, *BRAIN

Abstract

Cortical grey matter (cGM) develops a substantial burden of pathology in multiple sclerosis (MS). Previous cross-sectional studies have suggested a relationship between measures of cortical atrophy and disability. Our objective was to develop a method for automatically measuring the apparent cGM thickness as well as the integrity of the interface between cGM and subcortical white matter (GM/WM) both globally and regionally on T1-weighted MRI, and use this method in a longitudinal investigation of how these measures differed between patients with stable MS and patients with progressing disability. Measurements were made over the whole brain and for anatomically specified cortical regions, both cross-sectionally at baseline and longitudinally on two MRI scans performed on average 1 year apart. We found a higher average rate of apparent loss of cGM thickness across the whole brain in the group that progressed over the interscan interval compared to the group that remained stable (progressing = −3.13 ± 2.88%/year, stable = 0.06 ± 2.31%/year, P = 0.002). This difference was detected with regional measures in parietal and precentral cortex. In contrast, change in the GM/WM interface integrity did not show detectable regional differences, although the group of MS patients whose disability progressed showed a significant decrease in GM/WM interface integrity compared to the stable group (P = 0.003). Regional measures of apparent loss of cGM thickness enhance sensitivity to cortical pathological changes. A measure of integrity offers a new index of disease-associated cortical changes at the GM/WM interface. The results suggest that progression of disability in MS is associated with the progression of MRI-detectable cortical pathology. [Copyright &y& Elsevier]

Published

2004