Please use this identifier to cite or link to this item: https://scholarbank.nus.edu.sg/handle/10635/125650
Title: Neuroimaging assessment of spasticity developed after acquired brain injuries and multiple sclerosis
Authors: Bertoni, M.A.
Sakel, M.
Hojjattoleslami, A.
Bertoni, I.V.
Ratnarajah, N. 
Keywords: Acquired brain injuries
DTI
MRI
Multiple sclerosis
Neurorehabilitation
Spasticity
Issue Date: Jun-2012
Abstract: This study evaluated whether different imaging techniques correlate with specific variables routinely used to grade the types and complexities of patient conditions in neurorehabilitation services and their clinical outcomes, and if there are radiological patterns, topography or distribution of the lesions correlated to spasticity. The cohort studied included 75 patients, 38 patients with multiple sclerosis (MS) and 37 patients with acquired brain injuries (ABI) referred to the neurorehabilitation department from April 2009 to March 2010. Data included age, gender, diagnoses, complications, spasticity, length of stay, Rehabilitation Complexity Scale (RCS) and Northwick Park Dependency (NPDS) scores on admission and discharge. Forward stepwise multiple regressions were performed considering Spasticity as dependent and considering NPDS, RCS on admission and discharge, age, gender and length of stay as independent variables. Standardized intra-axial lesions in those with spasticity were fused with standardized axial DTIs from normal controls obtained under 3 T and 1.5 T MRI scanners. Spasticity was present in 36 patients. Regression was found between spasticity and all the other variables with r = 0.42, r 2 = 0.17, adjr 2 = 0.12 r, F (4.66)= 3.53, p < 0.01. Residuals were acceptable. If the same is calculated excluding MS patients the results are higher with: r = 0.59, r 2 = 0.35, adj2 = 0.30, F (2.27) = 7.1885, p < 0.003. In MS subjects, spasticity appeared if lesions affected pyramidal tracts, callosal radiations extensively or brainstem. Those with ABI did develop spasticity if the lesion involved the internal capsules, pericommissural areas, optochiasmatic cistern or brainstem. Findings suggest that NPDSa and discharge and RCSd are higher in those developing spasticity. No obvious correlation between spasticity and RCSa was found. Subjects with MS are more likely to develop spasticity especially if the lesions are numerous and affect the corticospinal tracts, callosal radiations extensively or brainstem. In patients with ABI lesions affecting pyramidal tracts, pericommissural areas and optochiasmatic cisterns seem more likely to develop spasticity.
Source Title: Neuroradiology Journal
URI: http://scholarbank.nus.edu.sg/handle/10635/125650
ISSN: 19714009
Appears in Collections:Staff Publications

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