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Die rumpffunktion nach schlaganfall. Physiotherapeutische bilanz in literatur und studie
No full textAssessment of sitting balance and selective trunk movement in neurorehabilitation: the Trunk Impairment Scale (TIS)
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Evaluating the construct validity of the Trunk Impairment Scale: a Rasch analysis of its subscales
No full textBackground:The Trunk Impairment Scale (TIS) evaluates static, dynamic sitting balance and trunk coordination in people after stroke. This study aimed to evaluate the construct validity of the subscales of the TIS.MethodA total of 162 participants (mean age 67, SD=11), in all stages after stroke, were included in the study. Rasch analysis (Partial Credit Model) was used (RUMM2020 software).ResultsThere were no disordered thresholds on any of the polytomous items. The static sitting balance subscale (SSB) did not fit the Rasch model (Chi-square=15.68; p=0.0004). Wewere unable to examine DIF due to a large number of extreme cases in the dataset. The dynamic sitting balance subscale (DSB) fitted the Rasch model (Bonferroni adjusted p value=0.005) after splitting item 2 by Barthel categories to adjust for uniform DIF (Chi-square=42.65; p=0.0052). The coordination subscale (COO) fitted the Rasch model and did not display uniform or non-uniform DIF (Chi-square=7.87; p=0.446). In DSB and COO fewer than 5% of the independent t-tests performed on person estimated locations were significant, further supporting unidimensionality of these subscales. Graphical explorationof thresholds for DSB and COO confirmed a hierarchy of dependent items. Person and items were well distributed across the continuum of balance impairment.DiscussionWe were unable to examine SSB in full and further work with patients with very severe static sitting balance impairments is needed. Item 2 of DSB needs to be given detailed attention before assessing people after stroke.ConclusionConstruct validity of two subscales was confirmed using Rasch analysis. Further work is needed to examine SSB
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