Stroke Clinical Trial
Official title:
AERs in Aphasia: Severity and Improvement
Over one million persons in the United States are aphasic subsequent to a stroke. Most of the individuals improve through spontaneous recovery and treatment. However, there are no precise methods for predicting which patients will improve and, for those who do, how much improvement will occur. There is a need to improve prognostic precision in aphasia. The purpose of this investigation is to test the precision of auditory evoked responses (AERs) to provide a prognosis for improvement in aphasia subsequent to a left hemisphere thromboembolic infarct. We hypothesize that the presence, absence, and pattern of the AER responses will predict severity of aphasia and prognosis for improvement. Phonemic, phonologic, semantic, and syntactic language tasks will be used to elicit AERs, including the auditory late response, the mismatch negativity response (MMN), the N400, and the P600.
Over one million persons in the United States are aphasic subsequent to a stroke. Most of
the individuals improve through spontaneous recovery and treatment. However, there are no
precise methods for predicting which patients will improve and, for those who do, how much
improvement will occur. There is a need to improve prognostic precision in aphasia.
Currently employed prognostic methods miss improvement levels by substantial margins.
Prognostic information could have a great economic and social impact on patients, their
families, and their treatment.
The purpose of this investigation is to test the precision of auditory evoked responses
(AERs) to provide a prognosis for improvement in aphasia subsequent to a left hemisphere
thromboembolic infarct. We hypothesize that the presence, absence, and pattern of the AER
responses will predict severity of aphasia and prognosis for improvement. Phonemic,
phonologic, semantic, and syntactic language tasks will be used to elicit AERs, including
the auditory late response, the mismatch negativity response (MMN), the N400, and the P600.
Twenty moderately aphasic subjects, 20 severely aphasic subjects, and 20 age-matched, normal
subjects will be tested. All aphasic subjects will be evaluated with the AER test battery
and a language test battery: Western Aphasia Battery (WAB), Porch Index of Communicative
Ability (PICA), the Token Test (TT), the Auditory Comprehension Test for Sentences (ACTS),
and the ASHA Functional Assessment of Communication Skills for Adults (ASHA FACS). All tests
will be repeated in 6 and 12 weeks, during which the aphasic subjects will receive
treatment. Aphasic subjects will receive follow-up testing 3 and 6 months after the
treatment phase is completed. The patterns of the AERs will be examined. Correlations and
analyses of variance (ANOVAs) will be used to assess the relationships between AER measures
and improvement in aphasia quantified by behavioral measures. A multiple regression
technique will be used to determine the best predictor(s) of improvement in aphasia.
Correlations and analyses of variance (ANOVAs) will be used to assess the relationship
between AER measures and severity of aphasia. Correlations and assessment of composite
CT/MRI reconstructions for subject groups will be used to determine the relationship between
size (correlations) and site of lesion, AERs, and severity and improvement in aphasia.
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