Acquired disorders of reading (acquired dyslexias) are nearly always seen in patients with aphasia I subsequent to left hemisphere stroke. Even when language functions recover sufficiently to enable the patient to return to work, an unrecovered problem with reading often interferes significantly with job performance. Patients who cannot return to work may be left with little to occupy their time; the ability to read for pleasure could make a significant difference in their quality of life. The purpose of this project is to develop, implement, and test a set of therapy programs for the treatment of acquired dyslexias, based upon a cognitive neuropsychological model of reading. A comprehensive and detailed battery of reading and reading-related tests will be used to determine the underlying impairment causing the reading deficit in each patient. This proposal focuses on three specific deficits: (l) impaired access to the visual word form from the visual modality (pure dyslexia); (2) impaired activation of orthographic representations (surface dyslexia); and (3) impaired phonological reading route (phonologic/deep dyslexia). A set of experimental treatment programs has been devised for each of these three reading deficits. These treatment programs derive in part from cognitive models of reading, in part from differences in general approach to treatment, and in part from the results of previous treatment studies. All treatment programs will utilize a single-subject multiple-baseline design, in which a group of letters, words, rules, etc. will be learned to a criterion of 90% correct before the next group is trained. Each treatment program will be replicated in several patients. A set of general external probe tests will be administered to all subjects before and after treatment. There are additional external probes for each of the three deficit types, consisting of a list of words targeted for improvement but never trained. Measures include both accuracy and speed of reading. Treatment programs will be evaluated for efficacy by examining the multiple baseline graphs, comparing accuracy and speed of reading the treatment-specific probe words pre- and post-treatment, and examining performance on the general external probes pre- and post-treatment. Certain circumscribed variables hypothesized to have predictive value for a specific deficit group will be examined. The results of this project will serve as a guide for the speech/language pathologist in choosing an efficacious treatment tailored to the specific needs of the individual dyslexic patient. In addition, the data may be used to improve models of normal reading, which may lead to more effective methods of teaching reading to both normal and developmentally dyslexic children.

Agency
National Institute of Health (NIH)
Institute
Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD)
Type
Research Project (R01)
Project #
3R01HD036019-06S1
Application #
6040974
Study Section
Sensory Disorders and Language Study Section (CMS)
Program Officer
Quatrano, Louis A
Project Start
1997-05-01
Project End
2001-04-30
Budget Start
1998-05-01
Budget End
1999-04-30
Support Year
6
Fiscal Year
1999
Total Cost
Indirect Cost
Name
Georgetown University
Department
Neurology
Type
Schools of Medicine
DUNS #
049515844
City
Washington
State
DC
Country
United States
Zip Code
20057
Mellem, Monika S; Bastiaansen, Marcel C M; Pilgrim, Lea K et al. (2012) Word class and context affect alpha-band oscillatory dynamics in an older population. Front Psychol 3:97
Lott, Susan Nitzberg; Carney, Aimee Syms; Glezer, Laurie S et al. (2010) Overt use of a tactile-kinesthetic strategy shifts to covert processing in rehabilitation of letter-by-letter reading. Aphasiology 24:1424-1442
Lacey, Elizabeth H; Lott, S N; Snider, S F et al. (2010) Multiple Oral Re-reading treatment for alexia: The parts may be greater than the whole. Neuropsychol Rehabil 20:601-23
Lott, Susan Nitzberg; Sperling, Anne J; Watson, Nora L et al. (2009) Repetition priming in oral text reading: a therapeutic strategy for phonologic text alexia. Aphasiology 23:659-675
Lott, Susan Nitzberg; Sample, Diane M; Oliver, Robyn T et al. (2008) A patient with phonologic alexia can learn to read ""much"" from ""mud pies"". Neuropsychologia 46:2515-23
Kurland, Jacquie; Cortes, Carlos R; Wilke, Marko et al. (2008) Neural Mechanisms Underlying Learning following Semantic Mediation Treatment in a case of Phonologic Alexia. Brain Imaging Behav 2:147
Friedman, R B; Sample, D M; Lott, S N (2002) The role of level of representation in the use of paired associate learning for rehabilitation of alexia. Neuropsychologia 40:223-34
Bokde, A L; Tagamets, M A; Friedman, R B et al. (2001) Functional interactions of the inferior frontal cortex during the processing of words and word-like stimuli. Neuron 30:609-17
Tagamets, M A; Novick, J M; Chalmers, M L et al. (2000) A parametric approach to orthographic processing in the brain: an fMRI study. J Cogn Neurosci 12:281-97
Friedman, R B; Lott, S N (2000) Rapid word identification in pure alexia is lexical but not semantic. Brain Lang 72:219-37

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