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January 1996, Vol 53, No. 1 >
Article | January 1996

Dyscalculia and Dyslexia After Right Hemisphere Injury in Infancy

Stuart Mirvis, MD; Michelle Winslow, MA; Karen Martinkowski, MA; Jordan Grafman, PhD; Tim Rickard, PhD; Joseph Scheller, MD; Harvey S. Levin, PhD
Arch Neurol. 1996;53(1):88-96. doi:10.1001/archneur.1996.00550010108024
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Objective:  To use the findings from neuropsychological evaluation and functional magnetic resonance imaging (fMRI) to assess interhemispheric reorganization of function after early unilateral brain injury.

Design and Methods:  The study focused on one case of early brain injury that resulted in both dyscalculia and dyslexia. Brain injury was studied using both structural and fMRI. Intellectual function was evaluated using the Wechsler Intelligence Scale for Children, Third Edition, while visuospatial skills were assessed using the Block Design subtest of the Wechsler Intelligence Scale for Children, Third Edition, and Judgment of Line Orientation subtest. The Selective Reminding Test and the Recurring Figures Test were used to evaluate memory and orientation; language and speech skills were evaluated using the Boston Naming Test, Controlled Oral Word Association, Gates-MacGinitie Reading Test, and color naming. Various methods were used to study arithmetic skills, including the Wide Range Achievement Test—Revised and the Peabody Individual Achievement Test. The control group for fMRI consisted of nine normal subjects.

Setting:  Neuropsychological laboratory in primary care hospital.

Patient:  A 17-year-old boy who had sustained a closed head injury associated with a partially depressed, right parietal skull fracture, and right temporal hemorrhage in a motor vehicle crash at age 7 months (November 9, 1977). Subsequent social behavior was normal, but the patient had difficulty throughout school in mathematics and spelling and was characterized as having a "short attention span."

Intervention:  None.

Main Outcome Measures:  Standardized tests of arithmetic and reading supplemented by an assessment of calculation and quantitative skills. While performing calculations, fMRI disclosed predominantly left hemisphere activation involving the frontal and posterior parietal regions, whereas this task produced bilateral activation of the supramarginal gyrus in seven of nine normal subjects.

Results:  Neuropsychological findings confirmed the presence of dyscalculia and dyslexia despite normal intellectual functioning. Visuospatial skills ranged from the low normal to average level. The fMRI findings were consistent with early interhemispheric transfer of visuospatial skills normally committed to the right parietal area to the left parietal region. The patient's dyscalculia and reading ability raise a question of acquired left parietal dysfunction as a consequence of the competition between verbal and visuospatial functions for left hemisphere representation.

Conclusion:  Interhemispheric reorganization of function may be bidirectional rather than a feature unique to the left hemisphere substrate for language.

REFERENCES

1 +
Teuber HL.  Why two brains?  In: Schmitt FO, Worden FG, eds. The Neurosciences: Third Study Program . Cambridge, Mass: MIT Press; 1974;:71-74.
2 +
Strauss E, Satz P, Wada J.  An examination of the crowding hypothesis in epileptic patients who have undergone the carotid amytal test . Neuropsychologia . 1990;;28:1221-1227.
3 +
Woods BT.  The restricted effects of right-hemisphere lesions after age one: Wechsler test data . Neuropsychologia . 1980;;18:65-70.
4 +
Wechsler D. Wechsler Intelligence Scale for Children , Third Edition. New York, NY: Psychological Corp; 1991;.
5 +
Riva D, Cazzaniga L.  Late effects of unilateral brain lesions sustained before and after age one . Neuropsychologia . 1986;;24:423-428.
6 +
Stiles-Davis J, Janowsky J, Engel M, Nass R.  Drawing ability in four young children with congenital unilateral brain lesions . Neuropsychologia . 1988;;26:359-371.
7 +
Stehling MK, Turner R, Mansfield P.  Echo-planar imaging: magnetic resonance imaging in a fraction of a second . Science . 1991;;254:43-50.
8 +
Bandettini PO, Wong EC, Hinks RS, Tikofsky RS, Hyde JS.  The time course of EPI human brain functioning during task activation . Magn Reson Med . 1992;; 25:390-397.
9 +
Shaywitz BA, Pugh KR, Constable T, et al.  Localization of semantic processing using functional magnetic resonance imaging . Hum Brain Map . 1995;;2:197-206.
10 +
Talairach J, Tournoux P. Co-planar sTereotaxic Atlas of the Human Brain . New York, NY: Thieme-Stratton Inc; 1988;.
11 +
Benton AL, Sivan AB, Hamsher K, Varney NR, Spreen O. Contributions to Neuropsychological Assessment . 3rd ed. New York, NY: Oxford University Press Inc; 1994;.
12 +
Weintraub S, Mesulam MM.  Mental state assessment of young and elderly adults in behavioral neurology . In: Mesulam MM, ed. Principles of Behavioral Neurology . Philadelphia, Pa: FA Davis Co Publishers; 1985;:71-124.
13 +
Buschke H.  Selective reminding for analysis of memory and learning . J Verbal Learn Verbal Behav . 1973;;12:543-550.
14 +
Kimura D.  Right temporal lobe damage . Arch Neurol . 1963;;8:264-271.
15 +
Kaplan E, Goodglass H, Weintraub S. Boston Naming Test . Philadelphia, Pa: Lea & Febiger; 1983;.
16 +
Benton AL, Hamsher K, Sivan AB. Manual for the Multilingual Aphasia Examination . 3rd ed. Iowa City, Iowa: AJA Associates; 1993;.
17 +
Gates AI, MacGinitie WH. Gates-MacGinitie Reading Tests . New York, NY: Teachers College Press, Columbia Univerisity; 1969;.
18 +
Jastak S, Wilkinson GS. Wide Range Achievement Test—Revised . Wilmington, Del: Jastak Associates; 1984;.
19 +
Dunn LM, Markwardt FC Jr. Peabody Individiual Achievement Test . Circle Pines, Minn: American Guidance Service; 1970;.
20 +
McCloskey M, Caramazza A, Basili A.  Cognitive mechanisms in number processing and calculation: evidence from dyscalculia . Brain Cogn . 1985;;4:171-196.
21 +
Shallice T, Evans M.  The involvement of the frontal lobes in cognitive estimation . Cortex . 1978;;14:294-303.
22 +
Weinstein S, Teuber HL.  Effects of penetrating brain injury on intelligence test scores . Science . 1957;;125:1036-1037.
23 +
Grafman J, Jonas BS, Martin A.  Intellectual function following penetrating head injury in Vietnam veterans . Brain . 1988;;111:169-184.
24 +
Damasio H. Lesion Analysis in Neuropsychology . New York, NY: Oxford University Press Inc; 1989;.

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1 +
Teuber HL.  Why two brains?  In: Schmitt FO, Worden FG, eds. The Neurosciences: Third Study Program . Cambridge, Mass: MIT Press; 1974;:71-74.
2 +
Strauss E, Satz P, Wada J.  An examination of the crowding hypothesis in epileptic patients who have undergone the carotid amytal test . Neuropsychologia . 1990;;28:1221-1227.
3 +
Woods BT.  The restricted effects of right-hemisphere lesions after age one: Wechsler test data . Neuropsychologia . 1980;;18:65-70.
4 +
Wechsler D. Wechsler Intelligence Scale for Children , Third Edition. New York, NY: Psychological Corp; 1991;.
5 +
Riva D, Cazzaniga L.  Late effects of unilateral brain lesions sustained before and after age one . Neuropsychologia . 1986;;24:423-428.
6 +
Stiles-Davis J, Janowsky J, Engel M, Nass R.  Drawing ability in four young children with congenital unilateral brain lesions . Neuropsychologia . 1988;;26:359-371.
7 +
Stehling MK, Turner R, Mansfield P.  Echo-planar imaging: magnetic resonance imaging in a fraction of a second . Science . 1991;;254:43-50.
8 +
Bandettini PO, Wong EC, Hinks RS, Tikofsky RS, Hyde JS.  The time course of EPI human brain functioning during task activation . Magn Reson Med . 1992;; 25:390-397.
9 +
Shaywitz BA, Pugh KR, Constable T, et al.  Localization of semantic processing using functional magnetic resonance imaging . Hum Brain Map . 1995;;2:197-206.
10 +
Talairach J, Tournoux P. Co-planar sTereotaxic Atlas of the Human Brain . New York, NY: Thieme-Stratton Inc; 1988;.
11 +
Benton AL, Sivan AB, Hamsher K, Varney NR, Spreen O. Contributions to Neuropsychological Assessment . 3rd ed. New York, NY: Oxford University Press Inc; 1994;.
12 +
Weintraub S, Mesulam MM.  Mental state assessment of young and elderly adults in behavioral neurology . In: Mesulam MM, ed. Principles of Behavioral Neurology . Philadelphia, Pa: FA Davis Co Publishers; 1985;:71-124.
13 +
Buschke H.  Selective reminding for analysis of memory and learning . J Verbal Learn Verbal Behav . 1973;;12:543-550.
14 +
Kimura D.  Right temporal lobe damage . Arch Neurol . 1963;;8:264-271.
15 +
Kaplan E, Goodglass H, Weintraub S. Boston Naming Test . Philadelphia, Pa: Lea & Febiger; 1983;.
16 +
Benton AL, Hamsher K, Sivan AB. Manual for the Multilingual Aphasia Examination . 3rd ed. Iowa City, Iowa: AJA Associates; 1993;.
17 +
Gates AI, MacGinitie WH. Gates-MacGinitie Reading Tests . New York, NY: Teachers College Press, Columbia Univerisity; 1969;.
18 +
Jastak S, Wilkinson GS. Wide Range Achievement Test—Revised . Wilmington, Del: Jastak Associates; 1984;.
19 +
Dunn LM, Markwardt FC Jr. Peabody Individiual Achievement Test . Circle Pines, Minn: American Guidance Service; 1970;.
20 +
McCloskey M, Caramazza A, Basili A.  Cognitive mechanisms in number processing and calculation: evidence from dyscalculia . Brain Cogn . 1985;;4:171-196.
21 +
Shallice T, Evans M.  The involvement of the frontal lobes in cognitive estimation . Cortex . 1978;;14:294-303.
22 +
Weinstein S, Teuber HL.  Effects of penetrating brain injury on intelligence test scores . Science . 1957;;125:1036-1037.
23 +
Grafman J, Jonas BS, Martin A.  Intellectual function following penetrating head injury in Vietnam veterans . Brain . 1988;;111:169-184.
24 +
Damasio H. Lesion Analysis in Neuropsychology . New York, NY: Oxford University Press Inc; 1989;.

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