TY - JOUR
T1 - Preserved repetition in thalamic afasia. A pathophysiological hypothesis
AU - Nitrini, Ricardo
AU - Lucato, Leandro T
AU - Sitta, Maria C
AU - Oliveira, Maíra O
AU - de Andrade, Daniel Ciampi
AU - Silva, Valquiria A
AU - Carneiro, Camila G
AU - Buchpiguel, Carlos A
PY - 2019/7/10
Y1 - 2019/7/10
N2 - The ability to repeat words is almost always preserved in thalamic aphasia. The pathophysiology of both thalamic aphasia and preservation of repetition are not fully understood. In a case of severe aphasia with preserved repetition after a left thalamic hemorrhage, MRI disclosed left thalamic lesion and loss of fractional anisotropy in the left centrum semiovale. FDG-PET showed severe hypometabolism in the left cerebral hemisphere, except for superior and transverse temporal gyri, calcarine fissure and frontopolar regions. Primary sensory function may be less functionally dependent on thalamic connections than heteromodal and paralimbic areas, which have connections with several thalamic nuclei. The extensive cortical hypometabolism due to diaschisis may have been responsible for the severity of the aphasia, whereas the less severe reduction of metabolism in the superior and transverse temporal gyri, and also, albeit less evident, in Broca's area, might explain the preservation of repetition.
AB - The ability to repeat words is almost always preserved in thalamic aphasia. The pathophysiology of both thalamic aphasia and preservation of repetition are not fully understood. In a case of severe aphasia with preserved repetition after a left thalamic hemorrhage, MRI disclosed left thalamic lesion and loss of fractional anisotropy in the left centrum semiovale. FDG-PET showed severe hypometabolism in the left cerebral hemisphere, except for superior and transverse temporal gyri, calcarine fissure and frontopolar regions. Primary sensory function may be less functionally dependent on thalamic connections than heteromodal and paralimbic areas, which have connections with several thalamic nuclei. The extensive cortical hypometabolism due to diaschisis may have been responsible for the severity of the aphasia, whereas the less severe reduction of metabolism in the superior and transverse temporal gyri, and also, albeit less evident, in Broca's area, might explain the preservation of repetition.
U2 - 10.1590/1980-57642018dn13-020015
DO - 10.1590/1980-57642018dn13-020015
M3 - Journal article
C2 - 31285801
SN - 1980-5764
VL - 13
SP - 244
EP - 249
JO - Dementia & neuropsychologia
JF - Dementia & neuropsychologia
IS - 2
ER -