RT Journal Article
SR Electronic
T1 Evidence of Bilateral Temporal Lobe Involvement in Primary Progressive Aphasia: A SPECT Study
JF Journal of Nuclear Medicine
JO J Nucl Med
FD Society of Nuclear Medicine
SP 1013
OP 1022
VO 44
IS 7
A1 Marie-Hélène Soriani-Lefèvre
A1 Didier Hannequin
A1 Serge Bakchine
A1 Jean-François Ménard
A1 Alain Manrique
A1 Anne Hitzel
A1 Pierre-Olivier Kotzki
A1 Vincent Boudousq
A1 Pierre Vera
YR 2003
UL http://jnm.snmjournals.org/content/44/7/1013.abstract
AB Primary progressive aphasia (PPA) is rare. Only limited series have been reported with SPECT or PET. Moreover, in the majority of studies, the left-to-right asymmetry ratio was used, leading to difficulties in right hemisphere analyzes. Methods: Twenty-nine patients with clinical criteria of PPA (Mesulam and Weintraub) were included and compared with 12 control subjects. Complete language examination was performed in all patients. SPECT was performed on a double-head gamma camera after intravenous injection of hexamethylpropyleneamine oxime (22 patients and 12 control subjects) or ethylcysteinate dimer (7 patients). Nineteen regions of interest (ROIs) were drawn on each hemisphere in all patients using the Talairach atlas. The perfusion index (PI = cortex-to-cerebellum ratio) was calculated for each ROI. Atrophy was quantified on MRI by consensus of 3 observers in 16 cortical ROIs. ANOVAs were used to compare the PI between (a) patients and control subjects, (b) patients with (n = 15) or without (n = 14) lexicosemantic abnormalities (LS+ vs. LS−) and patients with (n = 19) or without (n = 10) arthric disorders (A+ vs. A−), and (c) patients with or without atrophy. Results: In the 29 patients, the PI was significantly lower in the left temporopolar, left lateral temporal, left Wernicke, left parietal, and right lateral temporal cortex when compared with control subjects (P &lt; 0.001). In LS+ patients versus control subjects, the PI significantly decreased in the left temporal cortex (lateral temporal; medial temporal; temporopolar; Wernicke), left Broca, left parietal, and right lateral temporal cortex (P &lt; 0.001). In addition, LS+ versus LS− comparison showed a significant decrease in the left lateral, left medial temporal, and left Broca cortex (P &lt; 0.001). In comparison with control subjects, the PI was not significantly different in A+ patients, whereas in A− patients the PI was significantly decreased in the left and right lateral temporal cortex, left Wernicke, and left parietal cortex. Moreover, the PI significantly decreased in the left lateral temporal region in A+ patients compared with A− patients. Finally, in patients without atrophy, the PI significantly decreased in the right and left lateral temporal cortex and the left parietal cortex (P &lt; 0.01). Conclusion: Our study demonstrates that right-handed patients with PPA present a decreased perfusion in the bilateral temporal cortex. Moreover, in these regions, morphologic abnormalities are preceded by perfusion abnormalities. Finally, our results show that large left temporal dysfunction occurs in patients with LS disorders.