comparative lateralizing ability of multimodality mr imaging in temporal lobe epilepsy
DESCRIPTION
COMPARATIVE LATERALIZING ABILITY of MULTIMODALITY MR IMAGING in TEMPORAL LOBE EPILEPSY. Karabekir Ercan, M.D. ¹ H.Pinar Gunbey, M.D. ¹ Elcin Zan, M.D. ¹ ¹ Ataturk Education and Research Hospital, Ankara, Turkey . We have nothing to disclose. Background. - PowerPoint PPT PresentationTRANSCRIPT
COMPARATIVE LATERALIZING ABILITY of MULTIMODALITY MR IMAGING
in TEMPORAL LOBE EPILEPSY
Karabekir Ercan, M.D. ¹H.Pinar Gunbey, M.D. ¹
Elcin Zan, M.D. ¹
¹Ataturk Education and Research Hospital, Ankara,Turkey
• We have nothing to disclose
Background
•Temporal lobe epilepsy (TLE) is the most common type of intractable and partial epilepsies predominantly associated with history of febrile convulsions and anterior temporal lobe EEG abnormalities
•Pathologic analysis shows hippocampal sclerosis in 65% of temporal lobectomy specimens of adults with TLE
• The only standard treatment for seizure free status with manifest TLE is surgical;
• amygdala-hippocampectomy • induces recruitment in up to 85% of selected patients
• Therefore, it is necessary to detect and localize the seizure focus for the best surgical outcome
• Comparing the quantitative studies like volumetry, MR spectroscopy, T2 relaxometry and diffusion weighted imaging (DWI) of hippocampus with qualitative ones seems to be relatively objective and can provide more useful information to detect the severity and extent of hippocampal damage
Purpose•investigate the comparative lateralizing ability of three quantitative MR (qMRI) modalities; Volumetry, MRS, and DTI •patients with electro-clinically diagnosed TLE
Materials and Method • Ethical committee approval • 14 patients (6F, 8M)with clinical and EEG diagnosis of unilateral TLE
• 7 left and 7 right TLE• Mean age 34.2 years (19-66) • 15 healthy volunteers (6F, 9M)• 1.5T
• For each patient and control;• bilateral hippocampal signal intensities, age, duration of epilepsy, interictal EEG lateralization, response to AEDs and history of febrile convulsion were evaluated
• Seizure free for at least 24 hours prior to MR scan
Volumetrycoronal planes were positioned parallel to the PC-OB line
• T1-weighted 3D gradient-echo sequence *through 160 slices of the entire brain
• Hippocampus borders were defined according to procedure of Watson et al and volume calculations obtained with Cavalieri method by multiplying slice thickness with area of hippocampus in each slice
• To correct the individual differences of each subject head sizes a ratio that was described by Cendes et al and modified by Kalvainen et al was used
*(TR = 7.2 ms, TE = 33ms, NSA = 1, FOV = 256 mm, slice thickness 1 mm, gap = 0 mm, flip angle = 8º, matrix = 256x256 pixels)
MR Spectroscopy • Single voxel acquisition was acquired in axial plane perpendicular to PC-OB line
• voxel of interest was placed on hippocampus with sagittal, axial and coronal orientation and was defined 20x20x20 mm for each hippocampus using PRESS sequence*
• 10 minutes for both hippocampi
*TE =144 ms, TR = 2000 ms, NSA = 128
Diffusion Tensor Imaging• Single-shot spin-echo echo-planar sequence• Diffusion sensitizing gradients were applied simultaneously along 6 non-collinear directions (b= 1000s/mm²)
• FA and MD values were obtained from the average of these slices
• 160 contiguous slices were acquired with 1 mm slice thickness and no gap
• The total acquisition time; 6 minutes and 30 s
• Kolmogorv-Smirnov test was used to verify the normal distribution of qMRI value
• The equality of variances (Levene’s test) and student’s t-tests were used for comparing the means of variables with controls
• Correlations between values were calculated separately for the ipsilateral and contralateral hippocampus with two-tailed Pearson’s correlation test
ResultsRight TLE Left TLE Healthy ControlsMean SD Mean SD Mean SD
Volume (mm³)Ipsilateral Contralateral
32783456
1834980
25773663
702681
3641 449
NAA/ (Cho+Cr)IpsilateralContralateral
0.510.67
0.100.07
0.620.64
0.090.02
0.64 0.06
FA IpsilateralContralateral
0.240.25
0.010.02
0.230.26
0.030.02
0.28 0.03
MD IpsilateralContralateral
1.221.16
0.130.08
1.21.11
0.210.07
1.11 0.08
Right TLE Left TLE All patients
Volumetry 57% 85% 71%
Spectroscopy 57% 14% 35%
DTI 57% 28% 42%
Volumetry +Spectroscopy
71% 85% 78%
Spectroscopy +DTI
85% 42% 64%
DTI + Volumetry
85% 100% 92%
Lateralizing ability of q-MR modalities
• The qualitative analyses of visual inspection revealed 78% unilateral and 22% bilateral hippocampal atrophy
• Volumetric analysis on 3D images showed 42% unilateral, 21% bilateral atrophy
• History of febrile convulsion was associated with ipsilateral increased MD values and reduced NAA/ (Cho+Cr) ratios
• Hippocampal atrophy
• Positive correlation; • Duration of epilepsy and decreased FA values
• No correlation; • Age at onset and response to antiepileptic drugs
• Between q-MRI modalities compared with electro-clinical data
Conclusion
• Volumetry, MRS and DTI studies provide complementary information of hippocampal pathology
• For lateralization of epileptogenic focus and pre-operative examination, volumetry-DTI combination (92%) represents maximal accuracy