2011, nr. 1 - Academia de Ştiinţe a Moldovei
2011, nr. 1 - Academia de Ştiinţe a Moldovei
2011, nr. 1 - Academia de Ştiinţe a Moldovei
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<strong>Ştiinţe</strong> Medicale<br />
13. Friston K. J. et al. Functional connectivity: the principal-component<br />
analysis of large (PET) data sets. Journal of<br />
Cerebral Blood Flow and Metabolism, 1993; vol.: 5-14.<br />
14. Friston K. J. Functional and eff ective connectivity<br />
in neuroimaging: a synthesis. Human Brain Mapping, 1994;<br />
1-2: 56-78.<br />
15. Büchel C.Friston K. Assessing interactions among<br />
neuronal systems using functional neuroimaging. Neural<br />
Networks, 2000; 8-9: 871-882.<br />
16. Hilgetag C. C. et al. Anatomical connectivity <strong>de</strong>fi -<br />
nes the organization of clusters of cortical areas in the macaque<br />
monkey and the cat. Philos. Trans. R. Soc. Lond. B<br />
Biol. Sci., 2000; 1393:91.<br />
17. Sporns O. et al. Th eoretical neuroanatomy: relating<br />
anatomical and functional connectivity in graphs and cortical<br />
connection matrices. Cerebral Cortex, 2000; 2: 127.<br />
18. Chen Z. J. et al. Revealing modular architecture of<br />
human brain structural networks by using cortical thickness<br />
from MRI. Cereb. Cortex, 2008; 10:2374.<br />
19. Sporns O. Th e human connectome: linking structure<br />
and function in the human brain, Diff usion MRI: From<br />
quantitative measurement to in-vivo neuroanatomy., Johansen-Berg<br />
H., Behrens, T.E.J., Editor. London: Oxford: Elsevier,<br />
2009.<br />
20. Granger C. W. J. Investigating causal relations by<br />
econometric mo<strong>de</strong>ls and cross-spectral methods. Econometrica,<br />
1969; 3:424-438.<br />
21. Schreiber T. Measuring information transfer. Phys<br />
Rev Lett, 2000; vol.(2): 461-464.<br />
22. Barbas H.Rempel-Clower N., Cortical structure<br />
predicts the pattern of corticocortical connections. Cerebral<br />
Cortex, 1997; 7: 635.<br />
23. Yogarajah M. et al. Defi ning Meyer‘s loop–temporal<br />
lobe resections, visual fi eld <strong>de</strong>fi cits and diff usion tensor tractography.<br />
Brain, 2009; 6:1656.<br />
24. Ahmadi M. E. et al. Si<strong>de</strong> Matters: Diff usion Tensor<br />
Imaging Tractography in Left and Right Temporal Lobe Epilepsy.<br />
AJNR Am J Neuroradiol, 2009; 9:1740-1747.<br />
25. Yogarajah M. et al. Tractography of the parahippocampal<br />
gyrus and material specifi c memory impairment in<br />
unilateral temporal lobe epilepsy. NeuroImage, 2008; 4:1755<br />
- 1764.<br />
26. Waites A. B. et al. Functional connectivity networks<br />
are disrupted in left temporal lobe epilepsy. Ann. Neurol.,<br />
2006; 2:335-343.<br />
27. Addis D. R. et al. Consequences of hippocampal<br />
damage across the autobiographical memory network in left<br />
temporal lobe epilepsy. Brain, 2007; 9:2327.<br />
28. Guye M. et al. Graph theoretical analysis of structural<br />
and functional connectivity MRI in normal and pathological<br />
brain networks. Magnetic Resonance Materials in<br />
Physics, Biology and Medicine; 5: 409-421.<br />
29. Bettus G. et al. Decreased basal fMRI functional<br />
connectivity in epileptogenic networks and contralateral<br />
89<br />
compensatory mechanisms. Human Brain Mapping, 2009;<br />
5: 1580-1591.<br />
30. Bernhardt B. C. et al. Th alamo-cortical network<br />
pathology in idiopathic generalized epilepsy: Insights from<br />
MRI-based morphometric correlation analysis. NeuroImage,<br />
2009; 2:373-381.<br />
31. Duncan J. S. Brain Imaging in Idiopathic Generalized<br />
Epilepsies. Epilepsia, 2005; vol.: 108-111.<br />
32. Bernasconi A. et al. Magnetic resonance spectroscopy<br />
and imaging of the thalamus in idiopathic generalized<br />
epilepsy. Brain, 2003; 11:2447.<br />
33. Chan C. H. et al. Th alamic Atrophy in Childhood<br />
Absence Epilepsy. Epilepsia, 2006; 2: 399-405.<br />
34. Pardoe H. et al. Multi-site voxel-based morphometry:<br />
methods and a feasibility <strong>de</strong>monstration with childhood<br />
absence epilepsy. NeuroImage, 2008; 2:611-616.<br />
35. Savic I. et al. MRS shows syndrome diff erentiated<br />
metabolite changes in human-generalized epilepsies. Neuro-<br />
Image, 2004; 1:163-172.<br />
36. Bonilha L. et al. Voxel-based morphometry reveals<br />
gray matter network atrophy in refractory medial temporal<br />
lobe epilepsy. Arch Neurol., 2004; 9:1379.<br />
37. Keller S. S. et al. Voxel-based morphometric comparison<br />
of hippocampal and extrahippocampal abnormalities<br />
in patients with left and right hippocampal atrophy. NeuroImage,<br />
2002; 1:23-31.<br />
38. Rie<strong>de</strong>rer F. et al. Network atrophy in temporal<br />
lobe epilepsy: a voxel-based morphometry study. Neurology,<br />
2008; 6:419.<br />
39. He<strong>nr</strong>y T. R. et al. Clinical evaluation of interictal<br />
fl uorine-18-fl uoro<strong>de</strong>oxyglucose PET in partial epilepsy. J.<br />
Nucl. Med., 1993; 11:1892.<br />
40. Savic I. et al. Pattern of interictal hypometabolism<br />
in PET scans with fl u<strong>de</strong>oxyglucose F 18 refl ects prior seizure<br />
types in patients with mesial temporal lobe seizures. Arch<br />
Neurol., 1997; 2:129.<br />
41. Voets N. L. et al. Functional and structural changes<br />
in the memory network associated with left temporal lobe<br />
epilepsy. Human Brain Mapping, 2009; 12: 4070-4081.<br />
42. Cen<strong>de</strong>s F. et al. Lateralization of temporal lobe epilepsy<br />
based on regional metabolic abnormalities in proton<br />
magnetic resonance spectroscopic images. Ann Neurol, 1994;<br />
2:211-216.<br />
43. Joo E. Y. et al. Postoperative alteration of cerebral<br />
glucose metabolism in mesial temporal lobe epilepsy. Brain,<br />
2005; 8:1802.<br />
44. Groppa S. et al. Abnormal response of motor cortex<br />
to photic stimulation in idiopathic generalized epilepsy. Epilepsia,<br />
2008; 12:2022-2029.<br />
45. Moeller F. et al. Functional connectivity in patients<br />
with idiopathic generalized epilepsy. Epilepsia, <strong>2011</strong>; 3:515-<br />
522.<br />
46. Blumenfeld H. From Molecules to Networks: Cortical/Subcortical<br />
Interactions in the Pathophysiology of Idiopathic<br />
Generalized Epilepsy. Epilepsia, 2003; vol.: 7-15.
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