ライフサイエンスコーパス: extratemporal

1 = 0.005; odds ratio (OR) of temporal versus extratemporal = 5.202; 95% CI = (1.665, 16.257)], seizur

2 dom outcome is overall comparable in between extratemporal and temporal lobe epilepsy; and highest wi

3 effective connectivity was strongest between extratemporal and temporal lobe site pairs, which were s

4 isease); relatively symmetric, predominantly extratemporal atrophy (corticobasal degeneration, fused-

5 ctive connectivity pathways from temporal to extratemporal auditory language-related areas but only u

6 Alterations were also observed in extratemporal connections (brainstem connection, commiss

7 +), positive with posterolateral temporal or extratemporal cortical binding in an AD-like pattern (ta

8 consisted of <2% of those in the temporal-to-extratemporal direction and up to 6% of those in the opp

9 memory processes or due to seizure spread to extratemporal eloquent cortex.

10 Patients with generalized and extratemporal epilepsies had pronounced reductions in fr

11 epsy (mTLE) (56%, 95% CI 0.50% to 0.61%) and extratemporal epilepsy (50% 95% CI 0.40% to 0.59%).

12 TS-TLE); (ii) lesional TLE (l-TLE); or (iii) extratemporal epilepsy (ETE).

13 eralized epilepsy (n = 182) and non-lesional extratemporal epilepsy (n = 193).

14 mal MRI findings who underwent (nonlesional) extratemporal epilepsy surgery are confined to a highly

15 syndromes, including temporal lobe epilepsy, extratemporal epilepsy, and genetic generalized epilepsy

16 araneoplastic encephalitis with temporal and extratemporal features and uterine cancer as a prominent

17 l resections, 40 temporal lesionectomies, 40 extratemporal lesionectomies, 20 extratemporal resection

18 y surgery was less effective when there were extratemporal lesions, the epilepsy was not associated w

19 ral lobe epilepsy (MTLE; n = 64), those with extratemporal lobe (XTLE; n = 26) or lesional temporal l

20 we address the use of LITT for a variety of extratemporal lobe epilepsies.

21 %) and only 9 of 85 patient with nonlesional extratemporal lobe epilepsy (11%) had long-term excellen

22 nts), neocortical temporal (3 patients), and extratemporal lobe epilepsy (9 patients) were studied.

23 FMZ PET data from 7 children with extratemporal lobe epilepsy (mean age [+/- SD] 9.8+/-4.4

24 no lesion (OR: 0.33; 95% CI 0.22 to 0.49) or extratemporal lobe epilepsy (OR: 0.30; 95% CI 0.20 to 0.

25 Patients with normal MRI findings and extratemporal lobe epilepsy have less favorable outcomes

26 Nonlesional extratemporal lobe epilepsy surgery.

27 ifying patients with normal MRI findings and extratemporal lobe epilepsy who were likely to have exce

28 sy and hippocampal lesions, 30 patients with extratemporal lobe epilepsy, and 30 healthy controls on

29 ike discharges in patients with temporal and extratemporal lobe epilepsy.

30 y if there were bilateral lesions on MRI and extratemporal lobe epilepsy.

31 Both temporal and extratemporal lobe regions have functional compartments

32 Conversely, extratemporal lobe sites activated during overt response

33 ctrical stimulation to 488 temporal and 1581 extratemporal lobe sites and measured the early cortico-

34 nderlying domains of risk for PIP: ambiguous/extratemporal localization, family neuropsychiatric hist

35 emporal resection (56 of 72, 78%) than after extratemporal or multilobar resection (26 of 48, 54%; 41

36 hildren and 15 (52%) of 29 adolescents after extratemporal or multilobar resection; and for 8 (67%) o

37 Extratemporal or multilobar resections and hemispherecto

38 Extratemporal regions did not show similar changes.

39 photon emission CT findings in temporal plus extratemporal regions were found significantly more freq

40 y neocortex of the temporal lobe and then to extratemporal regions.

41 mical localization of bilateral temporal and extratemporal regions.

42 Patients who had extratemporal resections were more likely to have seizur

43 ctomies, 40 extratemporal lesionectomies, 20 extratemporal resections, 11 hemispherectomies, and seve

44 insufficient data for conclusions regarding extratemporal-seizure or pediatric epilepsy populations.

45 ral hemisphere (64%), but more relapsed from extratemporal sites compared with the MTS cases, includi

46 PIP was associated with extratemporal versus temporal (p = 0.036) or undetermine

47 ning disability (1.8; 95% CI 1.2 to 2.6) and extratemporal (vs temporal) surgery (1.4; 95% CI 1.02, 2