ライフサイエンスコーパス: limbic cortex

1 heta frequencies and drive theta activity in limbic cortex.

2 2 included the lateral frontal and anterior limbic cortex.

3 elective expression of VGF in the developing limbic cortex.

4 atal regions associated with association and limbic cortex.

5 prefrontal cortex and increased rates in the limbic cortex.

6 nistration produced significant decreases in limbic cortex.

7 and a significant decrease of D1 mRNA in the limbic cortex.

8 ttention network), with the exception of the limbic cortex.

9 rts of temporal, parietal, sensorimotor, and limbic cortex.

10 s widely connected to frontal, parietal, and limbic cortex.

11 in relevant brain areas such as amygdala and limbic cortex.

12 T2 was higher in the ventral hippocampus and limbic cortex 3 days after seizure activity compared wit

13 ducing a shift in the balance of cortical to limbic cortex activity.

14 by physical (mechanical) compression of the limbic cortex against the adjacent tympanic bulla and su

15 elencephalon, signal was abundant throughout limbic cortex and neocortex, olfactory bulb, hippocampus

16 ant human (rh) BDNF into the rodent neo- and limbic cortex and used a turkey anti-BDNF antibody to de

17 and by activation of PV interneurons in pre-limbic cortex and ventral subiculum of the hippocampus.

18 lly affects brain activity in prefrontal and limbic cortex, and speculate that dopamine's effects on

19 ity was located in the default mode network, limbic cortex, and subcortical nuclei.

20 ast, the rodent MSR receives inputs from the limbic cortex but contains well-defined nuclei, includin

21 able to excitotoxic injury (the striatum and limbic cortex) but not in regions relatively resistant t

22 rlie a hypoglutamatergic state in regions of limbic cortex, consistent with published results from ot

23 f both interictal and PSs in acute models of limbic cortex ictogenesis induced by pharmacological man

24 However, it also had connections with limbic cortex, including retrosplenial and caudal cingul

25 istent with metabolic studies, the cingulate-limbic cortex, inducing neuroadaptation, neuropil reduct

26 injections into anterior thalamus reproduce limbic cortex injury, and GABA-receptor agonist injectio

27 atively resistant to excitotoxicity (the non-limbic cortex, thalamus and white matter).

28 viscera have a greater representation on the limbic cortex than somatic structures, and this explains

29 e demonstrate two parallel pathways from the limbic cortex to the hippocampus.

30 oses how two parallel learning pathways from limbic cortex to the SNc, one devoted to excitatory cond

31 striatum, but lacks projections to parts of limbic cortex, to nucleus accumbens, and to the amygdala

32 in a subnetwork that primarily included the limbic cortex, visual cortex, and subcortex during emoti

33 Regions of the prefrontal and limbic cortex were most consistently reported in studies