ライフサイエンスコーパス: paramedian

1 sodermal-derived meninges of the midline and paramedian anterior, central, and ventral posterior skul

2 Smaller gauge needles, blunt-tip needles, a paramedian approach, and parallel orientation of a bevel

3 al lobe, superior parietal lobes, and in the paramedian cerebral cortex.

4 tside the zone of most dense ischemia (i.e., paramedian cortex and thalamus), while in the non-ischem

5 in zones of frank infarction and in adjacent paramedian cortex; the latter region, however, showed no

6 Other paramedian error negative waves did not distinguish remi

7 Paramedian error negative waves were recorded during Str

8 tarde cheek rotation, modified rhomboid, and paramedian forehead flaps were primarily utilized, with

9 ly and implanted after tumour excision under paramedian forehead or nasolabial flaps, as in standard

10 ative correlations were found principally in paramedian heteromodal cortices whereas positive correla

11 ) into the C1 zone in the ipsilateral caudal paramedian lobule (7 cases), resulted in retrograde cell

12 dial nerve have been recorded in the rostral paramedian lobule (PML) in awake cats.

13 e anterior lobe and the rostral folia of the paramedian lobule (PML) in the posterior lobe were inves

14 esponses were evoked in parts of crus II and paramedian lobule by stimulation of corticofugal fibres.

15 responses were located in the C1 zone in the paramedian lobule or lobulus simplex and hindlimb-relate

16 f the forelimb-receiving area of the rostral paramedian lobule was investigated in cats.

17 In the pars anterior (folia 1-3) of the paramedian lobule, the projection to the c1 zone arose f

18 ly in the A2 and C1 zones in crus II and the paramedian lobule.

19 vely small reduction of the responses in the paramedian lobule.

20 pses per Purkinje cell within the cerebellar paramedian lobule.

21 US identified 'target' appereance on left paramedian location at umbilical level.

22 to reproduce the deep coma seen after acute paramedian midbrain lesions that transect ascending axon

23 h as the interpeduncular nucleus, the median/paramedian nuclei, and the central gray.

24 minations were located preferentially in the paramedian nucleus and in the medial parts of the peripe

25 Projections to the paramedian part of RTP from vestibular area "y" were als

26 h the presence of lesion involving posterior paramedian pons and/or medial thalamus.

27 commonly caused by ischemia of the posterior paramedian pons, medial thalamus, or cerebellum.

28 cluding the superior colliculus (SC) and the paramedian pontine reticular formation (PPRF).

29 We show that premotor neurons in the paramedian pontine reticular formation that were thought

30 l cortex, mesencephalic reticular formation, paramedian pontine reticular formation, and substantia n

31 ronchoscopy revealed vocal cord paralysis in paramedian position, potentially due to extrinsic compre

32 e interpeduncular nucleus (IP), median raphe/paramedian raphe (MnR/PMnR), and dorsal tegmental area (

33 minate in both ipsilaterally and in a narrow paramedian region.

34 observed in nucleus raphe pallidus, rostral paramedian reticular formation, upper thoracic intermedi

35 Specifically, this complex of paramedian reticular nuclei has been implicated in the i

36 ), usually symmetric, and best visualized on paramedian sagittal sections, and 13 without obvious occ

37 re injury to the tegmental mesencephalon and paramedian thalamus showed widely preserved cortical met

38 area of activation is a bilateral, confluent paramedian zone which extends from the septal area into