ライフサイエンスコーパス: stellate ganglion

1 the presynaptic terminal of the adult squid stellate ganglion.

2 ere analyzed following PRV injections in the stellate ganglion.

3 days, PRV was injected into the ipsilateral stellate ganglion.

4 ic collaterals connecting neurons within the stellate ganglion.

5 sine hydroxylase-positive nerves in the left stellate ganglion 1 week after cessation of LL-VNS were

6 fter RTX administration, increases in GP and stellate ganglion activity and blood pressure during apn

7 her oxygen desaturation, a tonic increase in stellate ganglion activity and blood pressure ensued.

8 d indirect central inputs (vagus alone: 25%; stellate ganglion alone: 27%; both: 48%).

9 after unilateral anaesthetic blockade of the stellate ganglion, alone or in combination with selectiv

10 recordings from bilateral vagal nerves, left stellate ganglion, and anterior right GP were obtained b

11 hibition of P2X3R located in the sympathetic stellate ganglion as a promising novel therapeutic for s

12 erlie the anti-arrhythmic effects of partial stellate ganglion block in the setting of chronic MI.

13 low-level vagus nerve stimulation [LL-VNS], stellate ganglion block, baroreceptor stimulation, spina

14 c interest (i.e., hyperbaric oxygen therapy, stellate ganglion block, neurofeedback).

15 Five patients had only one stellate-ganglion block and eight had two stellate-gangl

16 ushes and night awakenings were treated with stellate-ganglion block at the anterolateral aspect of t

17 lot study to investigate our hypothesis that stellate-ganglion block can be a safe and effective trea

18 The findings of this study suggest that stellate-ganglion block can provide survivors of breast

19 re were no adverse events resulting from the stellate-ganglion block, although patients had temporary

20 Percutaneous stellate ganglion blockade (SGB) is frequently used - ho

21 ion also occurred during mental stress after stellate ganglion blockade.

22 Performance of stellate ganglion blocks at the bedside in the ICU is fe

23 ather than fluoroscopy, to perform bilateral stellate ganglion blocks at the patient's bedside in the

24 ne stellate-ganglion block and eight had two stellate-ganglion blocks.

25 into either the superior cervical ganglion, stellate ganglion, celiac ganglion, or adrenal gland of

26 ional sympathetic postganglionic cell in the stellate ganglion complex exhibited NOS immunoreactivity

27 e safety and effectiveness of CT-guided left stellate ganglion cryoneurolysis (SGC) in the treatment

28 fusing nerve growth factor (NGF) to the left stellate ganglion (experimental group, n=9).

29 activity, followed by vagal bursts and tonic stellate ganglion firing.

30 Surgically removing the sympathetic stellate ganglion has demonstrated therapeutic potential

31 P2X3R inhibition were investigated in intact stellate ganglion-heart preparations in situ.

32 NGF infusion to the left stellate ganglion in dogs with chronic MI and AV block a

33 t efferent cardiac sympathetic branch of the stellate ganglion in Zucker diabetic fatty rats revealed

34 anaesthetic block of the sympathetic nerves (stellate ganglion) innervating the contralateral (restin

35 Significant neural remodeling of the left stellate ganglion is evident 1 week after cessation of c

36 eft ventricle free wall (LVFW), and the left stellate ganglion (LSG) at several time points (30 minut

37 Left stellate ganglion (LSG) hyperactivity promotes ischemia

38 threshold electrical stimulation to the left stellate ganglion (LSG) in six normal dogs for 41 +/- 9

39 ession of either TcMS that targeted the left stellate ganglion (n = 14) or sham stimulation (n = 12).

40 low-level vagus nerve stimulation suppresses stellate ganglion nerve activities and reduces the incid

41 nuous (24/7) simultaneous monitoring of left stellate ganglion nerve activity (SGNA), vagal nerve act

42 nsic cardiac nerve activity (ECNA; including stellate ganglion nerve activity and vagal nerve activit

43 y were preceded by or coactivated with ECNA (stellate ganglion nerve activity or vagal nerve activity

44 des were activated alone without concomitant stellate ganglion nerve activity or vagal nerve activity

45 Integrated stellate ganglion nerve activity was significantly reduc

46 at 20 Hz for 1 week and then monitored left stellate ganglion nerve activity, left vagal nerve activ

47 transmitter for continuous recording of left stellate ganglion nerve activity, vagal nerve activities

48 ation, whereas 11% were preceded by ICNA and stellate ganglion nerve activity-only activation.

49 e trunk evoked fast synaptic transmission in stellate ganglion neurons with low and high jitter laten

50 eudorabies virus (PRV) was injected into the stellate ganglion of rats.

51 tigated the role of P2X3R in the sympathetic stellate ganglion of Wistar and spontaneously hypertensi

52 Stellate ganglion P2X3 receptors mediate increases in ne

53 We show that stellate ganglion P2X3R contribute to sympathetically me

54 82% of sympathetic neurons isolated from the stellate ganglion predominantly express Na(V)1.7 mRNA.

55 hat noradrenergic sympathetic neurons in the stellate ganglion (SG) have excitatory cholinergic colla

56 remodeling occurs within the neurons of the stellate ganglion (SG) in the setting of heart failure (

57 anch of the autonomic nervous system via the stellate ganglion (SG) neurons.

58 nnervating the heart primarily reside in the stellate ganglion (SG), alongside neurons innervating ot

59 med by giant fiber lobe (GFL) neurons of the stellate ganglion (SG).

60 rhythm and nerve activity (NA) from the left stellate ganglion (SNA), left cardiac vagus (VNA), and a

61 sion (0.1 microg. kg(-1). min(-1)), and left stellate ganglion stimulation (SS).

62 Effects of electrically stimulating the left stellate ganglion to activate cardiopulmonary sympatheti

63 refractory to drug therapy treated with left stellate ganglion transcutaneous magnetic stimulation (T

64 0.9%, at the right or left (randomized 1:1) stellate ganglion was performed by a board-certified ane

65 erals from postganglionic neurons within the stellate ganglion, we knocked out choline acetyltransfer

66 dynamics in the embryonic mouse sympathetic stellate ganglion, where neuroblasts continue to prolife

67 nctionally different targets: adrenal gland, stellate ganglion which regulates the heart, or celiac g

68 cific primers detected the transcript in the stellate ganglion, which contains the cell bodies that g