ライフサイエンスコーパス: autonomic reflex

1 or energy homeostasis and the integration of autonomic reflexes.

2 ystems that provide a point of reference for autonomic reflexes.

3 ole in central integration of cardiovascular autonomic reflexes.

4 nucleus tractus solitarius (NTS) to initiate autonomic reflexes.

5 afferent transmission at the first stage of autonomic reflexes.

6 oking pro-arrhythmic changes and stimulating autonomic reflexes.

7 Somatosensory autonomic reflexes allow electroacupuncture stimulation

8 al, involving alterations in both peripheral autonomic reflexes and central neural pathways, and are

9 or function, improved bulbospinally mediated autonomic reflexes, and increased axon sprouting.

10 livatory nucleus, to activate the trigeminal autonomic reflex arc.

11 t studies show that targeting the trigeminal autonomic reflex by neurostimulation, or targeting the n

12 Furthermore, the beat-to-beat autonomic reflex control of HR was found to be dependent

13 of cardiorespiratory homeostasis depends on autonomic reflexes controlled by neuronal circuits of th

14 afferent neurons regulating food intake and autonomic reflexes controlling motility, secretion, infl

15 be active participants in the regulation of autonomic reflexes even in the normal, healthy state.

16 ate viscerosensory input to powerfully alter autonomic reflex function and other behaviors.SIGNIFICAN

17 rosensory signal processing in the NTS-X and autonomic reflex function.

18 fferent traffic can make an otherwise static autonomic reflex highly plastic.

19 The effect of Paxil on the autonomic reflexes in patients with neurally mediated sy

20 t for the diving response, the most powerful autonomic reflex known.

21 alpha (TNF(alpha)) is a potent modulator of autonomic reflex mechanisms that control the stomach.

22 leus of the solitary tract (NTS) to initiate autonomic reflex pathways as well as providing important

23 Circadian regulation of autonomic reflex pathways pairs physiological function w

24 Nitric oxide (NO), a neurotransmitter in autonomic reflex pathways, plays a role in functional ne

25 y perceived but serves primarily as input to autonomic reflex pathways.

26 medulla, especially those areas involved in autonomic reflex pathways.

27 it initiates neuroendocrine, behavioral, and autonomic reflex responses that ensure optimal internal

28 episodes activate chemoreceptors stimulating autonomic reflex responses.

29 Mayo Clinic, Rochester and assessed with an autonomic reflex screen between January 1998 and Decembe

30 Autonomic reflex screens (77%) and thermoregulatory swea

31 d Raphe Obscurus (RO) regulates a variety of autonomic reflexes, suggesting that there may be an asso

32 id-sensing system and the orosensory-induced autonomic reflex system in lean and obese subjects.

33 te variability (HRV) indices, cardiovascular autonomic reflex tests (CARTs), and cardiac (123)I-metai

34 titative Scale for Grading of Cardiovascular Autonomic Reflex Tests and Small Fibers from Skin Biopsi

35 We performed standardized cardiovascular autonomic reflex tests and targeted fasting plasma metab

36 The response to cardiac autonomic reflex tests was also evaluated.

37 sion tomography/computed tomography, cardiac autonomic reflex tests, and heart rate variability indic

38 in DC subjects; p < 0.01) despite preserved autonomic reflex tests.

39 accordance with the opposite behavioral and autonomic reflexes they typically elicit.

40 tinct and even opposite facial, sensory, and autonomic reflexes, threat-related emotions often conver

41 attack involves activation of the trigeminal-autonomic reflex; thus, such headaches can be broadly cl

42 the aortic arch and carotid sinus initiates autonomic reflexes to change heart rate and blood pressu

43 in part, by alterations in exercise-induced autonomic reflexes triggered by skeletal muscle sensory