ライフサイエンスコーパス: cardiovascular regulation

1 n/denitrosylation reactions are essential in cardiovascular regulation.

2 olitary tract (NTS) plays a critical role in cardiovascular regulation.

3 xide synthase (eNOS) plays a central role in cardiovascular regulation.

4 l function may have implications for general cardiovascular regulation.

5 in areas of the caudal brainstem involved in cardiovascular regulation.

6 sses including touch sensation, balance, and cardiovascular regulation.

7 ignaling events are placed in the context of cardiovascular regulation.

8 lance, touch, and pain, as well as renal and cardiovascular regulation.

9 he ouabain-binding site and are important in cardiovascular regulation.

10 areas implicated in stressor processing and cardiovascular regulation.

11 onal NOS (nNOS), and inducible NOS (iNOS) in cardiovascular regulation.

12 1 mechanism plays an important role in fetal cardiovascular regulation.

13 o our better understanding of the biology of cardiovascular regulation.

14 es toward resting blood pressure and overall cardiovascular regulation.

15 secreted by the heart that may contribute to cardiovascular regulation.

16 ions of UII question its importance in human cardiovascular regulation.

17 rmalities in centrally mediated processes of cardiovascular regulation.

18 nergic projections to the NMC participate in cardiovascular regulation.

19 -R) are present in brain regions involved in cardiovascular regulation.

20 l structure in brain regions associated with cardiovascular regulation.

21 -coupled receptors (GPCRs) have key roles in cardiovascular regulation and are important targets for

22 al medulla and caudal pons, is implicated in cardiovascular regulation and cranial nerve reflexes, an

23 e of species, suggest a teleological role in cardiovascular regulation and inflammation.

24 e previously unrecognized connection between cardiovascular regulation and metabolic activity reveale

25 rdiovascular disease risk, models of resting cardiovascular regulation and of insulin metabolic syndr

26 Ang II plays a key role in cardiovascular regulation and participates in vascular p

27 system sites is a primary mechanism of neuro-cardiovascular regulation, and excessive oxidant product

28 including pain modulation, opiate function, cardiovascular regulation, and neuroendocrine function.

29 plications of melatonergic ligands including cardiovascular regulation, appetite control, tumor growt

30 firm a role for the apelin peptide system in cardiovascular regulation at the level of the RVLM and h

31 e for a particular ligand-receptor system in cardiovascular regulation can only be achieved by determ

32 biological functions including: food intake, cardiovascular regulation, cognition, seizure activity,

33 ute a part of the neural pathway involved in cardiovascular regulation during static muscle contracti

34 among sodium homeostasis, fatigue, mood, and cardiovascular regulation have been described previously

35 ered mouse models geared toward the study of cardiovascular regulation have recently been described a

36 ible role of the endocannabinergic system in cardiovascular regulation in hypertension.

37 onstrate dramatically disordered sympathetic cardiovascular regulation in patients with chronic OI.

38 d functions like swallowing, respiration and cardiovascular regulation in the lamb.

39 second messenger that plays central roles in cardiovascular regulation influencing gene expression, c

40 of calcitonin gene-related peptide (CGRP) in cardiovascular regulation is gaining clinical and scient

41 We tested the hypothesis that autonomic cardiovascular regulation is more sensitive to E2 exposu

42 Cardiovascular regulation is tightly controlled by signa

43 echanosensors and proprioception, as well as cardiovascular regulation, kidney function, and osmoregu

44 enses of touch, balance, and proprioception; cardiovascular regulation; kidney function; and osmoregu

45 framework for future studies on the role in cardiovascular regulation of AT(1) receptors in the caud

46 ward and motivation, anxiety and depression, cardiovascular regulation, pain, migraine, and neuroendo

47 regions of RA+ mice known to be involved in cardiovascular regulation raises the possibility that au

48 Ra alpha and IRb alpha) are more involved in cardiovascular regulation than other areas of infraradia

49 mic innervation is an essential component of cardiovascular regulation that is first established from

50 estrogen replacement therapy has effects on cardiovascular regulation that may not be reflected in r

51 s suggest that Leu-enkephalin is involved in cardiovascular regulation through activation of delta-,

52 The model of resting cardiovascular regulation used 8 noninvasive measures of

53 ced nNOS-NO in the nuclei may modify central cardiovascular regulation, which contribute to hypotensi

54 indications of specialized lateralization of cardiovascular regulation within the right and left post