ライフサイエンスコーパス: pressor reflex

1 an increase in blood pressure (i.e. exercise pressor reflex).

2 flated to 100 mmHg (to activate the exercise pressor reflex).

3 regulate muscle nociception and the exercise pressor reflex.

4 te to evoke this reflex, termed the exercise pressor reflex.

5 n decerebrated rats exaggerates the exercise pressor reflex.

6 e in the metabolic component of the exercise pressor reflex.

7 voke the metabolic component of the exercise pressor reflex.

8 ension is mediated by an overactive exercise pressor reflex.

9 Aergic neurotransmission during the exercise pressor reflex.

10 king the metabolic component of the exercise pressor reflex.

11 eurotransmission that regulates the exercise pressor reflex.

12 voke the metabolic component of the exercise pressor reflex.

13 uscle play an important role in the exercise pressor reflex.

14 ension is mediated by an overactive exercise pressor reflex.

15 order to assess involvement of the exercise pressor reflex.

16 reliable model for the study of the exercise pressor reflex.

17 e ASIC currents and the lactic acid-mediated pressor reflex.

18 omponent of this reflex, termed the exercise pressor reflex.

19 The exercise pressor reflex (a neural drive originating in skeletal m

20 carotid baroreflex was unaltered by exercise pressor reflex activation.

21 These results indicate that the exercise pressor reflex and baroreflex activate similar, but not

22 roxide scavenger, attenuated the exaggerated pressor reflex and reduced reactive oxygen species produ

23 cardiovascular responses during the exercise pressor reflex and simultaneously modulated medullary nN

24 Activation of the exercise pressor reflex by MAS trousers further reset carotid bar

25 Activation of the exercise pressor reflex during electrically induced static muscle

26 Potentially, effective treatment of exercise pressor reflex dysfunction may reduce the cardiovascular

27 d (to simulate exercising muscle and evoke a pressor reflex), endomorphin-2 and naloxone resulted in

28 etized and the afferent fibers mediating the pressor reflex entered the spinal cord via the L7 dorsal

29 rating pressures determined by both exercise pressor reflex (EPR) and central command activation.

30 have led to the hypothesis that the exercise pressor reflex (EPR) becomes hyperactive after the devel

31 An exaggerated exercise pressor reflex (EPR) contributes to exercise intolerance

32 The skeletal muscle exercise pressor reflex (EPR) induces increases in heart rate (HR

33 The exercise pressor reflex (EPR) is an important neural mechanism th

34 o activation of the skeletal muscle exercise pressor reflex (EPR) is exaggerated.

35 T: Contraction of muscle evokes the exercise pressor reflex (EPR), which is expressed partly by incre

36 veness is mediated by an overactive exercise pressor reflex (EPR).

37 h regulating muscle nociception and exercise pressor reflexes (EPRs), and P2Y1 has been linked to hea

38 echano-gated Piezo channels, on the exercise pressor reflex evoked by intermittent contraction of the

39 n NMDA receptors at L6 and L7 attenuated the pressor reflex evoked by static contraction and muscle s

40 jacent spinal segments as it pertains to the pressor reflex evoked by static contraction and stretch

41 n important role in the exaggerated exercise pressor reflex found in rats with ligated femoral arteri

42 We conclude that GsMTx4 reduced the exercise pressor reflex in decerebrate rats and that the reductio

43 o-gated Piezo channels, reduced the exercise pressor reflex in decerebrate rats.

44 that P2 receptors contribute to the exercise pressor reflex in humans.

45 ys an important role in evoking the exercise pressor reflex in rats with a compromised arterial blood

46 d the hypothesis that the augmented exercise pressor reflex in rats with a ligated femoral artery is

47 eceptors attenuated the exaggerated exercise pressor reflex in rats with ligated femoral arteries.

48 we found no effect of tiron infusion on the pressor reflex in rats with patent femoral arteries.

49 of the mechanical component of the exercise pressor reflex in rats.

50 ibutions of central command and the exercise pressor reflex in regulating the cardiovascular response

51 tery disease, causes an exaggerated exercise pressor reflex in response to muscle contraction.

52 responses due to activation of the exercise pressor reflex in the absence of central command.

53 s to determine if activation of the exercise pressor reflex in the decerebrate rat induced circulator

54 ory that selectively stimulates the exercise pressor reflex independent of central command and/or the

55 Inhibition of exercise pressor reflex input by epidural anaesthesia attenuated

56 ing dynamic and static exercise the exercise pressor reflex is capable of actively resetting carotid

57 (ASICs), their contribution to the exercise pressor reflex is not known.

58 These data support the hypothesis that the pressor reflex is partially mediated by activation of NM

59 erents, sense the decrease in pH and evoke a pressor reflex known to increase mean arterial pressure.

60 However, given that exercise pressor reflex overactivity is known to elicit enhanced

61 in the baroreflex mediated reduction of the pressor reflex response to static muscle contraction.

62 10-min on the gallbladder induced consistent pressor reflex responses.

63 acid and E-2 led to a significantly greater pressor reflex than lactic acid alone in the presence of

64 arger reflex pressor response (i.e. exercise pressor reflex) than did static contraction of the contr

65 o determine the contribution of the exercise pressor reflex to the resetting of the carotid barorefle

66 ion of somatosensory input from the exercise pressor reflex to this resetting during exercise.