ライフサイエンスコーパス: increased heart rate

1 so decreased during handgrip exercise due to increased heart rate.

2 cation, a parameter commonly associated with increased heart rate.

3 low, increased skin vascular resistance, and increased heart rate.

4 state in the periphery, that was indexed by increased heart rate.

5 ed increased heart wall thickness as well as increased heart rate.

6 Paraplegia in both the SHR and WKY rats increased heart rates (27 and 22% in SHR and WKY, respec

7 Dobutamine increased heart rate (79+/-22 to 115+/-28 bpm) and rate-

8 as characterized by hypotension (~12 mm Hg), increased heart rate (~80 beats/min), increased renal sy

9 As such the present study suggests that increased heart rate and autonomic changes are prevalent

10 As expected, MDMA dose-dependently increased heart rate and blood pressure and feelings of

11 demonstrated effects of the drug, including increased heart rate and blood pressure and increased va

12 elative to placebo, sample doses of nicotine increased heart rate and blood pressure, and induced sti

13 r months, consisting of periodic episodes of increased heart rate and blood pressure, sweating, hyper

14 cute treatment with MC4R agonists, including increased heart rate and blood pressure.

15 rgic receptors in cardiomyocytes and lead to increased heart rate and cardiac contractility.

16 e to meet the ATP demand required to support increased heart rate and cardiac output.

17 Increased heart rate and cholelithiasis were observed mo

18 eric G-protein Gs by beta(1)-ARs, leading to increased heart rate and contractility.

19 ed values for the three 20-minute intervals, increased heart rate and decreased ApEn were independent

20 nal shortening [LV FS] and contractility and increased heart rate and LV dimension, mass, and wall st

21 or outflow to higher pressures, resulting in increased heart rate and muscle sympathetic nerve activi

22 line function and responded to 10 minutes of increased heart rate and perfusate Ca2+ with similar inc

23 Hemorrhage increased heart rate and plasma renin activity in intact

24 nt at the aforementioned doses significantly increased heart rate and reduced blood pressure, whereas

25 Also, sodium depletion produced increased heart rate and reduced heart rate variability.

26 sed, and she had elevated blood pressure and increased heart rate and respiratory rate, but she remai

27 Overall, POTS features increased heart rate and sympathetic nervous and adrenom

28 Infusion of epinephrine significantly increased heart rate and systolic blood pressure, but th

29 ut increased significantly as a result of an increased heart rate and, to a lesser degree, stroke vol

30 Increased heart rates and decreased intermediate-term HR

31 Patients with long LOS had increased heart rates and decreased short- and intermedi

32 ACV mice displayed increased heart rates and fractional shortening as asses

33 s, but have consistently shown advanced age, increased heart rate, and decreased blood pressure to be

34 otential for adverse cardiovascular effects, increased heart rate, and decreased blood pressure.

35 nary hypertension, increased cardiac output, increased heart rate, and increased pulmonary ventilatio

36 in CON and HF, accompanied by vasodilation, increased heart rate, and other changes consistent with

37 amma2 AMPK induces a reciprocal phenotype of increased heart rate, and prevents the adaptive intrinsi

38 ed anxiety, sedation, and memory difficulty, increased heart rate, and produced a more pronounced imp

39 fraction, greater fractional shortening, and increased heart rate as compared to control animals.

40 While rats exposed to DE demonstrated increased heart rate at the start of LVP assessments, he

41 In GFAP-hM3Dq mice, CNO administration increased heart rate, blood pressure and saliva formatio

42 Acutely, taVNS increased heart rate, blood pressure, and peripheral per

43 essures and systemic vascular resistance and increased heart rate, cardiac index, blood urea nitrogen

44 Once-weekly exenatide increased heart rate compared with albiglutide and dulag

45 ons of Rho-kinase, resulting in hypotension, increased heart rate, decreased lymphocyte count, and ev

46 Pacing increased heart rate during low-level and peak exercise

47 ts revealed that greater SNS activity (e.g., increased heart rate, frequency of phasic skin conductan

48 al pressure, or sympathetic outflow, hypoxia increased heart rate from 61.9 +/- 1.8 to 74.7 +/- 2.7 b

49 ine dose, the additional 2 min of dobutamine increased heart rate (from 99.6 +/- 23.8 to 107.2 +/- 23

50 by epicardial application of bradykinin (BK) increased heart rate (HR), left ventricular systolic pre

51 With increased heart rate in 6 BrS patients, reduced ST-segme

52 AAV-GFP) into the His bundle region in pigs increased heart rate in a clinically relevant porcine mo

53 s reduced resting mean arterial pressure and increased heart rate in all but 2 controls.

54 ir diastolic function with less tolerance to increased heart rate in patients with uninsulted hearts.

55 od pressure target resulted in significantly increased heart rate in the higher blood pressure-target

56 f plasma GLP-1, slowed gastric emptying, and increased heart rate, in type 2 diabetes.

57 n the majority of species, including humans, increased heart rate increases cardiac contractility.

58 In addition, genetic susceptibility to increased heart rate is associated with altered cardiac

59 Although the association between arousal and increased heart rate is well accepted, the neurobiologic

60 iated with MTB bacteremia included male sex, increased heart rate, low CD4 count, absence of highly a

61 Slightly later there was increased heart rate, mean arterial pressure, and cardia

62 Partial neuromuscular blockade increased heart rate, mean arterial pressure, perceived

63 However, whether an increased heart rate might itself induce anxiety or fear

64 nd healthy control subjects (all P<0.01) but increased heart rate only in control subjects (P<0.01).

65 However, with increased heart rate or beta-adrenergic stimulation, cTn

66 mension, thickness, mass, or wall stress; or increased heart rate or blood pressure (P0.02 for each).

67 Hypoxia increased heart rate (P < 0.05) and minute ventilation (

68 arly, dysmenorrheic and BPS participants had increased heart rate (p's < 0.01), increased diastolic b

69 se, they can induce adverse effects, such as increased heart rate, palpitations, transient decrease i

70 Across all participants, stress increased heart rate, perceived stress, and neural activ

71 Dobutamine significantly increased heart rate, rate-pressure product and the firs

72 ntilation-perfusion mismatch correlated with increased heart rate (rho = 0.44; P = .02).

73 sed systemic vascular resistance and TO2 and increased heart rate, stroke volume, and cardiac index (

74 Pregnancy was associated with an increased heart rate, stroke volume, and cardiac output,

75 At increased heart rate, systolic fraction exceeded diastol

76 At increased heart rate, systolic function was subsequently

77 Isoproterenol up to 3 micromol/l increased heart rate to 100 +/- 6.8 beats/min, concomita

78 hearts, sympathetic nerve stimulation (SNS) increased heart rate to a lesser degree in DBH-Sap heart

79 HT-DH mice had an increased heart rate variability following WS and increa

80 LIFU increased heart rate variability indexed by the standard

81 n surges of autonomic activity, we described increased heart rate variability reflecting increased Lf

82 RGS4, correlated with decreased resting HR, increased heart rate variability, and enhanced sensitivi

83 , non-sustained ventricular arrhythmias, and increased heart rate variability.

84 Low dose digoxin reduced heart rate and increased heart rate variability.

85 The respective frequencies for increased heart rate were 5.1% (p=0.337), 18.5% (p=0.018

86 Headache and increased heart rate were increased on levosimendan, alt

87 Finally, in both groups, increased heart rates were associated with increased con

88 CaMKII was activated at increased heart rates, which may contribute to enhanced

89 milliseconds, but they were associated with increased heart rate, with beta = 0.98 (95% confidence i

90 ects and 2 serious AEs [chest discomfort and increased heart rate, without cardiac symptomatology] co