ライフサイエンスコーパス: increased blood pressure

1 diator of cardiac hypertrophy in response to increased blood pressure.

2 on, 40 x 10(8) CFU of the Agg+ strain caused increased blood pressure.

3 hromosomes 2 and 7 in which the Lewis allele increased blood pressure.

4 ation of the DBB is selectively activated by increased blood pressure.

5 Excess body weight correlates closely with increased blood pressure.

6 sed hemoglobin levels, thrombocytopenia, and increased blood pressure.

7 Lactobacillus spp., increased TH17 cells and increased blood pressure.

8 drug treatments fail to regulate a sustained increased blood pressure.

9 the most frequent were anxiety, nausea, and increased blood pressure.

10 /6 mice decreased renal sodium excretion and increased blood pressure.

11 ioventricular node conduction in response to increased blood pressure.

12 eceptors would cause clinically unacceptable increased blood pressure.

13 cumulation of which has been associated with increased blood pressure.

14 where inhibition causes fluid retention and increased blood pressure.

15 A mice have increased plasma aldosterone and increased blood pressure.

16 closures include many known risk factors for increased blood pressure.

17 at -6, and the -6A allele is associated with increased blood pressure.

18 ioavailability, endothelial dysfunction, and increased blood pressure.

19 CETP inhibition by itself might not lead to increased blood pressure.

20 ition of the baroreceptor reflex, leading to increased blood pressure.

21 nation findings were unremarkable except for increased blood pressure (150/105 mmHg).

22 ) PK levels are elevated in association with increased blood pressure; 2) PK levels are independently

23 The first fluid bolus therapy increased blood pressure (+6% +/- 1%), central venous pr

24 co (11.8% [10.5-13.3] of DALYs), followed by increased blood pressure (9.0 % [7.5-10.5]), and high bo

25 try studies showed that while angiotensin II increased blood pressure acutely in all animals, VEGFCc1

26 ventricular function cannot be explained by increased blood pressure alone, because eNOS-KO animals

27 ype mice induced endothelial dysfunction and increased blood pressure, an effect absent in P-selectin

28 rbonate have been reported to associate with increased blood pressure and a higher risk of cardiovasc

29 ctivation and oxidation were associated with increased blood pressure and altered cardiac function, a

30 NX1 in C57BL/6J and BALB/cJ mice resulted in increased blood pressure and blunted natriuretic respons

31 her cardiovascular risk factors too, such as increased blood pressure and body weight.

32 ted in NO synthase inhibition as detected by increased blood pressure and by significantly reduced ph

33 sease has been increasingly identified, with increased blood pressure and decreased cerebral blood fl

34 ed during childhood and young adult life and increased blood pressure and decreased HDL cholesterol l

35 Increased body size, increased blood pressure and decreased high density lipo

36 d with sham smoking, cigarette smoking alone increased blood pressure and decreased muscle SNA.

37 Cold exposure also increased blood pressure and energy expenditure, but dec

38 esponsible for physiological actions such as increased blood pressure and fluid intake.

39 In the first group (five dogs) with increased blood pressure and glomerular filtration rate

40 -cigarette aerosols in human subjects led to increased blood pressure and heart rate, similar to trad

41 dministered GLP-1R agonists dose-dependently increased blood pressure and heart rate.

42 Increased blood pressure and heart rates and decreased c

43 Female KOs exhibit increased blood pressure and increased pulse wave veloci

44 hat chronic mouthwash use is associated with increased blood pressure and increased risk for prediabe

45 er menopause and probably contributes to the increased blood pressure and increased risk of hypertens

46 of warmth, increased feelings of anger, and increased blood pressure and left-ventricular contractib

47 ass-related off-target effects (particularly increased blood pressure and low serum potassium) relate

48 ntracerebroventricular infusion of PF4800567 increased blood pressure and lumbar sympathetic nerve ac

49 mon in overweight humans and associated with increased blood pressure and LVH.

50 Knockout mice had increased blood pressure and mild glomerular mesangial e

51 L-NAME increased blood pressure and NE turnover rate in several

52 ater Horizon disaster may be associated with increased blood pressure and newly detected hypertension

53 ulation of the renin angiotensin system, and increased blood pressure and oxidative stress in Hap -6A

54 Importantly, GR agonist significantly increased blood pressure and redox markers in TG mice wi

55 ed inhibition of transport may contribute to increased blood pressure and renal damage.

56 Depletion of hypertensive MDSCs increased blood pressure and renal inflammation.

57 osures have been shown to be associated with increased blood pressure and risk of hypertension in old

58 investigated the mechanisms responsible for increased blood pressure and sympathetic nerve activity

59 Rats exposed to CIH exhibited increased blood pressures and elevated plasma CA, and an

60 cited reports of sedation, dissociation, and increased blood pressure), and serious adverse events fo

61 riglyceridemia, 69% low HDL cholesterol, 31% increased blood pressure, and 25% either increased fasti

62 including dyslipidemia, insulin resistance, increased blood pressure, and abdominal obesity, which t

63 IN in mice leads to endothelial dysfunction, increased blood pressure, and diastolic heart failure.

64 rolongation of late repolarization duration, increased blood pressure, and systemic inflammation.

65 aplotype have increased plasma AGT level and increased blood pressure as compared with -6G haplotype.

66 This association has been attributed to increased blood pressure as the result of high NaCl inta

67 nfused with angiotensin II had significantly increased blood pressure, as determined using telemetry,

68 nic exposure has been related to the risk of increased blood pressure based largely on cross-sectiona

69 s) improved survival with LPS (p = 0.04) and increased blood pressure before the onset of lethality w

70 The risk of increased blood pressure (BP) and early adulthood hypert

71 ems (RAS), which are in turn associated with increased blood pressure (BP) and kidney damage.

72 h numerous adverse health effects, including increased blood pressure (BP) and vascular dysfunction.

73 Increased blood pressure (BP) is common after liver tran

74 estricted silencing of Drd1 in C57BL/6J mice increased blood pressure (BP) that was normalized by ren

75 chamber dilatation disproportionate to their increased blood pressure (BP), suggesting, in support of

76 Obesity is associated with increased blood pressure (BP), which in turn increases t

77 icular-traffic pollution, is associated with increased blood pressure (BP).

78 regulate GPCR signaling, are associated with increased blood pressure (BP).

79 After baroreflex blockade with atropine, PE increased blood pressure but did not change heart rate.

80 ebroventricular treatment with neuronostatin increased blood pressure but suppressed food intake and

81 mm Hg (SE 0.8), whereas subtherapeutic nCPAP increased blood pressure by 0.8 mm Hg (0.7) (difference

82 ted into the arterial supply of the hindlimb increased blood pressure by 39% (baseline, 93.9+/-9.5 mm

83 triuretic peptide receptor A (NPRA)) exhibit increased blood pressure, cardiac hypertrophy, and conge

84 altered mechanical stress, originating from increased blood pressure, changes in blood flow velocity

85 er insight into the mechanism underlying the increased blood pressure characteristic of this model.

86 show neither increased plasma AGT level nor increased blood pressure compared with -6G.

87 Hypothermia increased blood pressure compared with normothermia.

88 ed hCYP11B2 mRNA and protein levels, and (c) increased blood pressure compared with TG mice containin

89 hat transgenic animals containing Hap-I have increased blood pressure compared with those containing

90 d volume expansion, except for PEG-Hb, which increased blood pressure due to blood volume expansion a

91 he mediators of abnormal kidney function and increased blood pressure during development of obesity h

92 this CYP in female mice was associated with increased blood pressure, enhanced proximal tubular tran

93 s, venous thrombotic events, hyperglycaemia, increased blood pressure, fever, and infections.

94 Intravenous injection of Adv-CYP4A2 increased blood pressure (from 114+/-1 to 133+/-1 mm Hg,

95 ouse model, including new-onset proteinuria, increased blood pressure, glomerular endotheliosis, and

96 DMT increased blood pressure, heart rate, anxiety, psychedel

97 LSD significantly increased blood pressure, heart rate, body temperature,

98 % CI .41-.84; Nhigh-risk = 1509), or without increased blood pressure (iHR .54, 95% CI .36-.81; Nhigh

99 AngII increased blood pressure in 2-month-old males and 18-mon

100 pollution exposure has been associated with increased blood pressure in adults.

101 restricted restoration of BKbeta1 expression increased blood pressure in BKbeta1(-/-) strain C mice,

102 e estimated premature deaths attributable to increased blood pressure in China.

103 ) cardiovascular deaths were attributable to increased blood pressure in China: 2.11 million (2.03-2.

104 as a high-fat diet caused HPA activation and increased blood pressure in control mice, these adaption

105 Excess weight gain contributes to increased blood pressure in most patients with essential

106 Angiotensin II effectively increased blood pressure in patients with vasodilatory s

107 r N(y)-nitro-l-arginine methyl ester further increased blood pressure in RBC eNOS KOs, demonstrating

108 a cardiopulmonary disorder characterized by increased blood pressure in the small arterioles supplyi

109 Repeated stress increased blood pressure in wild-type but not RAG-1(-/-)

110 t exposure to ambient Ni was associated with increased blood pressure independent of PM2.5 mass in ou

111 in animal lard programmes the development of increased blood pressure, insulin resistance, dyslipidae

112 The magnitude of increased blood pressure is clinically significant; henc

113 ether homocysteine is a cause or a marker of increased blood pressure is relevant because blood homoc

114 Increased blood pressure is the leading preventable risk

115 Treatment of severely increased blood pressure is widely recommended to reduce

116 by body mass index (BMI) was associated with increased blood pressure, LDL-C, triglycerides, and fast

117 tension, younger age, lower body weight, and increased blood pressure load using 24-hour ambulatory b

118 tered ventromedial prefrontal activation and increased blood pressure may represent useful CNS and pe

119 18 [59%] vs 547 of 1468 [37%]; P < .001) and increased blood pressure medication use (21 of 218 [10%]

120 d aspartate aminotransferase (one [2%]), and increased blood pressure (one [2%]), and in the placebo

121 of the DV to close may be the consequence of increased blood pressure or a failure in vasoconstrictio

122 ern Kenya aged 35 years or older with either increased blood pressure or diabetes.

123 The simulations show that chemotherapy-increased blood pressure, or reduction of interstitial h

124 d improved fasting glucose but significantly increased blood pressure over 6 months.

125 PeF stimulation with gabazine increased blood pressure, phrenic nerve discharge (PND)

126 Our hypothesis is that inversely increased blood pressure post-operatively would then lea

127 Despite increased blood pressure, proliferation in atria and ven

128 Manifestations include increased blood pressure, proteinuria, coagulopathy and

129 ministration to vehicle-treated SHRs further increased blood pressure, provoked drinking, increased t

130 ients with acute heart failure and normal-to-increased blood pressure, relaxin was associated with fa

131 It also increased blood pressure, renin activity, sympathetic ne

132 ectrolytic lesion of the MnPO attenuated the increased blood pressure response to chronic intravenous

133 all reduction is likely a consequence of the increased blood pressure secondary to the blunting of hy

134 AD (OR 1.12; per-allele P = 1 x 10(-5)), and increased blood pressure (systolic and diastolic blood p

135 e sleepiness (Epworth <11 points) or without increased blood pressure (systolic/diastolic <140/90 mmH

136 g versus G6PD(mut) 95+/-4 mm Hg), but Ang II increased blood pressure to a lower level in G6PD(mut) m

137 Norepinephrine infusion increased blood pressure to a similar extent as angioten

138 The novel model with increased blood pressure und higher blood sugar levels h

139 , 18.56 [95% CI, 2.94-117.05]; P = .002) and increased blood pressure variability (OR, 3.49 [95% CI,

140 Growing evidence suggests increased blood pressure variability is linked to Alzhei

141 n ankle brachial index greater than 1.30 and increased blood pressure variability, are associated wit

142 olic abnormalities, cardiac hypertrophy, and increased blood pressure variability.

143 In contrast, the opposite trend, toward increased blood pressure, was observed in mice with gene

144 Sedation, dissociation, and increased blood pressure were reported in 34.7%, 41.0%,

145 + diet, KO mice exhibited hypercalciuria and increased blood pressure, which were reversed by thiazid