ライフサイエンスコーパス: cardiovascular function

1 lopmental cardiac abnormalities and impaired cardiovascular function.

2 rol of breathing and in autonomic control of cardiovascular function.

3 ication that may have significant effects on cardiovascular function.

4 imental effects on metabolic homeostasis and cardiovascular function.

5 plays an important role in the regulation of cardiovascular function.

6 nformation with ongoing autonomic control of cardiovascular function.

7 T-1 has important implications for renal and cardiovascular function.

8 t and selective Galpha(q) GAP that modulates cardiovascular function.

9 s been linked to beneficial effects on human cardiovascular function.

10 votal role of this enzyme in many aspects of cardiovascular function.

11 d CVLM might also play a role in integrating cardiovascular function.

12 s solitarii (NTS) participates in modulating cardiovascular function.

13 mittent hypoxia (CIH)-induced alterations in cardiovascular function.

14 onses with an underlying circadian rhythm in cardiovascular function.

15 uronal substances that subsequently modulate cardiovascular function.

16 he dietary isoflavones in soy protein affect cardiovascular function.

17 triculography to determine rest and exercise cardiovascular function.

18 at ACTH may play a role in the regulation of cardiovascular function.

19 ates effects of the Arg16Gly polymorphism on cardiovascular function.

20 te the sympathetic nervous system control of cardiovascular function.

21 termittent fasting on glucose regulation and cardiovascular function.

22 bryo development, postnatal growth and later cardiovascular function.

23 etal hypoxia, growth restriction and altered cardiovascular function.

24 llular event in central Ang II regulation of cardiovascular function.

25 uction of the gas, thereby maintaining basal cardiovascular function.

26 ance to the regulation of blood pressure and cardiovascular function.

27 es or markers associated with hepatorenal or cardiovascular function.

28 an important mechanism in the regulation of cardiovascular function.

29 elective sites for pharmacological tuning of cardiovascular function.

30 important area in the central regulation of cardiovascular function.

31 of the beneficial effects that VD exerts on cardiovascular function.

32 n that estrogen produces negative effects on cardiovascular function.

33 e, among others, modulation of autonomic and cardiovascular function.

34 eful tool for the quantitative evaluation of cardiovascular function.

35 xygen, without any significant impairment in cardiovascular function.

36 o involved in regulating sleep, arousal, and cardiovascular function.

37 he nCom may play a role in the regulation of cardiovascular function.

38 sm of this important enzyme participating in cardiovascular function.

39 y tuning heart rates is critical for regular cardiovascular function.

40 pressor area (CVLM) in regulating/modulating cardiovascular function.

41 used 8 noninvasive measures of autonomic and cardiovascular function.

42 uption of sympathetic pathways that modulate cardiovascular function.

43 relaxin should be considered a regulator of cardiovascular function.

44 ic, this review is focused on its effects on cardiovascular function.

45 ides a mechanism for the rapid regulation of cardiovascular function.

46 AG mediate the ability of the IL to regulate cardiovascular function.

47 , possibly critical, aspects with respect to cardiovascular function.

48 ecies have emerged as important molecules in cardiovascular function.

49 localized in areas of brain more related to cardiovascular function.

50 des in the central nervous system control of cardiovascular function.

51 r regulation of both breathing and autonomic cardiovascular function.

52 urrent and subsequently to the modulation of cardiovascular function.

53 in genes whose functions underlie mammalian cardiovascular function.

54 gic neurotransmission and central control of cardiovascular function.

55 the basolateral amygdala (BLA) in regulating cardiovascular function.

56 (NTS) participate in autonomic regulation of cardiovascular function.

57 plays critical roles in nervous, immune, and cardiovascular function.

58 ical alterations, including perturbations in cardiovascular function.

59 omponents of the neural circuitry regulating cardiovascular function.

60 significant short- and long-term effects on cardiovascular function.

61 earchers and clinicians to better understand cardiovascular function.

62 ygen-sensing machinery that underlies global cardiovascular function.

63 processes ranging from neurotransmission to cardiovascular function.

64 n obligate role for GR in maintaining normal cardiovascular function.

65 micals were screened for targeted effects on cardiovascular function.

66 hannels play a prominent role in controlling cardiovascular function.

67 p influence both cortical brain activity and cardiovascular function.

68 ctivating protein, is strongly implicated in cardiovascular function.

69 OR and that aberrant denitrosylation impairs cardiovascular function.

70 odulate food intake, motivation, stress, and cardiovascular function.

71 BNP in experimental HF resulted in improved cardiovascular function.

72 re to pravastatin did not affect fetal basal cardiovascular function.

73 nervous systems in regard to control of the cardiovascular function.

74 ety of messengers that are key regulators of cardiovascular function.

75 lation and the effects of corticosteroids on cardiovascular function.

76 ough which ambient temperature may influence cardiovascular function.

77 a unique pathway for the redox regulation of cardiovascular function.

78 t is imperative to determine their impact on cardiovascular function.

79 al and plays a role in the neural control of cardiovascular functions.

80 rs (5-HTRs) play critical roles in brain and cardiovascular functions.

81 la following transient focal ischemia affect cardiovascular functions.

82 gulation of insulin-regulated metabolism and cardiovascular functions.

83 where they were found in nuclei having known cardiovascular functions.

84 ic pathways of the brain and in platelet and cardiovascular functions.

85 role in the regulation of blood pressure and cardiovascular functions.

86 tant regulator of body fluid homeostasis and cardiovascular functions.

87 cle oxidative capacity and improving certain cardiovascular functions.

88 enes implicated in cell cycle, motility, and cardiovascular functions.

89 ychosocial factors may promote healthy adult cardiovascular functioning.

90 ons observed in HFpEF and sex differences in cardiovascular function across the adult lifespan.

91 emonstrated significantly less impairment of cardiovascular function after biphasic defibrillation.

92 oxygenated HBOC-201 rapidly restored viable cardiovascular function after exsanguinating cardiac arr

93 ective study, we investigated the changes in cardiovascular function after kidney donation.

94 Fast Fourier transformation of cardiovascular function allowed the relative power of th

95 S), a tissue RAS having an important role in cardiovascular function also exists in the central nervo

96 Androstenediol administration improves cardiovascular function and attenuates proinflammatory c

97 here is an increasing need for understanding cardiovascular function and blood flow control in normal

98 ioactivity, conferring beneficial effects on cardiovascular function and blood flow.

99 lyl cyclase (sGC) plays an important role in cardiovascular function and catalyzes formation of cGMP.

100 APJ) system is involved in the regulation of cardiovascular function and central control of body home

101 atory cycle that is required for both normal cardiovascular function and circulatory adaptation to hy

102 eriments, providing a new connection between cardiovascular function and core temperature.

103 metabolites in pathways that are integral to cardiovascular function and disease, including inflammat

104 erstanding of the diverse roles miRs play in cardiovascular function and disease, we applied high-thr

105 ven to be a powerful technology for studying cardiovascular function and disease.

106 tensin type 1a receptors (AT1a) to influence cardiovascular function and energy homeostasis.

107 n injuries must quickly restore and maintain cardiovascular function and fluid balance while minimizi

108 r benefits of lycopene in the maintenance of cardiovascular function and health.

109 tors and effectors of BMP signalling control cardiovascular function and how the dysregulated BMP sig

110 Hot weather taxes cardiovascular function and is associated with increased

111 is a key hormonal system which regulates the cardiovascular function and is implicated in several aut

112 ell known for its profound direct effects on cardiovascular function and metabolism.

113 or other nephrotoxic agents, and optimizing cardiovascular function and oxygen delivery.

114 exogenous ELA or Apelin-13 infusion improves cardiovascular function and survival after cecal ligatio

115 al treatment with dexamethasone alters basal cardiovascular function and the cardiovascular response

116 act with environmental variables to modulate cardiovascular function and the response to therapeutic

117 s and underscore their physiological role in cardiovascular function and their clinical relevance to

118 t phosphodiesterase-5 inhibitors may enhance cardiovascular function and thus exercise capacity in he

119 nicotine inhalation during pregnancy impairs cardiovascular function and uterine hemodynamics with co

120 by brain regions that are known to regulate cardiovascular function and which are activated by chron

121 e has been reported to restore the depressed cardiovascular functions and cell-mediated immune respon

122 y the autonomic nervous system in modulating cardiovascular functions and in controlling blood pressu

123 em are Ras-like G-proteins linked to diverse cardiovascular functions and pathophysiology.

124 es, including metabolism, feeding behaviors, cardiovascular functions and reproduction.

125 s system (CNS)-mediated effects of ANG II on cardiovascular functions and water intake.

126 data into clinically relevant indicators of cardiovascular function, and estimate hemodynamic variab

127 rstanding of how mutations affect developing cardiovascular function, and few studies have been perfo

128 e is a well-known regulator of metabolic and cardiovascular functions, and signaling through thyroid

129 ts by which leptin regulates food intake and cardiovascular function are differentially influenced by

130 Some aspects of cardiovascular function are impaired in patients with CR

131 in cell-cycle regulation, but their roles in cardiovascular function are poorly understood.

132 Techniques for exploring aspects of cardiovascular function are well developed for larger an

133 the notion that hypothalamic influences upon cardiovascular functions are in part mediated through hy

134 , where GPCRs regulate such core measures of cardiovascular function as heart rate, contractility, an

135 erse consequences for NO bioavailability and cardiovascular function at adulthood, and whether neonat

136 he ability to identify chemicals that target cardiovascular function at nonteratogenic concentrations

137 Its role in regulating cardiovascular function at rest and with stress is uncle

138 ired for tachycardia during stress or normal cardiovascular function at rest.

139 s to screen and identify chemicals affecting cardiovascular function at sublethal, nonteratogenic con

140 Continued improvement in cardiovascular function before start of day 2 and start

141 ate with each other to integrate and balance cardiovascular function between hemispheres.

142 Circadian rhythmicity of many aspects of cardiovascular function-blood pressure, coagulation and

143 or chronic intermittent cold stress modifies cardiovascular function both under resting conditions an

144 ates numerous biological processes including cardiovascular function, bowel motility, ejaculatory lat

145 ced hypertension, not only maintaining basal cardiovascular function, but also permitting blockade of

146 E2 regulates cardiovascular function, but specific mechanisms, protec

147 supports the actions of statins in improving cardiovascular function, but the mechanisms of their pro

148 nown to exert direct and indirect effects on cardiovascular function, but their effects on cardiac re

149 as a neuropeptide to control food intake and cardiovascular functions, but its neural role in glucose

150 t regulate stress responses, metabolism, and cardiovascular function by activating either of two rela

151 nverting enzyme (ACE) has a critical role in cardiovascular function by cleaving the carboxy terminal

152 nd suggest a mechanism for the modulation of cardiovascular function by estrogen in women.

153 a pivotal role in the central regulation of cardiovascular function by regulating other renin-angiot

154 ers of inflammation, metabolic function, and cardiovascular function (C-reactive protein, hemoglobin

155 Parameters of cardiovascular function can be measured in mice noninvas

156 embryos, the maturation of murine embryonic cardiovascular function can be quantified in vivo, setti

157 Nearly all aspects of cardiovascular function can be quantified with fast magn

158 nitric oxide (NO.), is a novel regulator of cardiovascular function, combining concomitant positive

159 Cardiovascular function declined starting at 20 h postex

160 Analysis of their cardiovascular function demonstrated normal heart functi

161 Cardiovascular function depends on patent blood vessel f

162 ation (AM/AMBP-1) after hemorrhage, improves cardiovascular function despite the increased levels of

163 ts a role for this K(ATP) channel subunit in cardiovascular function during conditions of stress.

164 e skeletal muscle pump and vasodilatation on cardiovascular function during exercise, we determined l

165 sleep-disordered breathing or improved sleep cardiovascular function during hGH therapy.

166 this substitution differentially influenced cardiovascular function during short duration (9 min) lo

167 heir proinflammatory secretome also improves cardiovascular function, enhances insulin sensitivity, a

168 We measured cardiovascular function every 4-6 months for up to 5 yea

169 chanism for the disrupted NE homeostasis and cardiovascular function evident in OI patients with the

170 n index of mood (hypohedonia; Experiment 1), cardiovascular function (Experiment 2), and plasma elect

171 e physiological processes of blood pressure, cardiovascular function, fluid secretion, and others: me

172 Embryonic cardiovascular function has been extensively studied in

173 The dog, as a model for cardiovascular function, has been widely used in the pha

174 Adenosine, long known as a regulator of cardiovascular function, has recently been identified as

175 g enzyme (ACE)2 in brain regions controlling cardiovascular function; however, the role of ACE2 in bl

176 a mitigate the adverse effects of seizure on cardiovascular function in a rat model of temporal lobe

177 iations between ambient pollution levels and cardiovascular function in a repeated measures study inc

178 ntrolene provided significant improvement in cardiovascular function in an immature porcine heatstrok

179 to assess fetal and infant (6 months of age) cardiovascular function in ART pregnancies.

180 nin may play an important role in preserving cardiovascular function in CHF.

181 Beneficial effects of exercise training on cardiovascular function in chronic heart failure (CHF) h

182 s, allowing for detailed characterization of cardiovascular function in genetically engineered mice,

183 ly enriched by estrogen, which may influence cardiovascular function in health and disease.

184 effects of phosphodiesterase 5 inhibitors on cardiovascular function in heart failure (HF) patients,

185 thesised that sildenafil also protects fetal cardiovascular function in hypoxic development.

186 generation of reactive oxygen species alter cardiovascular function in individuals with elastin hapl

187 women, it is unclear whether they influence cardiovascular function in men.

188 the feasibility of determining parameters of cardiovascular function in mice noninvasively by high-te

189 nociception significantly without affecting cardiovascular function in normotensive animals.

190 maternal treatment with allopurinol on fetal cardiovascular function in ovine pregnancy in late gesta

191 nd below the normal trajectory may influence cardiovascular function in postnatal life.

192 pproach permits the monitoring of changes in cardiovascular function in response to pharmacologic int

193 that progesterone can improve the depressed cardiovascular function in sex steroid-deficient female

194 The data show that development of cardiovascular function in the equine fetus occurs via c

195 the mechanisms underlying the development of cardiovascular function in the horse fetus, with particu

196 nutrition in rat gestation adversely affects cardiovascular function in the offspring.

197 We examined whether BDNF in nTS modulates cardiovascular function in vivo and regulates synaptic a

198 ne in endothelial cells on NO production and cardiovascular function in vivo using NOSTRIN knockout m

199 We evaluated cardiovascular function in young euglycemic Dpp4(-/-) mi

200 the two TSP variants are likely to influence cardiovascular functions in distinct but yet pathogenic

201 resent treatments for the loss or failure of cardiovascular function include organ transplantation, s

202 rmined in vivo longitudinal changes in fetal cardiovascular function including parallel measurement o

203 Estrogen has important effects on cardiovascular function including regulation of vascular

204 In KO mice, resting cardiovascular function, including blood pressure, heart

205 n to exert a number of beneficial effects on cardiovascular function, including reduction in BP and i

206 variety of physiological processes including cardiovascular function, inflammatory responses, and noc

207 (SP), a peptide that has been implicated in cardiovascular function, inflammatory responses, and noc

208 Cardiovascular function is associated with an abnormal p

209 at our understanding of the role of COX-2 in cardiovascular function is incomplete.

210 (CVD), but investigation of its influence on cardiovascular function is limited.

211 Although astronauts' cardiovascular function is normal while they are in spac

212 In contrast to mammals, cardiovascular function is not essential for early zebra

213 art can induce exosome secretion to modulate cardiovascular function is not known.

214 Cardiovascular function is regulated at multiple levels.

215 The importance of RVLM in the regulation of cardiovascular function is well established.

216 ldosterone is a known regulator of renal and cardiovascular function, its role as a regulator of canc

217 ial to influence parasympathetic outflow and cardiovascular function, likely through an enkephalinerg

218 ing in mnTS plays a tonic role in regulating cardiovascular function, likely via modulation of primar

219 iac vagal activity play significant roles in cardiovascular function, little is known about the synap

220 I have any salutary effects on the depressed cardiovascular function, liver damage, and mortality rat

221 important for the control of food intake and cardiovascular function, making them good candidates to

222 teenagers, these studies raise concern that cardiovascular function may be especially vulnerable dur

223 five centers studying longitudinal lung and cardiovascular function of infants from HIV-infected mot

224 , and myeloid cells further to elucidate the cardiovascular function of this enzyme.

225 valuation of the pharmacological response of cardiovascular function on model animals is important es

226 inically significant adverse drug effects on cardiovascular function or growth at the end of 2 years

227 the roles carried out by these molecules in cardiovascular function, pain, epilepsy, migraine and de

228 isms by which PKGI kinase activity regulates cardiovascular function remain incompletely understood.

229 is neurohormonal system in neural control of cardiovascular function remains poorly understood.

230 Secondary outcomes included measures of cardiovascular function, renal function, resource use, a

231 ess, suggests that the maintenance of normal cardiovascular function requires elevated cardiac sympat

232 atic processes, such as endocrine secretion, cardiovascular function, salt intake, and nociception.

233 in the regulation of various cAMP-dependent cardiovascular functions, such as calcium handling and v

234 ave been implicated in regulating neural and cardiovascular functions, such as cell spreading and che

235 rn of distribution and the lack of effect on cardiovascular function support the concept that RASONs

236 ive protein, fibrinogen, IL-6, and albumin), cardiovascular functioning (systolic and diastolic blood

237 (Ang II) has powerful modulatory actions on cardiovascular function that are mediated by specific re

238 a potentially beneficial effect of COX-2 on cardiovascular function that could be negated by COX-2 i

239 pharmacological therapy to improve impaired cardiovascular function that occurs in the context of he

240 and AMPH produced dose-related increases in cardiovascular function that were of comparable magnitud

241 Training of S had effects on cardiovascular function that were similar in magnitude b

242 ity of exosomes containing a key receptor in cardiovascular function, the angiotensin II type I recep

243 (AP) as been implicated in the regulation of cardiovascular function, there is no consensus regarding

244 up is predicted to play a role in regulating cardiovascular function, these findings suggest that dev

245 he NTS, NO from eNOS in the NTS may modulate cardiovascular function through an interaction between a

246 and participate in EA-related modulation of cardiovascular function through an opioid or serotonergi

247 contribute to blood pressure regulation and cardiovascular function through its effects on the vascu

248 rtical and subcortical brain regions control cardiovascular function via the sympathetic and parasymp

249 Cardiovascular function was assessed by ultrasonography

250 Resting cardiovascular function was similar between the 2 groups

251 Fetal cardiovascular function was stimulated with increasing b

252 Focusing on musculoskeletal and cardiovascular function, we discuss this model and the p

253 are important in the regulation of renal and cardiovascular function, we studied the cardiovascular c

254 f maternal allopurinol on maternal and fetal cardiovascular function were also investigated following

255 a levels of peptides and hormones related to cardiovascular function were also measured.

256 Craving, negative emotion, anxiety, and cardiovascular function were assessed at baseline, immed

257 Major determinants of cardiovascular function were impaired in chemotherapy-tr

258 quences of variations in natural BW on basal cardiovascular function were investigated in pigs at 3 m

259 o the dorsolateral PAG and did not influence cardiovascular function when injected into the vlPAG of

260 serve capacity involving multiple domains of cardiovascular function, which contribute in an integrat

261 The patients maintained stable cardiovascular function while receiving the maximal dose

262 pressure (via radial arterial tonometry) and cardiovascular function with echocardiographic measures

263 frequently limited by an inability to assess cardiovascular function within the intact organism.