ライフサイエンスコーパス: cardiovascular system

1 rious human diseases, including those of the cardiovascular system.

2 organisms, specifically in the case for the cardiovascular system.

3 variation underlying giraffe's long neck and cardiovascular system.

4 e respiratory system and vasodilation in the cardiovascular system.

5 focuses on the role of miRs in ageing of the cardiovascular system.

6 nervous system to other sites, including the cardiovascular system.

7 arditis, a life-threatening infection of the cardiovascular system.

8 ith primary aldosteronism (PA) impairs their cardiovascular system.

9 P4 and the effects of DPP4 inhibitors on the cardiovascular system.

10 in various tissues and organs, including the cardiovascular system.

11 lterations in the structure of the mammalian cardiovascular system.

12 ange--supposedly mediated by reflexes to the cardiovascular system.

13 mited regenerative capacity of the mammalian cardiovascular system.

14 n factor that is critical for patterning the cardiovascular system.

15 t exercise exerts on atherosclerosis and the cardiovascular system.

16 se, implying important reorganization of the cardiovascular system.

17 s that are involved in the regulation of the cardiovascular system.

18 ntral role in the delicate regulation of the cardiovascular system.

19 cling is critical for normal function of the cardiovascular system.

20 as become a major model for the study of the cardiovascular system.

21 M in general with specific references to the cardiovascular system.

22 the control of vascular tone throughout the cardiovascular system.

23 in the physiology and pathophysiology of the cardiovascular system.

24 of elastic fibers in the skin, eyes, and the cardiovascular system.

25 hanism of disease and redox signaling in the cardiovascular system.

26 as HFHS diets are largely deleterious to the cardiovascular system.

27 en to tissues is the primary function of the cardiovascular system.

28 and has key roles in immune defense and the cardiovascular system.

29 new understanding of how COX-2 protects the cardiovascular system.

30 decreased the anti-inflammatory EETs in the cardiovascular system.

31 chemic diseases, particularly of the cerebro-cardiovascular system.

32 e context of remote organ connections of the cardiovascular system.

33 lic, hematopoietic, immune and, finally, the cardiovascular system.

34 and post-transcriptional events also in the cardiovascular system.

35 (CSE) produces hydrogen sulfide (H2S) in the cardiovascular system.

36 nsin system is an important component of the cardiovascular system.

37 endothelial MEF2 function in the developing cardiovascular system.

38 elopmental and pathological processes in the cardiovascular system.

39 timerin genes, EMILIN-3 was not found in the cardiovascular system.

40 s direct beneficial effects on the embryonic cardiovascular system.

41 nctions they have been shown to exert in the cardiovascular system.

42 n, and the increased oxidative stress in the cardiovascular system.

43 II in the endothelium is detrimental to the cardiovascular system.

44 or to the development and homeostasis of the cardiovascular system.

45 sted whether ozone exposure can modulate the cardiovascular system.

46 actor (NGF) exerts protective effects on the cardiovascular system.

47 the adverse effects of dietary sodium on the cardiovascular system.

48 ck the beneficial effects of estrogen on the cardiovascular system.

49 orted beneficial effects of vitamin D in the cardiovascular system.

50 possess important beneficial activity in the cardiovascular system.

51 ely smooth muscle-specific expression in the cardiovascular system.

52 hat is being explored more frequently in the cardiovascular system.

53 ne monophosphate (cAMP) signaling within the cardiovascular system.

54 Estrogen has pleiotropic effects on the cardiovascular system.

55 major source of superoxide (O(2)(-)) in the cardiovascular system.

56 emerging evidence of its involvement in the cardiovascular system.

57 otential adverse effects of hyperoxia on the cardiovascular system.

58 adipokine levels may be detrimental for the cardiovascular system.

59 n virtually all major functions of NO in the cardiovascular system.

60 understanding of the molecular basis of the cardiovascular system.

61 he immune system, the nervous system and the cardiovascular system.

62 quired for development and adaptation of the cardiovascular system.

63 rimary manifestations in the skin, eyes, and cardiovascular system.

64 damental significance to the function of the cardiovascular system.

65 ic activity in the skeleton and in the renal-cardiovascular system.

66 ifestations primarily in the skin, eyes, and cardiovascular system.

67 the adverse effects of air pollution on the cardiovascular system.

68 mbryogenesis, particularly in the developing cardiovascular system.

69 on the interaction between COVID-19 and the cardiovascular system.

70 ilatory and antiproliferative actions in the cardiovascular system.

71 neficial effects of a high-K(+) diet for the cardiovascular system.

72 y for survival, as well as the health of the cardiovascular system.

73 consumption presents advantageous effects on cardiovascular system.

74 d to identify patient-specific models of the cardiovascular system.

75 ntral pivotal role in the development of the cardiovascular system.

76 off-target adverse effects on the developing cardiovascular system.

77 ighting, that creates pressure stress on the cardiovascular system.

78 ge of endocrine and paracrine effects on the cardiovascular system.

79 ation) on pressures and flows throughout the cardiovascular system.

80 tudies on the effects of testosterone on the cardiovascular system.

81 o the damaging effects of aldosterone on the cardiovascular system.

82 been known to have a range of effects on the cardiovascular system.

83 with a phenotype additionally involving the cardiovascular system.

84 nd highly complementary imaging of the fetal cardiovascular system.

85 o various structures, including those of the cardiovascular system.

86 may potentially impact elastogenesis in the cardiovascular system.

87 arious other congenital abnormalities of the cardiovascular system.

88 ons in the extracellular matrix (ECM) of the cardiovascular system.

89 s been associated with chronic damage to the cardiovascular system.

90 lood is coordinated with the response of the cardiovascular system.

91 modern research into gene regulation in the cardiovascular system.

92 ge of physiological roles, especially in the cardiovascular system.

93 nd necrosis) as they relate to the heart and cardiovascular system.

94 x interaction exists between the nervous and cardiovascular systems.

95 of these sizes may harm the respiratory and cardiovascular systems.

96 entially protecting the immune, nervous, and cardiovascular systems.

97 manifestations in the ocular, skeletal, and cardiovascular systems.

98 and homeostasis of the nervous, immune, and cardiovascular systems.

99 multiple diseases affecting the nervous and cardiovascular systems.

100 t not exclusively affect central nervous and cardiovascular systems.

101 n failure, especially of the respiratory and cardiovascular systems.

102 ypothesized that elevated P(PL) protects the cardiovascular system against high airway pressures and

103 tanding of the anatomy and physiology of the cardiovascular system, along with advances in imaging te

104 y health-related comorbidities involving the cardiovascular system and autoimmune disease.

105 T-cadherin, which is highly expressed in the cardiovascular system and binds only the high-molecular-

106 oRNAs (miRNA) as fine-tune regulators in the cardiovascular system and bone biology has gained accept

107 processes integral to the development of the cardiovascular system and cardiovascular diseases.

108 ction and a variety of other benefits in the cardiovascular system and elsewhere.

109 Effects on the cardiovascular system and endothelial function were asse

110 e mechanistic effects of aging per se on the cardiovascular system and focus on the prolongevity bene

111 the most potent vasoconstrictor in the human cardiovascular system and has remarkably long-lasting ac

112 his novel pathway is widely expressed in the cardiovascular system and is emerging as an important me

113 tabolic control, is crucial for cells of the cardiovascular system and is emerging to play key roles

114 VPO1 is expressed in cells of the cardiovascular system and is secreted into the bloodstre

115 rogress and the growing understanding of the cardiovascular system and its pathophysiology refined al

116 X-1 in platelets and in the remainder of the cardiovascular system and linked them to anti- and pro-t

117 asis and possibly acts as a link between the cardiovascular system and metabolism, especially in meta

118 evalence of birth defects, especially in the cardiovascular system and nervous system.

119 the noncellular component of tissues in the cardiovascular system and other organs throughout the bo

120 dominant apelin peptide isoform in the human cardiovascular system and plasma.

121 reconcile opposing views of n-6 PUFA on the cardiovascular system and present evidence supporting a

122 are based on the architectural design of the cardiovascular system and presume sibling vessels are sy

123 ht into the roles of the KATP channel in the cardiovascular system and suggests novel therapeutic pos

124 ng against, or accelerating, diseases of the cardiovascular system and the eye, two tissues that are

125 malian circulatory system comprises both the cardiovascular system and the lymphatic system.

126 oved our knowledge on the development of the cardiovascular system and the mechanisms underlying card

127 how alcohol affects different aspects of the cardiovascular system and, hence, the overall effects of

128 ge that exists on aldosterone actions in the cardiovascular system and, in providing the translationa

129 roles of nitric oxide in neurotransmission, cardiovascular systems and immune responses.

130 ent and function of the nervous, immune, and cardiovascular systems and kidney, bone, and skeletal mu

131 mias, assessment of cardiac function and the cardiovascular system, and available treatment options.

132 lar processes in the central nervous system, cardiovascular system, and gastrointestinal tract.

133 development, adverse effects on bone and the cardiovascular system, and infertility.

134 d, focusing on somatosensation, hearing, the cardiovascular system, and interactions between TRP chan

135 l described anti-inflammatory actions in the cardiovascular system, and mimetic peptides that retain

136 2 that drives prostacyclin production in the cardiovascular system, and that urinary metabolites do n

137 e (NO) is an important signaling molecule in cardiovascular system, and the sustained release of NO b

138 crosstalk between the adipose tissue and the cardiovascular system, and their possible clinical trans

139 en sensing, delivery, and utilization in the cardiovascular system, and we highlight examples of aber

140 ings of the unique Komodo dragon sensory and cardiovascular systems, and suggest that selective press

141 ne congenital anomaly, 89.5% (88.4-90.6) for cardiovascular system anomalies, 79.1% (76.7-81.3) for c

142 central nervous system, drugs affecting the cardiovascular system, anticancer drugs, antibiotics, an

143 markers that reflect molecular states of the cardiovascular system are central for clinical decision

144 forms supporting their production within the cardiovascular system are not fully understood.

145 abetes mellitus, although its effects on the cardiovascular system are unproved.

146 comprehensive assessment of the right-sided cardiovascular system, assess its interrater and intraob

147 induce protective effects on the kidney and cardiovascular system beyond blood glucose control.

148 ogenitor cells that constitute the heart and cardiovascular system, blood, kidneys, smooth muscle lin

149 Both regulate breathing and the cardiovascular system but in ways that are unclear becau

150 itamin D deficiency may adversely affect the cardiovascular system, but data from longitudinal studie

151 tant intracellular signaling molecule in the cardiovascular system, but its spatiotemporal dynamics i

152 t activates platelets and other cells of the cardiovascular system by cleaving its G-protein-coupled

153 ce-enhancing drugs may have an effect on the cardiovascular system by means of directly altering the

154 nd designed to exploit NO's influence on the cardiovascular system, cancer biology, the immune respon

155 Bloodstream Infections and Infections of the Cardiovascular System, Central Nervous System Infections

156 In the cardiovascular system, changes in oxidative balance can

157 cal relevance of this species of RNA for the cardiovascular system, concentrating mainly on recent fi

158 fect on biological mechanisms related to the cardiovascular system, data on their clinical effects ar

159 ore matching, the overall birth defect rate, cardiovascular system defect rate and nervous system def

160 s: OR = 0.71, 95% CI = 0.57-0.89, P = 0.003; cardiovascular system defects: OR = 0.65, 95% CI = 0.44-

161 The nervous system and cardiovascular system develop in concert and are functio

162 a deficiency in iron, which is required for cardiovascular system development, oxygen homeostasis, a

163 r growth, cell cycle, cell death, cancer and cardiovascular system development.

164 instrumental in further delineating how the cardiovascular system develops and how perturbations in

165 ecent studies of the functions of TSP in the cardiovascular system, diabetes and aging, which placed

166 sociated with 1D blood flow modelling in the cardiovascular system, discuss model encoding standards,

167 Fast VO2 kinetics demands that the cardiovascular system distributes exercise-induced blood

168 n the dlPAG plays a differential role on the cardiovascular system during heat- and cold-mediated noc

169 ng of the physiological control of the fetal cardiovascular system during hypoxic stress.

170 c insults involving both the airways and the cardiovascular system during oxidant-driven inflammatory

171 structural and functional alterations to the cardiovascular system during physiological and premature

172 reproductive tissue remodeling and the renal cardiovascular system during pregnancy.

173 ensin system (RAS) is a key regulator of the cardiovascular system, electrolyte, and water balance.

174 g neurotransmission, inflammatory responses, cardiovascular systems, etc.

175 The cardiovascular system exhibits strong circadian rhythms

176 ding those affecting the nervous system, the cardiovascular system, fertility, immunity, cancer and m

177 Cardiovascular system-focused circulating miRNA expressi

178 e current literature on ROS signaling in the cardiovascular system, focusing on the role of ROS in no

179 Here we discuss macrophages residing in the cardiovascular system, focusing particularly on their de

180 e deletion is embryonic lethal with abnormal cardiovascular system formation, and its role in cardiov

181 n, and glucagon-mediated delivery spares the cardiovascular system from adverse T3 action.

182 the highest recognition of integrins in the cardiovascular system from drugs used to inhibit platele

183 hanism that protects critical tissues of the cardiovascular system from nutrient-induced injury.

184 nergic receptors (ARs) are key regulators of cardiovascular system function that increase blood press

185 Although the cardiovascular system has been a focus of intense study,

186 ibed in failing hearts, autophagy within the cardiovascular system has been characterized widely in c

187 , maturation by glucocorticoids of the fetal cardiovascular system has been ignored.

188 ibed in failing hearts, autophagy within the cardiovascular system has been widely characterized in c

189 role of different micro-RNAs (miRNAs) in the cardiovascular system has been widely recognized.

190 ein O-GlcNAcylation in the regulation of the cardiovascular system has increased rapidly in recent ye

191 ts precise role in various cell types of the cardiovascular system has not been extensively investiga

192 the effects of neurological disorders on the cardiovascular system has only expanded in the past 2 de

193 ential benefits of tomato-rich diets for the cardiovascular system have been related to plasma concen

194 he wideranging functions of microRNAs in the cardiovascular system have provided new perspectives on

195 Lumped parameter models of the cardiovascular system have the potential to assist resea

196 mation on the effects of SHS exposure on the cardiovascular system in animal and pediatric studies, i

197 al opportunities for assessment of the fetal cardiovascular system in both health and disease.

198 Some of these drugs may affect the cardiovascular system in detrimental ways and others per

199 actor Foxc2 is an essential regulator of the cardiovascular system in development and disease.

200 The cardiovascular system in general, and the heart in parti

201 tool to counteract heme toxic effects on the cardiovascular system in hemolytic diseases.

202 enafil treatment directly protects the fetal cardiovascular system in hypoxic development, and that t

203 ms biology between the kidney, skeleton, and cardiovascular system in native and transplant kidney di

204 but the impact of allergic reactions on the cardiovascular system in nonfatal reactions remains poor

205 direct detrimental off-target effects on the cardiovascular system in the developing embryo, which ar

206 paralleling the increased complexity of the cardiovascular system in vertebrates compared with inver

207 uld affect development of fetuses as well as cardiovascular systems in the offspring.

208 ells contribute to important portions of the cardiovascular system including the aorticopulmonary sep

209 Various S1P receptors are present in the cardiovascular system, including cardiac tissue.

210 ogy drugs may adversely affect the heart and cardiovascular system, including causing irreversible ca

211 dentary aging has deleterious effects on the cardiovascular system, including decreased left ventricu

212 f NO that exerts beneficial effects upon the cardiovascular system, including reductions in inflammat

213 s review, we discuss the role of AMPK in the cardiovascular system, including the molecular basis of

214 Vitamin D and calcium may affect the cardiovascular system independently and interactively.

215 The abundance of long noncoding RNAs in the cardiovascular system indicates that they may be part of

216 The patterning of the cardiovascular system into systemic and pulmonic circula

217 The cardiovascular system is affected broadly by severe acut

218 interplay between the adipose tissue and the cardiovascular system is bidirectional, with vascular-de

219 The cardiovascular system is broadly composed of the heart,

220 Real-time imaging of the embryonic murine cardiovascular system is challenging due to the small si

221 ardiac dysfunction, the role of TWEAK in the cardiovascular system is completely unknown.

222 ,25-dihydroxy-vitamin D3; 1,25-VitD3) in the cardiovascular system is controversial.

223 rmation available about mTOR function in the cardiovascular system is related to the role of mTORC1 i

224 The cardiovascular system is subject to hyperlipidaemic, inf

225 Bacterial dissemination via the cardiovascular system is the most common cause of infect

226 The role of TES in the cardiovascular system is unknown.

227 2, a major proinflammatory prostanoid in the cardiovascular system, is a potent stimulus in inducing

228 numerous organ systems, including the lungs, cardiovascular system, kidney, central nervous system, g

229 luid back to the bloodstream, but unlike the cardiovascular system, lacks a centralized pump-the hear

230 Birds have high-pressure cardiovascular systems like mammals but generate nucleat

231 In the cardiovascular system, MAGP1;MAGP2 double knockout mice

232 crease the risk of overall birth defects and cardiovascular system malformation among live births, an

233 y approximately 2.71%, and the proportion of cardiovascular system malformation rose by 0.92% from 20

234 ide (H2S) exhibits beneficial effects in the cardiovascular system, many of which depend on nitric ox

235 ocaine exerts various adverse effects on the cardiovascular system, many times with grave results.

236 iety of stressors on skeletal muscle and the cardiovascular system: mechanical, metabolic, oxidative.

237 In the cardiovascular system, miRNAs have been shown to be crit

238 In the cardiovascular system, mitochondrial ROS have been linke

239 ritical position in the bioenergetics of the cardiovascular system, mitophagy is particularly importa

240 of this study is twofold: to understand how cardiovascular system models can be used to represent a

241 RHC measures with mechanistic computational cardiovascular system models.

242 In the vertebrate cardiovascular system, multiple Notch family receptors a

243 the function of myocardin in the developing cardiovascular system, Myocd(F/F)/Wnt1-Cre(+) and Myocd(

244 biochemistry of Nox enzymes expressed in the cardiovascular system (Nox1, 2, 4, and 5), their roles i

245 5 mug kg(-1)) caused profound effects on the cardiovascular system of anesthetized rats, whereas CfTX

246 chicken embryo the effects on the developing cardiovascular system of changes in oxygenation, nutriti

247 the functioning of both the otolith and the cardiovascular system of the astronauts before and after

248 pravastatin and underlying mechanisms on the cardiovascular system of the hypoxic chicken embryo, a m

249 % O(2)) pregnancy with an antioxidant on the cardiovascular system of the offspring at the end of ges

250 strated to have strong effects on the closed cardiovascular systems of terrestrial vertebrates, with

251 he top 30 journals in the category Cardiac & Cardiovascular Systems of the Web of Science is extremel

252 by severe, early-onset mineralization of the cardiovascular system, often with early postnatal demise

253 and real-time monitoring of pulse signals of cardiovascular system on a smart phone/PC.

254 to the development of the nervous system and cardiovascular system or muscle.

255 t included the major adverse neurological or cardiovascular system or procedure-related event rate (M

256 n from which muscle, bones, kidneys, and the cardiovascular system originate.

257 s for PKD-mediated signaling pathways in the cardiovascular system, particularly in the regulation of

258 but their longer-term adverse effects on the cardiovascular system raise concerns.

259 alterations in function and structure of the cardiovascular system ranging from transient and benign

260 CPAP treatment is accompanied by changes in cardiovascular system-related miRNAs that may potentiall

261 on of Rac1 will be associated with extensive cardiovascular system-related side effects and identify

262 ermore, certain other diseases affecting the cardiovascular system remain prevalent and important cau

263 been established for decades, how the fetal cardiovascular system responds to chronic hypoxia has be

264 ge in heart rate is a major component of the cardiovascular system's ability to adjust cardiac output

265 ltiple developmental programs, including the cardiovascular system, seems to have a significant funct

266 In the cardiovascular system, studies have detected and charact

267 open intervention for diseases affecting the cardiovascular system such as twin-twin transfusion synd

268 in virtually all cell types relevant to the cardiovascular system (such as endothelial cells, cardia

269 physiological and pathological states in the cardiovascular system; such states include myocardial in

270 narily conserved among organisms with modern cardiovascular systems, suggesting that RGS2 arose from

271 caused by the compensatory mechanisms in the cardiovascular system that are activated by 1) higher en

272 Diseases of the cardiovascular system that cause sudden cardiac deaths a

273 SE) is a major H(2)S-producing enzyme in the cardiovascular system that uses cysteine as the main sub

274 During the development of the cardiovascular system, the UPS regulates cell signaling

275 onexcitable tissues, such as the nervous and cardiovascular systems, the kidney and the liver, and ce

276 ficial effects of estrogen in protecting the cardiovascular system through ER-dependent mechanisms wi

277 d that Hx prevented heme-iron loading in the cardiovascular system, thus limiting the production of r

278 autoregulatory malfunction occur within the cardiovascular system; thus, it seems a daunting challen

279 ellular organ that intimately links with the cardiovascular system to accomplish gas exchange.

280 places severe demands on the ability of the cardiovascular system to deliver oxygen to cells.

281 iovascular development and adaptation of the cardiovascular system to hemodynamic stress.

282 n vivo function of ELA peptides in the adult cardiovascular system, to seek evidence for alteration i

283 ide complex at loading rates relevant to the cardiovascular system, varied from the lowest-affinity H

284 physiological roles for Kv7 channels in the cardiovascular system warrant increased attention becaus

285 ed pharmacokinetic (PBPK) model of the human cardiovascular system was incorporated into 58 extended

286 To further determine the role of Klf4 in the cardiovascular system, we herein derived mice deficient

287 a bird's-eye view of S-nitrosylation in the cardiovascular system, we provide a conceptual framework

288 representation of afferent signals from the cardiovascular system, were investigated in 34 medicatio

289 f these exerts the greatest influence on the cardiovascular system when released into circulation in

290 This is exemplified in the cardiovascular system where sGC governs smooth muscle to

291 (KATP) channels are widely expressed in the cardiovascular system, where they regulate a range of bi

292 luding the brain, kidneys, lungs, bones, and cardiovascular system, which becomes apparent with incre

293 This defence is contingent on the fetal cardiovascular system, which in late gestation adopts st

294 This is particularly relevant to the cardiovascular system, which uses mechanical signals fro

295 ly impaired the development of the brain and cardiovascular system, which were associated with gene d

296 nowledge about the actions of H2S within the cardiovascular system with an emphasis on the therapeuti

297 ystem disorder affecting skin, eyes, and the cardiovascular system with progressive pathological mine

298 scuss ectopic calcification processes in the cardiovascular system, with an emphasis on emerging mech

299 ys predicted adverse outcomes in nervous and cardiovascular systems, with more pronounced changes at

300 detection of the effects of diabesity on the cardiovascular system would enable the optimal implement