ライフサイエンスコーパス: arterial blood pressure

1 ody mass index, waist-height ratio, and mean arterial blood pressure).

2 th cirrhosis into BALB/C mice decreased mean arterial blood pressure.

3 cluded apnea, bradycardia and an increase in arterial blood pressure.

4 ges in femoral vascular conductance and mean arterial blood pressure.

5 f the mechanosensitive neurons to changes in arterial blood pressure.

6 nd decreased total peripheral resistance and arterial blood pressure.

7 on of renal medullary function and long-term arterial blood pressure.

8 locomotor activity but no elevation in mean arterial blood pressure.

9 y be critical to the ability of ANP to lower arterial blood pressure.

10 have a physiological role in the control of arterial blood pressure.

11 95% CI, 1.0 to 4.5) increase in resting mean arterial blood pressure.

12 produced a significant increase in RSNA and arterial blood pressure.

13 but not angiotensin II, to modulate resting arterial blood pressure.

14 n with no change in either cardiac output or arterial blood pressure.

15 (P < 0.05), respectively, with no effect on arterial blood pressure.

16 and leg MSNA explains why HDR does not alter arterial blood pressure.

17 stroke volume, which in turn influences the arterial blood pressure.

18 low, sweat rate and SSNA, but did not change arterial blood pressure.

19 into two groups according to changes in mean arterial blood pressure.

20 ressin (VP) release and an acute increase in arterial blood pressure.

21 uctuations of cerebral perfusion pressure or arterial blood pressure.

22 tion as a promising novel mechanism to lower arterial blood pressure.

23 ttenuated high-fat diet-induced elevation in arterial blood pressure.

24 usly with continuous recording of peripheral arterial blood pressure.

25 ctivity continued after the disappearance of arterial blood pressure.

26 ion, alpha-MSH reduced gastric tone and mean arterial blood pressure.

27 eathing, central sympathetic outflow and the arterial blood pressure.

28 Induced hypertension (mean arterial blood pressure, 120 mm Hg) and heparinization d

29 22 vs. 378 +/- 15 beats min(1)) and carotid arterial blood pressures (76 +/- 3 vs. 76 +/- 1 mmHg) we

30 orrelated with diastolic, systolic, and mean arterial blood pressure, a surrogate marker for arterial

31 increases sympathetic nerve activity (SNA), arterial blood pressure (ABP) and breathing.

32 In anaesthetized rats, arterial blood pressure (ABP) and femoral blood flow (FB

33 DPCPX also attenuated the decrease in arterial blood pressure (ABP) and increase in FVC evoked

34 er 9th, 2014), with continuous monitoring of arterial blood pressure (ABP) and intracranial pressure

35 blocked and vagotomized Sprague-Dawley rats, arterial blood pressure (ABP) and respiratory motor outp

36 arotid sinus nerve denervation (CSD) reduces arterial blood pressure (ABP) in SHR.

37 pertonic NaCl produces a greater increase in arterial blood pressure (ABP) than equi-osmotic mannitol

38 t baseline heart rate (HR) was unchanged and arterial blood pressure (ABP) was lowered.

39 diac output (CO) by analysis of a peripheral arterial blood pressure (ABP) waveform has not been defi

40 lin is a ubiquitous peptide that can elevate arterial blood pressure (ABP) yet understanding of the m

41 In four groups of anaesthetized rats, arterial blood pressure (ABP), femoral blood flow (FBF)

42 degree of CBR control over heart rate (HR), arterial blood pressure (ABP), muscle sympathetic nerve

43 n of central chemoreceptors by CO2 increases arterial blood pressure (ABP), sympathetic nerve activit

44 No cases of sustained resumption of arterial blood pressure activity were recorded, and no i

45 study evaluated whether a reduction in mean arterial blood pressure aggravates regional brain edema

46 lness was characterized by a decline in mean arterial blood pressure, an increase in pulse and respir

47 xaemia led to a progressive increase in mean arterial blood pressure and a fall in heart rate.

48 lective compound 85 showed no effect on mean arterial blood pressure and affected the heart rate duri

49 alt diet in some species results in elevated arterial blood pressure and alterations in vascular smoo

50 -enhanced (PinT) foals showed elevated basal arterial blood pressure and baroreflex threshold, reduce

51 Systemic arterial blood pressure and bleeding time were unchanged

52 s glucose infusion on the diurnal pattern of arterial blood pressure and blood glucose, as well as pa

53 In 19 young men, MSNA (microneurography), arterial blood pressure and brachial artery blood flow (

54 Fetuses were first instrumented to measure arterial blood pressure and carotid artery blood flow an

55 assessed via the phase relationship between arterial blood pressure and cerebral blood flow velocity

56 Epinephrine increases arterial blood pressure and coronary perfusion during CP

57 if cardiopulmonary resuscitation-targeted to arterial blood pressure and coronary perfusion pressure

58 lloon catheter with continuous monitoring of arterial blood pressure and electroencephalographic acti

59 ins had lower plasma cortisol concentration, arterial blood pressure and femoral blood flow relative

60 ose relate to the ontogenic changes in fetal arterial blood pressure and fetal plasma cortisol concen

61 n system (RAS) is a principal determinant of arterial blood pressure and fluid and electrolyte balanc

62 However, arterial blood pressure and forearm vascular resistance

63 yncope: characterised by sudden decreases in arterial blood pressure and heart rate associated with i

64 At 6 days of postnatal life, arterial blood pressure and heart rate were monitored an

65 Food intake, arterial blood pressure and heart rate were not altered

66 Arterial blood pressure and heart rate were not altered

67 [OH]D) concentration is associated with high arterial blood pressure and hypertension risk, but wheth

68 gical or biochemical measure, including mean arterial blood pressure and inotrope use during the 48 h

69 bral hemorrhage, the management of increased arterial blood pressure and intracranial pressure, the t

70 on of AIP into the PVN significantly reduced arterial blood pressure and lumbar sympathetic nerve dis

71 Heart rate (HR), arterial blood pressure and MCA V(mean) were continuousl

72 Furthermore, endogenous opioids, arterial blood pressure and MSNA do not appear to modula

73 There was no significant relation between arterial blood pressure and MSNA with MPP during either

74 he association of systolic and mean invasive arterial blood pressure and noninvasive blood pressure w

75 ison between concurrent measures of invasive arterial blood pressure and noninvasive blood pressure.

76 arson's correlation coefficient between mean arterial blood pressure and processed near-infrared spec

77 cursor contribute to CNS-mediated control of arterial blood pressure and salt and water balance and m

78 , biomarkers of endothelial cell activation, arterial blood pressure and subclinical atherosclerosis

79 , no consistent relationship existed between arterial blood pressure and sympathetic activity or LVM

80 is complex and results in a drastic fall in arterial blood pressure and sympathoinhibition.

81 GC-A) receptor participates in regulation of arterial blood pressure and vascular volume.

82 BMI, 2) fasting insulin, 3) systolic or mean arterial blood pressure, and 4) total cholesterol to HDL

83 e ionotropy, angiogenesis, reduction of mean arterial blood pressure, and apoptosis.

84 ava, rectal temperatures, electrocardiogram, arterial blood pressure, and arterial oxygen saturation

85 grip (IHG) exercise increases sweat rate and arterial blood pressure, and both remain elevated during

86 After adjustment for age, gender, mean arterial blood pressure, and current smoking status, the

87 No differences were found in temperature, arterial blood pressure, and oxygenation between alpha-s

88 by hemorrhagic hypotension (2 mL/100 g, mean arterial blood pressure approximately 35-40 mm Hg) for 9

89 lood volume and subsequent titration of mean arterial blood pressure approximately 40 mm Hg).

90 he prepartum elevation in fetal cortisol and arterial blood pressure are delayed relative to other sp

91 imit of autoregulation and not absolute mean arterial blood pressure are independently associated wit

92 c blood pressure, and high systolic and mean arterial blood pressures are associated with a higher pr

93 Cerebral blood flow (CBF) is controlled by arterial blood pressure, arterial CO2, arterial O2, and

94 femoral vascular conductance (FVC, FBF/mean arterial blood pressure), as well as calf muscle blood f

95 reductions in intraocular pressure and mean arterial blood pressure, as might be expected with a lac

96 Systolic, diastolic, and mean arterial blood pressures, as well as pulse rates, were r

97 emorrhagic hypotension, maintaining the mean arterial blood pressure at 50-60 mm Hg for 30 mins (n =

98 Mean arterial blood pressure at age 13-16 years was lower in

99 diopulmonary bypass did not differ, the mean arterial blood pressure at the limit of autoregulation a

100 Arterial blood pressure (automated auscultation) and fem

101 ion of 5 days (range, 8 hrs to 9 days); mean arterial blood pressure averaged 118 mm Hg, and peak sys

102 icted (TinP) foals showed no change in basal arterial blood pressure, baroreflex threshold or adrenoc

103 Waveforms of intracranial pressure and arterial blood pressure, baseline Glasgow Coma Scale and

104 The longest period of cessation of arterial blood pressure before resumption was 89 seconds

105 Excursions of mean arterial blood pressure below the limit of autoregulatio

106 Excursions of mean arterial blood pressure below the lower limit of autoreg

107 barosensory activity, which was indicated by arterial blood pressure (BLPR).

108 orts, MA caused a transient increase in mean arterial blood pressure, body temperature and respirator

109 ust reductions in heart rate (HR), diastolic arterial blood pressure (BP(D)), and cardiac output (CO)

110 Arterial blood pressure (BP) and heart rate assessments

111 ally maintains exercise-induced increases in arterial blood pressure (BP) and muscle sympathetic nerv

112 Short-term and tonic regulation of arterial blood pressure (BP) differ in premenopausal wom

113 Signals of arterial blood pressure (BP) from a Finapres photoplethy

114 ozone) and heat resulted in perturbation of arterial blood pressure (BP) in persons with type 2 diab

115 changes for systemic circulatory control of arterial blood pressure (BP) is unknown.

116 tonomic nervous system (ANS) contribution to arterial blood pressure (BP) maintenance in humans is re

117 The kidney is an important organ for arterial blood pressure (BP) maintenance.

118 temporal pattern of heart rate (HR) and mean arterial blood pressure (BP) responses to selective caro

119 Skin SNA and arterial blood pressure (BP) were continuously measured.

120 esistance, genioglossus muscle activity, and arterial blood pressure (BP) were measured before and af

121 in renal sympathetic nerve discharge (RSND), arterial blood pressure (BP), and heart rate (HR).

122 we report that aP2-HSD1 mice also have high arterial blood pressure (BP).

123 minute ventilation (VI), heart rate (HR) and arterial blood pressure (BP).

124 ct brain perfusion in the face of changes in arterial blood pressure, but little is known about indiv

125 Elevations in fetal arterial blood pressure, but not femoral vascular resist

126 ation of 10 and 30 mg/kg SKA-31 lowered mean arterial blood pressure by 4 and 6 mm Hg in normotensive

127 of arterial blood significantly reduced mean arterial blood pressure by 50% without decreasing arteri

128 Dexamethasone treatment elevated fetal mean arterial blood pressure by 8.1 +/- 1.0 mmHg (P < 0.05),

129 NO produced centrally influences the resting arterial blood pressure by attenuating mechanisms involv

130 P=0.007), but with only modest falls in mean arterial blood pressure (by 4 mm Hg; P=0.004).

131 c drive is altered in normal pregnancy, when arterial blood pressure can be normal or relatively low.

132 Arterial blood pressure can often fall too low during de

133 ssibly in the absence of changes in systemic arterial blood pressure, can be detected.

134 Arterial blood pressure, cardiac output, tissue oxygen t

135 aemia induced significant increases in fetal arterial blood pressure, carotid blood flow and carotid

136 art rate variability, intracranial pressure, arterial blood pressure, cerebral perfusion pressure, an

137 included vital signs, left atrial pressure, arterial blood pressure, cerebral perfusion/oximetry, VT

138 mass index, change in body mass index, mean arterial blood pressure, change in mean blood pressure,

139 ered (strain B) or decreased (strain C) mean arterial blood pressures compared to their corresponding

140 hAT expression in CD4(+) cells have elevated arterial blood pressure, compared to littermate controls

141 eflex buffering is an important mechanism in arterial blood pressure control.

142 sure after starting CPB (area above the mean arterial blood pressure curve >0) and were significantly

143 a clinically significant area above the mean arterial blood pressure curve serves as a predictor of p

144 essure by calculating an area above the mean arterial blood pressure curve.

145 x before challenge with E. coli altered mean arterial blood pressure, cytokine levels, and the NO lev

146 erial baroreflexes, and leads to lability of arterial blood pressure, damage to cardiac myocytes, and

147 r adjustment for age, sex, race, 6-year mean arterial blood pressure, diabetes, and other stroke risk

148 Mean velocity index based on arterial blood pressure did not reach statistical signif

149 Although the average mean arterial blood pressure during cardiopulmonary bypass di

150 e beneficial epinephrine-induced increase in arterial blood pressure during CPR.

151 -mm Hg (95% CI, 0.5 to 9.1) increase in mean arterial blood pressure during exercise in persons with

152 ed(s) to account for the lack of increase in arterial blood pressure during HDR.

153 ood pressure overestimated systolic invasive arterial blood pressure during hypotension.

154 melatonin on sympathetic nerve activity and arterial blood pressure during orthostatic stress.

155 udy was to identify whether the elevation in arterial blood pressure during post-exercise ischaemia c

156 nsurvivors." The minimum value for diastolic arterial blood pressure during the first 24 hours was in

157 e, but not female, offspring had higher mean arterial blood pressure (effect size, +16 [9-21] mm Hg;

158 microneurography at the peroneal nerve, and arterial blood pressure, electrocardiogram, and central

159 Invasive arterial blood pressure, electrocardiogram, and oxygen s

160 ide (ETCO2), oxygen saturation (SaO2), intra-arterial blood pressure, electrocardiography (EKG), and

161 kin blood flux (laser-Doppler flowmetry) and arterial blood pressure (Finapres) was used as an index

162 m Hg and subsequent maintenance of this mean arterial blood pressure for another 15 minutes.

163 Heart rate, arterial blood pressure, forearm and calf blood flow, an

164 01 to 0.37 +/- 0.01 mm (P < 0.001), and mean arterial blood pressure from 83 +/- 1 to 78 +/- 2 mmHg (

165 Measurement of blood gases, mean arterial blood pressure, functional capillary density, a

166 The successful maintenance of a target mean arterial blood pressure > or =70 mm Hg was achieved with

167 Mice were resuscitated (mean arterial blood pressure>50 mm Hg for 30 min) with lactat

168 dependent from follow-up interval, sex, mean arterial blood pressure, HbA(1c), initial renal dysfunct

169 observed in controls; normalization of mean arterial blood pressure, heart rate, and increased survi

170 Mean arterial blood pressure, heart rate, and survival were m

171 ), muscle sympathetic nerve activity (MSNA), arterial blood pressure, heart rate, forearm blood flow

172 Mean arterial blood pressure, heart rate, intracranial pressu

173 Arterial blood pressure, heart rate, muscle sympathetic

174 Mean arterial blood pressure, heart rate, pulmonary artery pr

175 noninvasively monitored cardiac index, mean arterial blood pressure, heart rate, pulse oximetry, and

176 Likewise, arterial blood pressure, heart rates, and glomerular fil

177 vasopressin produced significant changes in arterial blood pressure, hind limb vascular resistance a

178 The apelin-apelin receptor system affects arterial blood pressure homeostasis; however, the centra

179 rd protection against potential decreases in arterial blood pressure in an effort to preserve orthost

180 Reduced caloric intake decreases arterial blood pressure in healthy individuals and impro

181 dance threshold device (ITD) causes elevated arterial blood pressure in humans.

182 (100 mg/kg i.p.) significantly lowered mean arterial blood pressure in normotensive and hypertensive

183 HDR elicited significant reductions in mean arterial blood pressure in older (Delta-6 +/- 1 mm Hg; P

184 PT tended to cause a larger increase in mean arterial blood pressure in older men (older (O): 16 +/-

185 fects on intestinal water retention and mean arterial blood pressure in rats, but only at much higher

186 creased endothelial cell size, and increased arterial blood pressure in S4(-/-) mice.

187 chanisms governing the ontogenic increase in arterial blood pressure in the horse fetus may mature mu

188 mortality (p < 0.001) than systolic invasive arterial blood pressure in the same range (</=70 mm Hg).

189 ed mouse cardiac myocytes and did not affect arterial blood pressure in vivo in mice.

190 ted with lower systolic, diastolic, and mean arterial blood pressures in Gabon (2-tailed P<0.001, una

191 n beats per minute, divided by the change in arterial blood pressure, in mmHg) or pulse interval resp

192 All patients had continuous monitoring of arterial blood pressure, intracranial pressure, and cere

193 For every period, mean values (+/- SDs) of arterial blood pressure, intracranial pressure, pressure

194 Arterial blood pressure is a major determinant of region

195 When mean arterial blood pressure is below the lower limit of auto

196 Arterial blood pressure is controlled by vasodilatory fa

197 ls as inputs (intracranial pressure and mean arterial blood pressure) is an additional asset.

198 EY POINTS: Dysfunctions in CNS regulation of arterial blood pressure lead to an increase in sympathet

199 e to renal disease by causing an increase in arterial blood pressure leading to glomerular injury and

200 nce on the effects of periodontal therapy on arterial blood pressure, leucocyte counts, fibrinogen, t

201 etting by low systolic (</=90 mm Hg) or mean arterial blood pressure (</=65 mm Hg) accompanied by sig

202 O2), arterial oxygen saturation (SaO2), mean arterial blood pressure (MABP) and cardiac R-R interval

203 awake and freely moving rats increased mean arterial blood pressure (MABP) in a biphasic pattern: an

204 The effect of BCCAo on mean arterial blood pressure (MABP) was also measured.

205 n inhibitor of NO production, increased mean arterial blood pressure (MABP, Delta = +18 to 26 mmHg),

206 Mean arterial blood pressure (MAP) and both lumbar SNA (LSNA)

207 died the effects on heart rate (HR) and mean arterial blood pressure (MAP) of electrically stimulatin

208 ring intracavernosal pressure (ICP) and mean arterial blood pressure (MAP) upon electrical stimulatio

209 A vasopressor was administered if the mean arterial blood pressure (MAP) was less than 60 mm Hg aft

210 n the middle cerebral artery (MCAv) and mean arterial blood pressure (MAP) were measured for determin

211 hesized to have distinct effects on the mean arterial blood pressure (MAP) were used.

212 a intrathecal fentanyl: (a) reduced the mean arterial blood pressure (MAP), heart rate and ventilator

213 Mean arterial blood pressure (MAP), P(ETCO2), middle cerebral

214 monary artery pressure (PAP, in mm Hg), mean arterial blood pressure (MAP, in mm Hg), and indexed car

215 Orthostatic intraocular pressure and mean arterial blood pressure may be a helpful early screening

216 In rats receiving placebo, mean arterial blood pressure (MBP) and heart rate (HR) were d

217 Noninvasive blood pressure and invasive arterial blood pressure mean arterial pressures showed b

218 Mean arterial blood pressure measured in anesthetized rats in

219 Systolic and/or diastolic and mean arterial blood pressures, measured directly by femoral a

220 vasive blood pressure measurement with intra-arterial blood pressure measurement in critically ill pa

221 aging other critical illnesses suggest intra-arterial blood pressure measurement is preferred over au

222 nstitution and others in preference to intra-arterial blood pressure measurement remained prevalent.

223 ral artery was cannulated for measuring mean arterial blood pressure, measuring heart rate, and blood

224 st compressions for >/=1 minute and invasive arterial blood pressure monitoring before and during CPR

225 Mean proximal arterial blood pressure (MPABP) was monitored with a can

226 s of 27,022 simultaneously measured invasive arterial blood pressure/noninvasive blood pressure pairs

227 rds term in the horse fetus, the increase in arterial blood pressure occurs together with reductions

228 line infusion caused a sustained increase in arterial blood pressure of 10 mmHg (P < 0.0001), reverse

229 y 14 +/- 6 % (P < 0.01) despite increases in arterial blood pressure of 15 mmHg, resulting in an ~60

230 llowed by blood withdrawal to achieve a mean arterial blood pressure of 30 mm Hg for 90 mins.

231 l hemorrhage over 15 minutes to reach a mean arterial blood pressure of 35-40 mm Hg and subsequent ma

232 d mature rats by withdrawing blood to a mean arterial blood pressure of 50 mm Hg.

233 ered and animals were resuscitated to a mean arterial blood pressure of 70 mm Hg until t=420 mins.

234 ensitivity was defined as a decrease in mean arterial blood pressure of more than 5 mm Hg during low-

235 d significant increases in systolic and mean arterial blood pressures of profilin 1 mice starting at

236 increase cardiac output but reduce systemic arterial blood pressure only modestly.

237 trated no significant changes in either mean arterial blood pressure or heart rate in telemeterized r

238 emic cardiovascular parameters, such as mean arterial blood pressure or heart rate; however, it maxim

239 Neither losartan nor divalinal affected arterial blood pressure or significantly altered the amy

240 as associated significantly with higher mean arterial blood pressure (P > .001 for trend).

241 transient tachycardia and a biphasic caudal arterial blood pressure (PCA) response that are in direc

242 larger concurrent CRVE, whereas higher mean arterial blood pressure (per 5 mmHg: beta = -0.36; 95% C

243 vessels to appropriately react to changes in arterial blood pressure (pressure reactivity) is impaire

244 ood flow (femoral vein thermodilution), mean arterial blood pressure (radial artery catheter), and pl

245 sistance arteries and is required for normal arterial blood pressure regulation.

246 Similarly, regardless of whether mean arterial blood pressure remained elevated or was reduced

247 sodium nitroprusside to increase or decrease arterial blood pressure, respectively.

248 Sympathetic nerve activity and arterial blood pressure responses to static hindlimb mus

249 In four subjects, arterial blood pressure resumed following cessation of a

250 Mean arterial blood pressures, resuscitation volumes, blood g

251 ring post-exercise ischaemia even after mean arterial blood pressure returned to the pre-IHG exercise

252 Arterial blood pressure rises at apnea termination, and

253 ent [sbeta] = -0.311; P < .001), higher mean arterial blood pressure (sbeta = -0.085; P < .001), a mo

254 rves was removed by partialization using the arterial blood pressure signal which represented barorec

255 de a novel method for precisely guiding mean arterial blood pressure targets during cardiopulmonary b

256 PH would require less volume to restore mean arterial blood pressure than lactated Ringer's or Hexten

257 LeTx increased mean arterial blood pressure throughout the period of LPS inf

258 venous occlusion plethysmography) and intra-arterial blood pressure to quantify local vasodilatation

259 ontribute to the ontogenic increase in fetal arterial blood pressure towards term in the horse.

260 and impedance cardiogram (dZ/dt) along with arterial blood pressure tracings were digitized during e

261 uring saline led to significant increases in arterial blood pressure, umbilical blood flow and umbili

262 e the understanding of baroreflex control of arterial blood pressure under this thermal condition.

263 PNPH but not Hextend improved mean arterial blood pressure vs. lactated Ringer's (p<.05).

264 s of an ICU admission, the minimum diastolic arterial blood pressure was a hemodynamic variable that

265 on and the duration and degree to which mean arterial blood pressure was below the autoregulation thr

266 ol was attenuated and conscious resting mean arterial blood pressure was elevated from 96 +/- 2 mm Hg

267 During 3 weeks of DOCA-salt treatment, arterial blood pressure was increased significantly in w

268 Mean arterial blood pressure was lower in all treatment group

269 In seven subjects mean arterial blood pressure was lowered (approximately 8 mmH

270 he middle cerebral artery, during which mean arterial blood pressure was maintained at normotension (

271 Arterial blood pressure was measured with arterial cathe

272 Mean arterial blood pressure was monitored for 18 hrs, and su

273 Mean arterial blood pressure was normal in the NA group; seve

274 Correlation analysis revealed that arterial blood pressure was positively related with plas

275 However, arterial blood pressure was preserved and left ventricul

276 Arterial blood pressure was recorded chronically in cons

277 Mean arterial blood pressure was reduced during the early rep

278 Moreover, in a separate protocol, arterial blood pressure was reduced via steady-state adm

279 Mean arterial blood pressure was significantly increased only

280 to 7 +/- 1 bursts (15 s)(-1)), whereas mean arterial blood pressure was slightly reduced (104 +/- 4

281 In naive rats, mean arterial blood pressure was temporally correlated with L

282 the exercising muscle vasculature, systemic arterial blood pressure was well preserved.

283 Surface ECG and peripheral arterial blood pressure waveform via arterial line were

284 Intracranial pressure and arterial blood pressure waveforms were low-pass filtered

285 Absence of slow arterial blood pressure waves (odds ratio, 2.7; p < 0.00

286 on, bleeding time (BT), heart rate, and mean arterial blood pressure were assessed.

287 Higher systolic blood pressure and mean arterial blood pressure were associated with a higher pr

288 nscutaneous carbon dioxide tension, and mean arterial blood pressure were higher in survivors than in

289 muscle sympathetic nerve activity (MSNA) and arterial blood pressure were measured in 19 healthy subj

290 on value and the AV-ECMO flow rate) and mean arterial blood pressure were not significantly changed.

291 tput, systemic vascular resistance, and mean arterial blood pressure were unchanged.

292 Blood glucose, serum lipid levels, and arterial blood pressure were within normal range in trea

293 Mean arterial blood pressures were 90.1 +/- 18.5 mm Hg supine

294 Heart rate and systolic, diastolic, and mean arterial blood pressures were measured before, during, a

295 vity, adrenal sympathetic nerve activity and arterial blood pressure whereas equi-osmotic mannitol/so

296 ed vasoactive drugs to achieve a target mean arterial blood pressure with 82 centers (68.9%) employin

297 e mechanisms regulating an increase in fetal arterial blood pressure with advancing gestational age r

298 his study are to compare real-world invasive arterial blood pressure with noninvasive blood pressure,

299 nstrated an improved lipid profile and lower arterial blood pressure, with less requirement for lipid

300 by peak exercise cardiac power output (mean arterial blood pressure x cardiac output) and functional