ライフサイエンスコーパス: hemodynamics

1 ed because of injection errors or mismatched hemodynamics.

2 ere were no significant differences in valve hemodynamics.

3 terized by disturbed systemic and splanchnic hemodynamics.

4 erial echocardiography and terminal invasive hemodynamics.

5 edema on imaging and more deranged cerebral hemodynamics.

6 and thus enables assessment of microvascular hemodynamics.

7 lular interactions in modeling microvascular hemodynamics.

8 l decontamination with rifaximin may improve hemodynamics.

9 sh the relationship with concurrent invasive hemodynamics.

10 improvements in global cardiac function and hemodynamics.

11 nship holds for acute lung injury or altered hemodynamics.

12 nal resuscitation (CR) that restores central hemodynamics.

13 rast causes small but significant changes in hemodynamics.

14 evealed differential contribution of PVCs to hemodynamics.

15 plete re-establishment of physiological-like hemodynamics.

16 2 (34)] and had a higher GCS, though similar hemodynamics.

17 cal and pathological alterations in coronary hemodynamics.

18 Both VM and VM + LT improve pulmonary hemodynamics.

19 toms, functional capacity, and biventricular hemodynamics.

20 how different target temperatures may affect hemodynamics.

21 ncy coupling of temporal changes in cerebral hemodynamics.

22 inflammation, and permeability and improved hemodynamics.

23 in immediate event outcomes or intra-arrest hemodynamics.

24 th right ventricular dysfunction or unstable hemodynamics.

25 statuses by using treatment, diagnosis, and hemodynamics.

26 s, is associated with alterations in cardiac hemodynamics.

27 similar overall echocardiographic findings, hemodynamics, 6MWD and NT-proBNP at baseline, and unadju

28 n the coupling between electrophysiology and hemodynamics, a phenomenon referred to as "neurovascular

29 VAD implantation, and 54 (61%) had optimized hemodynamics after LVAD speed adjustment.

30 Improvement in coronary hemodynamics after TAVI was most pronounced in patients

31 enables monitoring of early changes in tumor hemodynamics after vascular targeted therapy.

32 tion may be advantageous in achieving better hemodynamics after ViV.

33 targets for implantation that would improve hemodynamics after ViV.

34 rt specific implantation targets to optimize hemodynamics after ViV.

35 fibrosis and a decline in strain and overall hemodynamics, all of which were mitigated by DAPA treatm

36 Accordingly, based on hemodynamics alone, Impella provides the optimal form of

37 omated evaluation of volumetric intra-aortic hemodynamics alterations from 4D flow MRI in patients wi

38 Whereas admission hemodynamics and angiographic findings were all well-bal

39 ttle is known about the relationship between hemodynamics and brain injury.Objectives: To analyze the

40 These benefits may be related to effects on hemodynamics and cardiac remodeling.

41 besity has adverse effects on cardiovascular hemodynamics and cardiac structure and function, and inc

42 Well established approaches modifying hemodynamics and cell biology by neurohumoral receptor b

43 administration, showing more stable cerebral hemodynamics and cerebral oxygen metabolism to the same

44 ere used to assess the impact of AC on valve hemodynamics and clinical outcomes, respectively.

45 ostheses have been proposed to improve valve hemodynamics and clinical outcomes.

46 mpact of AC after bioprosthetic AVR on valve hemodynamics and clinical outcomes.

47 gical valves, and its association with valve hemodynamics and clinical outcomes.

48 etic aortic valve replacement (AVR) on valve hemodynamics and clinical outcomes.

49 supraspinal vasomotor pathways affects basal hemodynamics and contributes to the development of auton

50 of work has been dedicated to the effects of hemodynamics and cytokines on leukocyte adhesion and tra

51 increased the 24 h survival rates, improved hemodynamics and decreased the levels of creatine kinase

52 ts to examine their relationships to cardiac hemodynamics and determine whether exertional arterial s

53 ociation between baseline or discharge valve hemodynamics and development of HALT at 30 days.

54 To study hemodynamics and drug deposition in such vessels we comb

55 ter, propensity score-matched study compared hemodynamics and early clinical outcomes in 246 patients

56 Invasive hemodynamics and echocardiography were used to assess re

57 risk for surgery was associated with durable hemodynamics and excellent clinical outcomes.

58 Altered pulmonary hemodynamics and fluid flow-induced high shear stress (H

59 fluid dynamics provides an estimate of local hemodynamics and fractional flow reserve.

60 pulmonary exercise test to assess changes in hemodynamics and gas exchange during exercise.

61 non-invasive quantitative measures of tissue hemodynamics and hypoxic status.

62 elated to exertion can influence a patient's hemodynamics and increase the severity of many cardiovas

63 le in terms of vascular morphology, emergent hemodynamics and intravascular oxygenation.

64 Baseline in vivo hemodynamics and isolated muscle studies showed that cTn

65 e demonstrated differences in postprocedural hemodynamics and long-term clinical outcomes.

66 ng of this artifact correlates with invasive hemodynamics and mechanical aortic valve artifacts.

67 brane oxygenation impact on macrocirculatory hemodynamics and microcirculation in patients with refra

68 nderstand how arousal state impacts cerebral hemodynamics and neurovascular coupling, we monitored ne

69 ategies currently available to improve valve hemodynamics and outcomes in this population.

70 ft ventricular ratio correlate with invasive hemodynamics and outcomes measures, and EI can accuratel

71 Hemodynamics and outcomes were poorest amongst patients

72 Preoperative hemodynamics and overall pulmonary atresia growth were s

73 n this study, we sought to determine if lung hemodynamics and pathological changes in Mtb infected ce

74 f chronic cerebral hypoperfusion on cerebral hemodynamics and perivascular nerve density in a rat mod

75 Shape measures correlated with invasive hemodynamics and PH outcome measures (PH-related hospita

76 VM and VM + LT both improve pulmonary hemodynamics and prognosis in PoPH.

77 rdiectomy with improvement in cardiovascular hemodynamics and resolution of symptoms with no 30-day m

78 on and recruitment maneuvers while measuring hemodynamics and respiratory mechanics.

79 V) systolic and diastolic function and valve hemodynamics and right ventricular (RV) assessment, as w

80 en and echocardiographic indicators of worse hemodynamics and right ventricular dysfunction.

81 on points strongly correlated with pulmonary hemodynamics and RV dysfunction.

82 ng, with attendant improvements in pulmonary hemodynamics and RV performance, and might offer therape

83 C-mediated PANX1 function in normal vascular hemodynamics and suggests that Tyr(198)-phosphorylated P

84 ht ventricular ejection time correlated with hemodynamics and survival (P<0.05) and tended to correla

85 left ventricular dimensions correlated with hemodynamics and survival (P<0.05).

86 mary estimates on the endpoints of pulmonary hemodynamics and survival in patients with PoPH, treated

87 hotoplethysmography, the study of peripheral hemodynamics and the effect of autonomic nervous system

88 We evaluated the effect of AS on coronary hemodynamics and the immediate effect of TAVI.

89 he protective proprieties of PDE5is on renal hemodynamics and the molecular mechanisms involved.

90 An integrated understanding of the hemodynamics and tissue mechanics regulating this proces

91 l membrane oxygenation could rapidly restore hemodynamics and tissue perfusion and reduce myocardial

92 cotransporter 2 (SGLT2) inhibitor, on renal hemodynamics and tubular functions in anesthetized non-d

93 ever, the relationship between resting-state hemodynamics and underlying neural activity has not been

94 Balloon inflation uniformly improved hemodynamics and was associated with a 59% rate of retur

95 uscitation initiation had lower intra-arrest hemodynamics and worse event outcomes than those who wer

96 , N-terminal-pro-B-type natriuretic peptide, hemodynamics) and lung-transplantation-free survival.

97 h favorable neurologic outcome, intra-arrest hemodynamics, and cerebral and myocardial mitochondrial

98 We compared TAVR and SAVR for PPM, hemodynamics, and clinical, and functional outcomes thro

99 w mortality and complication rates, improved hemodynamics, and excellent functional and quality-of-li

100 icle focuses on the embryologic development, hemodynamics, and imaging features to enable a timely di

101 eing adjusted for age, PAH subtype, invasive hemodynamics, and N-terminal pro-brain natriuretic pepti

102 istics, cardiac structure/function, invasive hemodynamics, and outcomes (eg, phenogroup 3 had an incr

103 tcomes, and for those who had SCPC, anatomy, hemodynamics, and perioperative clinical outcomes were c

104 st of our understanding of cardiac function, hemodynamics, and physiological limits to body size.

105 mes included procedural complications, valve hemodynamics, and quality of life assessment.

106 es of temporal relationships among BP, renal hemodynamics, and renal function demonstrate that sponta

107 n, functional capacity, biomarkers, invasive hemodynamics, and right ventricular functional indices,

108 ry data to analyze clinical characteristics, hemodynamics, and treatment responses in patients with t

109 stolic function, right ventricular function, hemodynamics, and valvular regurgitation.

110 s, did not significantly affect aortic valve hemodynamics (aortic valve gradients or area), and was a

111 Abnormal tumor hemodynamics are a critical determinant of a tumor's mic

112 Coronary hemodynamics are influenced by aortic valve stenosis rem

113 Ventricular hemodynamics are then quantified by numerically solving

114 bolic correlates of these altered functional hemodynamics as a function of developmental age.

115 cal findings, microvascular function, global hemodynamics assessed with echocardiography, and serolog

116 y of 150 heart failure patients, we measured hemodynamics at baseline and after administration of iod

117 the brain requires us to monitor distributed hemodynamics at high spatial and temporal resolution in

118 lic exercise testing, chest radiography, and hemodynamics before intervention were compared with repe

119 t pulmonary blood flow, interstage outcomes, hemodynamics before SCPC, and acute postoperative outcom

120 Postoperative hemodynamics, biopsy-proven acute rejections, and mortal

121 2 hours after hemorrhagic shock, we measured hemodynamics, blood gases, acid-base status, metabolism,

122 testing with invasive monitoring to measure hemodynamics, blood gases, and gas exchange during exerc

123 val rate, autonomic nervous system activity, hemodynamics, brain perfusion, catecholamine release, an

124 ement conduit configurations have comparable hemodynamics but differ in biomechanical performance, wi

125 F) by enhancing cGMP signaling and improving hemodynamics, but real-world data on potential efficacy

126 e the influence of side branches on coronary hemodynamics by comparing shear stress between coronary

127 hours of resuscitation, datasets comprising hemodynamics, calorimetry, blood gases, cytokines, and c

128 fying associations between these factors and hemodynamics can be difficult due to the multitude of co

129 Quantitative assessment of conjunctival hemodynamics can potentially be useful for evaluation of

130 functional measures with invasive pulmonary hemodynamics, cardiac structure and function, and N-term

131 study, we investigated the variation of the hemodynamics caused by patient-specific structural arter

132 Brain hemodynamics (cerebral and regional cerebral blood flow)

133 l during unstressed conditions such as rest, hemodynamics classically become abnormal during stressor

134 polymers, and have the biocompatibility and hemodynamics comparable to tissue substitutes.

135 -treated group displayed moderately improved hemodynamics compared to rats in the control group 1 h a

136 in a mean (SD) TBV loss of 15.4% (6.0%) with hemodynamics consistent with class I hemorrhagic shock.

137 in a mean (SD) TBV loss of 16.7% (3.3%) with hemodynamics consistent with class I hemorrhagic shock.

138 ith a mean (SD) TBV loss of 27.9% (3.4%) and hemodynamics consistent with class II hemorrhagic shock.

139 nt and Transplantation Network database with hemodynamics consistent with POPH (defined as mean pulmo

140 ubgroup was identified with resting invasive hemodynamics consistent with pulmonary vascular disease.

141 Spatiotemporal hemodynamics could be modeled by convolving this neural

142 tion of patients referred for invasive valve hemodynamics decreased from 47% pre-CQI to 19% post-CQI

143 d albuminuria without any change in systemic hemodynamics, despite persistent loss of podocyte functi

144 contemporary review of the pathophysiology, hemodynamics, diagnostic assessment, and therapeutic app

145 d to impart high accuracy in resolving tumor hemodynamics during bevacizumab therapy in two types of

146 rterial compliance and elastance and central hemodynamics during exercise.

147 tery disease, comorbidities, and/or impaired hemodynamics during high-risk percutaneous coronary inte

148 al disease have low sensitivity, and altered hemodynamics during the LT surgery can unmask latent car

149 n also enables characterization of non-tumor hemodynamics (e.g. brain), other preclinical disease mod

150 racted demographics, clinical data, invasive hemodynamics, echocardiography, and vital status for all

151 Measurements of hemodynamics, electrocardiography, biochemistry, blood g

152 quality of life, left ventricular function, hemodynamics, endothelial function, and biomarkers.

153 ad no significant impact on overall cerebral hemodynamics, epinephrine boluses transiently improved c

154 SVR on the hepatic, pulmonary, and systemic hemodynamics; factors related to HVPG >/=10% reduction a

155 n properties of this framework to manage the hemodynamics for on-chip platelet thrombosis assay on ty

156 prognostic value of baseline and changes in hemodynamics for predicting subsequent adverse events.

157 catheter) to assess volumetric intra-aortic hemodynamics from 4D flow MRI in patients with BAV.

158 Standardized measures of spirometry, hemodynamics, functional capacity, and markers of inflam

159 ferent pathogenic features of AKI, including hemodynamics, immunity and inflammation, cellular and mo

160 Systemic hemodynamics improved after SVR.

161 atecholamines (P<0.05 versus baseline) while hemodynamics improved.

162 ng mechanics, lung morphology, and pulmonary hemodynamics in 10 swine.

163 ical interplay between platelet adhesion and hemodynamics in a microchannel manifests in a critical t

164 , we highlight the concepts related to renal hemodynamics in AKI that are likely to reveal new treatm

165 hough no form of percutaneous MCS normalized hemodynamics in AMI-VSD, pulmonary capillary wedge press

166 eptor tyrosine kinase inhibitors on regional hemodynamics in conscious, freely moving rats.

167 reperfusion time as a monitoring device for hemodynamics in critically ill children.

168 ental pathways, valve cell heterogeneity and hemodynamics in determining the structure and function o

169 computational framework to simulate cardiac hemodynamics in developing zebrafish embryos by coupling

170 tions affect the dynamic lesion and exercise hemodynamics in general.

171 Coronary hemodynamics in HCM were characterized by a very large b

172 into the clinical manifestations of altered hemodynamics in HCM.(C) RSNA, 2020.

173 rstanding of the mechanisms by which altered hemodynamics in heart failure affect the lungs and kidne

174 documented about the effects of contrast on hemodynamics in heart failure patients or the prognostic

175 effects of the IASD on resting and exercise hemodynamics in HF patients (n = 79) with EF >=40% with

176 converted to nitric oxide in vivo, improves hemodynamics in HFpEF, but its use is limited by the nee

177 Determine whether inhaled nitrite improves hemodynamics in HFpEF.

178 cal significance of measured cardiopulmonary hemodynamics in hypertrophic cardiomyopathy patients wit

179 d cardiac and respiratory motion-resolved 3D hemodynamics in less than 8 minutes.

180 Strategies to improve postprocedural hemodynamics in mitral ViV and ViR should be further exp

181 Functional HEmodynamics in patients with and without Renal Artery s

182 venous pressure gradient or improve systemic hemodynamics in patients with cirrhosis and ascites; rif

183 dict the effects of physiological factors on hemodynamics in patients with coarctation of the aorta.

184 sporter-2 inhibitor empagliflozin on central hemodynamics in patients with HF and HFrEF.

185 pulmonary vasodilators both improve 6MWD and hemodynamics in patients with inoperable CTEPH.

186 ventricular performance and impacts systemic hemodynamics in pediatric PAH.

187 2018;9;5364) imaged brain-wide hemodynamics in rats during wakefulness and sleep.

188 d significantly compromised left ventricular hemodynamics in SJ13 mice.

189 of inhaled albuterol on resting and exercise hemodynamics in subjects with HFpEF using high-fidelity

190 These results support that resting-state hemodynamics in the awake and anesthetized brain are cou

191 Demonstrating high-throughput monitoring of hemodynamics in the awake brain, we expect Bessel TPLSM

192 extended Bessel focus, we capture volumetric hemodynamics in the awake mouse brain at a spatiotempora

193 wever, many prior measurements of functional hemodynamics in the neonatal brain, including functional

194 d vascular remodeling and improved pulmonary hemodynamics in two independent trials in Sugen5416 + hy

195 ese observations, vasoreactivity ex vivo and hemodynamics in vivo were unaltered in DDAH1(En-/-) mice

196 Hemodynamics including FFR, absolute coronary flow, and

197 etween systemic, total renal, and glomerular hemodynamics, including the role of tubuloglomerular fee

198 way in which they intend to improve central hemodynamics, increase renal perfusion, remove salt and

199 terial stiffening with exercise and improves hemodynamics, indicating that arterial stiffening with e

200 Secondary end points included postoperative hemodynamics, inflammation, allograft function, rejectio

201 of sepsis biomarkers in relation to systemic hemodynamics, inflammation, and renal function.

202 The effect of a fluid challenge on hemodynamics is dissipated in 10 minutes similarly in bo

203 and knowledge of its imaging appearance and hemodynamics is essential in diagnosis and treatment pla

204 activity to the vasculature driving cerebral hemodynamics is important for (1) the basic understandin

205 hat the relationship between gamma and local hemodynamics is not fixed, but rather context dependent.

206 introduce an Eulerian-Lagrangian model where hemodynamics is solved on a fixed Eulerian grid, while p

207 compensatory alterations in left ventricular hemodynamics, leading to physiological and pathological

208 r (LRM) in the presence of elevated P(PL) on hemodynamics, left and right ventricular pressures and p

209 myocardial deformation, related to invasive hemodynamics, leftward septal shift, and prolonged right

210 ic dysfunction, related to adverse pulmonary hemodynamics, leftward septal shift, and prolonged right

211 l V/Q findings are associated with PH, worse hemodynamics, lower functional capacity, and higher mort

212 Changes in brain hemodynamics may be associated with the main clinical AD

213 males and the sexual dimorphism in cerebral hemodynamics may explain why males are more vulnerable t

214 ring of continuous renal replacement therapy hemodynamics may facilitate remedial actions to improve

215 This finding raises the possibility that hemodynamics may play a role in the context of this vasc

216 In conclusion, the distribution of hemodynamics may serve as a supplement for clinical deci

217 All subjects with hemodynamics measured by right heart catheterization wit

218 Peripheral hemodynamics, measured via the blood volume pulse and va

219 ygenation resuscitation followed by invasive hemodynamics measurement.

220 Clinical status, portal vein hemodynamics, morphology of the liver, de novo detection

221 ngiopoietin-1 and angiopoietin-2 levels with hemodynamics, mortality, and plasma cytokine levels.

222 An initial set of measurements including hemodynamics, norepinephrine doses, and depth of sedatio

223 We reviewed hemodynamics of 300 consecutive adult patients undergoin

224 ar assist device (LVAD) therapy improves the hemodynamics of advanced heart failure patients.

225 omes of patients with cardiogenic shock, the hemodynamics of cardiogenic shock, and hemodynamic effec

226 s a novel research technique to evaluate the hemodynamics of CKD on the basis of direct pressure and

227 In this review, we summarize the hemodynamics of CS and mechanical circulatory support wi

228 eedback was delayed and blurred based on the hemodynamics of fMRI, this model learned more reliably f

229 Cerebral hemodynamics of large brain areas can be measured at hig

230 We aimed to characterize the detailed hemodynamics of mice with bile duct ligation (BDL)-induc

231 Patients with hemodynamics of pulmonary arterial hypertension should b

232 ologic function of the kidneys in regulating hemodynamics of the body and maintaining organ health.

233 and harnessing the complex three-dimensional hemodynamics of the micropump operation in conjunction w

234 cs solver was used to simulate peak systolic hemodynamics of the real post-treatment outcome using pa

235 The hemodynamics of the study valves were excellent with low

236 emonstrate how the abnormal organization and hemodynamics of the tumor microvasculature give rise to

237 R angiography provides information regarding hemodynamics of vascular anomalies, differentiating high

238 Severely abnormal hemodynamics on echocardiograms were also infrequent and

239 on/perfusion matching, without impairment of hemodynamics or right heart function.

240 mic deterioration by reintervention, adverse hemodynamics, or transvalvular regurgitation.

241 uantification of relative changes to retinal hemodynamics over a wide field-of-view in a rodent model

242 Considering hemodynamics over the full range of exercise loads, PCWP

243 sociations between RA function with invasive hemodynamics (P<0.01).

244 icular dimensions correlated with WHO-FC and hemodynamics (P<0.05), whereas left ventricular dimensio

245 Uteroplacental blood hemodynamics, progression of PE features (hypertension a

246 ow the spatial and temporal effects on brain hemodynamics provide information about pharmacologically

247 improving fluid homeostasis, cardiovascular hemodynamics recovery, and limiting kidney dysfunction i

248 Hemodynamics remained stable over the study period, and

249 to precisely and accurately quantify retinal hemodynamics remains an unmet challenge in ophthalmic re

250 l cell heterogeneity and its relationship to hemodynamics remains poorly understood due to a lack of

251 f ischemic lower limb peripheral arteries on hemodynamics remains unclear.

252 ctive TGF-beta ligand blockade for improving hemodynamics, remodeling, and survival in multiple exper

253 ial investigates the effects of rifaximin on hemodynamics, renal function, and vasoactive hormones.

254 ith parameters adjusted to replicate average hemodynamics reported in the literature, including a pul

255 complexity of coronary anatomy, and/or poor hemodynamics represent an understudied and potentially u

256 rn of spontaneous circulation and myocardial hemodynamics, resulting in improved survival and neurolo

257 duced in pediatric PH and relate to invasive hemodynamics, right ventricular strain, and functional m

258 n the septum, with relationships to invasive hemodynamics, right ventricular strain, and functional P

259 isentan and tadalafil significantly improved hemodynamics, RV structure and function, and functional

260 Core temperature, hemodynamics, serum glucose and electrolytes, and P/F we

261 Brain hemodynamics serve as a proxy for neural activity in a r

262 ildenafil with no adverse effect on exercise hemodynamics suggests that it may be useful in SIPE prev

263 cardiopulmonary resuscitation (CPR) affects hemodynamics, survival, and neurological outcomes follow

264 30 days, patients with HALT had worse valve hemodynamics than those without HALT, but hemodynamic an

265 iac function as well as systemic and uterine hemodynamics that reduces uteroplacental blood flow, a m

266 ection fraction at the time of assessment of hemodynamics, there was no significant difference in aor

267 be simplified, in conditions of interest for hemodynamics, to a superposition of Gaussian components,

268 erging optical method for recording cortical hemodynamics, to perform neuroimaging with this very you

269 , decreased exercise tolerance, and invasive hemodynamics variables.

270 injection of 12,13-diHOME increased cardiac hemodynamics via direct effects on the cardiomyocyte.

271 e institutions and that a strategy guided by hemodynamics was associated with more LVAD speed and med

272 ng between resting-state neural activity and hemodynamics was robust and fast in awake animals, where

273 ours, despite normal global/macrocirculatory hemodynamics, was associated with death on extracorporea

274 te the mechanisms of tumor heterogeneity and hemodynamics, we characterized two exemplary non-Hodgkin

275 Using invasive hemodynamics, we found that mice lacking beta-arrestin 1

276 of reestablishing serotonergic regulation of hemodynamics, we implanted serotonergic (5-HT(+)) neuron

277 Characteristic patterns of resting-state hemodynamics were accompanied by more rapidly changing b

278 At 3 years aortic valve hemodynamics were better with TAVR patients (mean aortic

279 Hemodynamics were clinically similar between grafts and

280 Volumetric intra-aortic hemodynamics were computed from 4D flow MRI only within

281 Hemodynamics were evaluated at baseline, after pulmonary

282 Valve hemodynamics were excellent (mean gradient, 8.8+/-3.6 mm

283 Forward-flow hemodynamics were improved following both procedures, wi

284 lmonary function, gas exchange, and invasive hemodynamics were measured at 4-months post-banding.

285 Regional hemodynamics were measured over 4 d, before and after da

286 Hepatic and systemic hemodynamics were measured, along with liver function te

287 Cerebral hemodynamics were monitored by near-infrared spectroscop

288 Aortic valve hemodynamics were more favorable in TAVR patients withou

289 No detectable changes in placental hemodynamics were observed, as determined by ultrasound

290 LVAD patients, in whom hemodynamics were optimized, had a significantly lower r

291 echocardiographic findings but not invasive hemodynamics were provided to 4 groups of observers, inc

292 y, alterations in conjunctival microvascular hemodynamics were quantitatively assessed at stages of i

293 Hepatic hemodynamics were recorded after reperfusion.

294 In this study, neural activity and hemodynamics were recorded simultaneously over the bilat

295 Cardiac damage, function, and hemodynamics were recorded up to 8 hours.

296 Hemodynamics were sustained at 1-year follow-up.

297 and showing abnormal complex post-treatment hemodynamics, were investigated.

298 impairs cardiovascular function and uterine hemodynamics with consequential fetal ischemia.

299 iple variables to characterize the anomalous hemodynamics within the TME.

300 ved cardiac function as measured by invasive hemodynamics, without altering Ca(2+) spark frequency.