ライフサイエンスコーパス: hemodynamics

1 nal resuscitation (CR) that restores central hemodynamics.

2 rast causes small but significant changes in hemodynamics.

3 evealed differential contribution of PVCs to hemodynamics.

4 plete re-establishment of physiological-like hemodynamics.

5 2 (34)] and had a higher GCS, though similar hemodynamics.

6 cal and pathological alterations in coronary hemodynamics.

7 toms, functional capacity, and biventricular hemodynamics.

8 how different target temperatures may affect hemodynamics.

9 ed 50 mug/kg/min with measurement of cardiac hemodynamics.

10 egrated effects on cardiac load and systemic hemodynamics.

11 performed to assess THV stent expansion and hemodynamics.

12 erall); patients who died had worse baseline hemodynamics.

13 nd hypothermia may pose additional impact on hemodynamics.

14 ing respiratory mechanics, gas exchange, and hemodynamics.

15 erial echocardiography and terminal invasive hemodynamics.

16 terload and track acute changes in pulmonary hemodynamics.

17 e combination of patient characteristics and hemodynamics.

18 d is associated with adverse cardiopulmonary hemodynamics.

19 different in terms of medication and resting hemodynamics.

20 nctional capacity without affecting systemic hemodynamics.

21 monitoring and maintenance of intraoperative hemodynamics.

22 ment of fat distribution, LV morphology, and hemodynamics.

23 ed with concentric LV remodeling and adverse hemodynamics.

24 enoses showing an FFR>0.80 present disturbed hemodynamics.

25 measured by 3D-echocardiography and invasive hemodynamics.

26 ons and novel approaches to modeling complex hemodynamics.

27 iagnostic category and pre-existing unstable hemodynamics.

28 d micromanometer conductance catheterization hemodynamics.

29 bility in prior studies of neonatal cortical hemodynamics.

30 nhibition has no negative effects on cardiac hemodynamics.

31 ntric remodeling and was not associated with hemodynamics.

32 ), while maintaining calcium homeostasis and hemodynamics.

33 edema on imaging and more deranged cerebral hemodynamics.

34 terized by disturbed systemic and splanchnic hemodynamics.

35 and thus enables assessment of microvascular hemodynamics.

36 lular interactions in modeling microvascular hemodynamics.

37 l decontamination with rifaximin may improve hemodynamics.

38 improvements in global cardiac function and hemodynamics.

39 nship holds for acute lung injury or altered hemodynamics.

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

41 ith FFR>0.80, most (63%) presented disturbed hemodynamics: abnormal CFR in 28 (52%) and MCD in 18 (33

42 compared with placebo (P<0.001), changes in hemodynamics accounted for only 1.2% to 13.9% of the ove

43 and vasopressors are widely used to improve hemodynamics acutely; however, reliable information rega

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

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

46 targets for implantation that would improve hemodynamics after ViV.

47 rt specific implantation targets to optimize hemodynamics after ViV.

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

49 normalities including microcephaly, aberrant hemodynamics analyzed by in utero echocardiography, and

50 is an important determinant of microvascular hemodynamics and also reflects systemic inflammation.

51 ute nitrite administration improves exercise hemodynamics and cardiac reserve in HFpEF.

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

53 3.74; 95% CI, 1.20-11.62; P = .02), improved hemodynamics and central venous oxygen saturation, and l

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

55 tic annulus size had a major impact on valve hemodynamics and clinical outcomes after transcatheter a

56 the effects of aortic annulus size on valve hemodynamics and clinical outcomes in those patients inc

57 Impaired hemodynamics and comorbidities were more frequent at tim

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

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

60 kness, as well as altered skin microvascular hemodynamics and delayed cutaneous wound healing.

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

62 P therapy was associated with improved renal hemodynamics and down-regulation of renal RAS activity,

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

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

65 cardiac function was assessed using invasive hemodynamics and echocardiography at baseline and during

66 sure regulation through its actions on renal hemodynamics and epithelial ion transport.

67 odeling in animal models of PAH and improves hemodynamics and exercise capacity in selected patients

68 th pulmonary arterial hypertension; improved hemodynamics and exercise capacity occurred in medium- a

69 could theoretically improve cardiopulmonary hemodynamics and exercise capacity.

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

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

72 ) decreases retained substances and improves hemodynamics and hepatic encephalopathy (HE).

73 resultant impaired VR might hinder cerebral hemodynamics and increase brain atrophy during HD progre

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

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

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

77 ominantly related to global left ventricular hemodynamics and mitral leaflet tethering change.

78 ls (n=9) during head-up tilt while measuring hemodynamics and muscle sympathetic nerve activity.

79 Hemodynamics and outcomes were poorest amongst patients

80 can enhance the impact of NIRS for cerebral hemodynamics and oxygenation assessment both in the rese

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

82 se domain in the regulation of microvascular hemodynamics and pathophysiology of CIAKI.

83 ling, as well as with altered uteroplacental hemodynamics and placental nitrosative stress.

84 ith cirrhosis to examine splanchnic vascular hemodynamics and portal pressure response.

85 ve the graft abolished the recovery of basal hemodynamics and reflexic response.

86 omprehensive descriptors of fatness, central hemodynamics and renal characteristics demonstrate the a

87 Systemic hemodynamics and renal function were measured in conscio

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

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

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

91 IP10 correlated positively with pulmonary hemodynamics and serum brain natriuretic peptide and neg

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

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

94 cular dimension ratiocorrelated with WHO-FC, hemodynamics and survival (P<0.05).

95 We evaluated exercise hemodynamics and the effect of sildenafil on exercise he

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

97 er, esmolol, with specific focus on systemic hemodynamics and the microcirculation.

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

99 onal echocardiography parameters to estimate hemodynamics and to derive a diagnostic algorithm for di

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

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

102 ejection fraction was confirmed by invasive hemodynamics and was not the result of a systematic bias

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

104 h can be initiated by changes in blood flow (hemodynamics) and pressure across the aortic valve.

105 Gross anatomy, hemodynamics, and aerodynamics were evaluated; neutrophi

106 sented with infection, inflammation, altered hemodynamics, and cancer.

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

108 onal class, 6-minute-walk distance, invasive hemodynamics, and laboratory chemistries.

109 1 inhibition would improve survival, cardiac hemodynamics, and mitochondrial function in an in vivo m

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

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

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

113 ficult airway, diagnostic category, unstable hemodynamics, and resident provider as first airway prov

114 by each chest compression, on gas exchange, hemodynamics, and return of spontaneous circulation in a

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

116 (TDI) echocardiography, systemic and hepatic hemodynamics, and the activity of endogenous vasoactive

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

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

119 Coronary hemodynamics are influenced by aortic valve stenosis rem

120 These findings suggest that resting hemodynamics are not valid surrogate end points for shor

121 Ventricular hemodynamics are then quantified by numerically solving

122 How the altered hemodynamics around a plaque promote pathological thromb

123 a of BAV patients, implicating valve-related hemodynamics as a contributing factor in the development

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

125 correlated with body composition and central hemodynamics as well as kidney function.

126 e blood-brain barrier integrity and cerebral hemodynamics as well as reduction in the immediate react

127 sirability signals decoded from frontal lobe hemodynamics, as measured with near-infrared spectroscop

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

129 Hemodynamics assessment is important for detecting and t

130 Treatment-induced changes in hemodynamics at 12 weeks only partially explain the impa

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

132 ressure (CPAP) of patients with OSA on renal hemodynamics at baseline and in response to angiotensin

133 NSBBs had only moderate effects on systemic hemodynamics at patients' first paracentesis.

134 iovascular dysfunction, including disordered hemodynamics at rest and autonomic dysreflexia during no

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

136 score < 6) without any differences in global hemodynamics between these two groups.

137 2 hours after hemorrhagic shock, we measured hemodynamics, blood gases, acid-base status, metabolism,

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

139 angiotensin-(1-7) on systemic and pulmonary hemodynamics, but only D-Pro-angiotensin-(1-7) blocked t

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

141 sensitization properties that improves acute hemodynamics, but with uncertain effects in mortality.

142 associated with impaired regulation of renal hemodynamics by NO.

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

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

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

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

147 Brain hemodynamics (cerebral and regional cerebral blood flow)

148 ns between changes in receptor occupancy and hemodynamics [cerebral blood volume (CBV)] in the domain

149 al Doppler (fTCD) is used for monitoring the hemodynamics characteristics of major cerebral arteries.

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

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

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

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

154 in a mean (SD) TBV loss of 19.8% (3.0%) with hemodynamics consistent with class II hemorrhagic shock.

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

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

157 Spatiotemporal hemodynamics could be modeled by convolving this neural

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

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

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

161 rterial compliance and elastance and central hemodynamics during exercise.

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

163 terload and track acute changes in pulmonary hemodynamics during vasodilator testing.

164 aseline characteristics, implant strategies, hemodynamics, echocardiographic data, and outcomes were

165 Cardiac function was assessed using invasive hemodynamics, echocardiography, and histological analysi

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

167 Hepatic and systemic hemodynamics, endothelial dysfunction, liver fibrosis, h

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

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

170 dy shows no difference in invasive pulmonary hemodynamics, functional capacity, or symptoms between t

171 on and is associated with worse intracardiac hemodynamics, higher B-type natriuretic peptide levels,

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

173 Systemic hemodynamics improved after SVR.

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

175 Baseline hemodynamics in 207 patients met criteria for PAH.

176 which reflects central adiposity, and renal hemodynamics in 315 healthy persons with a mean body mas

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

178 comprehensive assessment of abdominal vessel hemodynamics in a single breath hold.

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

180 monary artery denervation improves pulmonary hemodynamics in an experimental model and in an early cl

181 to investigate altered ascending aorta (AAo) hemodynamics in bicuspid aortic valve (BAV) patients and

182 s the efficacy of interventions to stabilize hemodynamics in brain-dead donors or to improve organ fu

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

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

185 ics and the effect of sildenafil on exercise hemodynamics in Fontan patients.

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

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

188 e vessels (forearm blood flow), and systemic hemodynamics in healthy male volunteers (n=43).

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

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

191 Determine whether inhaled nitrite improves hemodynamics in HFpEF.

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

193 percutaneous approach to study biventricular hemodynamics in murine models of primary and secondary R

194 ansthoracic echocardiography reliably assess hemodynamics in patients supported with CF-LVADs.

195 Imatinib improved exercise capacity and hemodynamics in patients with advanced PAH, but serious

196 he gold standard for assessment of pulmonary hemodynamics in patients with chronic thromboembolic pul

197 s enable noninvasive assessment of pulmonary hemodynamics in patients with chronic thromboembolic pul

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

199 ventricular performance and impacts systemic hemodynamics in pediatric PAH.

200 changes in pulmonary vascular remodeling and hemodynamics in response to hypoxia/SU5416 were attenuat

201 d significantly compromised left ventricular hemodynamics in SJ13 mice.

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

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

204 rdiography accurately estimated intracardiac hemodynamics in these patients supported with CF-LVAD.

205 s complicated by the abnormal cardiovascular hemodynamics in TM and measurement imprecision.

206 Modeling human bone marrow composition and hemodynamics in vitro obviates risks associated with pla

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

208 Hemodynamics including FFR, absolute coronary flow, and

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

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

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

212 Hemodynamics influence endothelial KLF4 expression throu

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

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

215 Appropriate hemodynamics is important for normal valve function and

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

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

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

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

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

221 Alagebrium had no effect on hemodynamics, LV geometry, or exercise capacity in healt

222 Measures of pulsatile arterial hemodynamics may complement TDE for the diagnosis of HFP

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

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

225 ygenation resuscitation followed by invasive hemodynamics measurement.

226 Hemodynamics, metabolic parameters, or oxygen consumptio

227 Systemic hemodynamics, microvascular indices and measures of acid

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

229 idomine treatment did neither affect hepatic hemodynamics nor the spontaneous recovery.

230 We reviewed hemodynamics of 300 consecutive adult patients undergoin

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

232 osis and healthy control subjects as regards hemodynamics of cerebral venous drainage.

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

234 Patients with hemodynamics of pulmonary arterial hypertension should b

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

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

237 Severely abnormal hemodynamics on echocardiograms were also infrequent and

238 directly involve either effects on cerebral hemodynamics or the treatment of patients with clinical

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

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

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

242 rfered with the normal biological control of hemodynamics, permitting a positive feedback loop of inc

243 emorrhage, we measured systemic and regional hemodynamics (portal vein, hepatic and right kidney arte

244 ilitates successful defibrillation, improves hemodynamics postdefibrillation, decreases refibrillatio

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 crovascular reactive hyperemia index, aortic hemodynamics, pulse wave velocity) were not differential

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

249 treatment with an MRA in HF further improved hemodynamics relative to that achieved by CA alone, whil

250 Hemodynamics remained stable over the study period, and

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

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

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

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

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 Lung compliance, hemodynamics, right ventricular heart mass alterations,

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

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

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

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

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

263 mal right ventricular size and function, and hemodynamics showing normalization of right ventricular

264 besity adversely affects cardiovascular (CV) hemodynamics, structure, and function, as well as increa

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

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

267 r endothelia respond to local atherorelevant hemodynamics that contribute to the regional nature of a

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

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

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

271 , decreased exercise tolerance, and invasive hemodynamics variables.

272 gated the effects of imatinib (100 mg/kg) on hemodynamics, vascular remodeling, and downstream molecu

273 At 13 minutes, hemodynamics was analyzed beat-to-beat in the end-inspir

274 Central hemodynamics was measured by Pulse Wave Analysis, left v

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

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

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

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

279 Mitral valve hemodynamics were assessed at rest and at peak exercise

280 Respiratory mechanics and hemodynamics were assessed prior to and after the interv

281 INT-747 or vehicle within 24 hours, in vivo hemodynamics were assessed.

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

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

284 py exposure on the pulmonary vasculature and hemodynamics were investigated in three different animal

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

286 piratory system mechanics, gas exchange, and hemodynamics were measured at 5 and 15 cm H2O positive e

287 Intraoperative hepatic hemodynamics were measured by simultaneous reflectance s

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

289 Aortic valve hemodynamics were more favorable in TAVR patients withou

290 Baseline hemodynamics were obtained and repeated after infusion o

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

292 Hepatic hemodynamics were recorded after reperfusion.

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

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

295 ly, electrocardiography and left ventricular hemodynamics were significantly improved in treated mice

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

297 % saline infusion may adversely affect renal hemodynamics when compared with balanced crystalloids.

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

299 ion of B-type natriuretic peptide (BNP), and hemodynamics with right atrial pressure <8 mm Hg and car

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