ライフサイエンスコーパス: fluid balance

1 -ATPase and contributes to renal handling of fluid balance.

2 ly ventilated, current smoking, and positive fluid balance.

3 play prominent roles in maintaining cellular fluid balance.

4 ntestine contributes importantly to systemic fluid balance.

5 logies associated with dysregulation of lung fluid balance.

6 rebrain regions implicated in the control of fluid balance.

7 lar epithelium is essential to maintain lung fluid balance.

8 ifferences in body weight, urine output, and fluid balance.

9 e, suggesting a role for AQP4 in Muller cell fluid balance.

10 critical role in the maintenance of alveolar fluid balance.

11 hrs, was without effect on hemodynamics and fluid balance.

12 is required to develop a precise measure of fluid balance.

13 ne, renal hemodynamics, and renal sodium and fluid balance.

14 pear equally effective in achieving negative fluid balance.

15 osemide, titrated to achieve negative hourly fluid balance.

16 eostasis as they help to maintain sodium and fluid balance.

17 scular homeostasis and maintenance of tissue-fluid balance.

18 ivates animals to drink in order to maintain fluid balance.

19 or the appropriate correction of a patient's fluid balance.

20 Y acts locally on the epithelium to modulate fluid balance.

21 rget of AVP and contribute to the control of fluid balance.

22 ed with a fall in insulin secretion and body fluid balance.

23 ressor use and a greater cumulative positive fluid balance.

24 this unique ENaC regulatory pathway in lung fluid balance.

25 body MRI, isotope dilution, and nitrogen and fluid balances.

26 aying resuscitation increased cumulative net fluid balances (2.1+/-0.5 mL/kg/hr, 2.8+/-0.7 mL/kg/hr,

27 atified according to quartiles of cumulative fluid balance 24 hours and 3 days after ICU admission.

28 y injury before but not after adjustment for fluid balance (31% vs. 11%, p = .005).

29 riteria both before and after adjustment for fluid balance (31% vs. 12%, p < .001) and those who had

30 injury both before and after adjustment for fluid balance (31% vs. 38%, p = .18).

31 Normothermia (38 +/- 0.5 degrees C), fluid balance (5 mL.kg(-1).hr(-1) normal saline), and an

32 HYS patients had a significantly reduced net fluid balance (65 vs 91 mL/kg, P = 0.02).

33 We computed intraoperative fluid balance, accounting for patient morphometry, cryst

34 terstitial fluid does not directly determine fluid balance across microvascular endothelium.

35 the effect of mesenchymal stem cells on lung fluid balance, acute inflammation, and bacterial clearan

36 were independent of base deficit, cumulative fluid balance, acute kidney injury, and other critical i

37 irway pressure), subjects with an overweight fluid-balance-adjusted body mass index had significantly

38 io 0.74 [95% confidence interval 0.59-0.94]) fluid-balance-adjusted body mass indices.

39 at aquaporins are important in neonatal lung fluid balance, adult lung fluid clearance and formation

40 ty risk, increased fluid intake and positive fluid balance after ICU admission are associated with wo

41 ized hemodynamic support (including positive fluid balance), along with cardioprotective effects, mod

42 During intensive care unit stay, mean daily fluid balance among survivors was -234 mL/day compared w

43 roves oxygenation, with greater net negative fluid balance and better maintenance of hemodynamic stab

44 Conservative) resulted in a lower cumulative fluid balance and better outcomes than a liberal fluid p

45 a cardiac hormone involved in regulation of fluid balance and blood pressure homeostasis of mammalia

46 Arginine vasopressin (AVP) regulates fluid balance and blood pressure via AVP receptor (AVPR)

47 The patient's overall fluid balance and change in weight were recorded daily.

48 es the vasodilatory state, thereby improving fluid balance and glomerular filtration.

49 e present study was undertaken to assess the fluid balance and hemodynamic effects during the first 8

50 isease on the association between cumulative fluid balance and hospital mortality in critically ill s

51 ribute significantly in maintaining alveolar fluid balance and in resolving airspace edema.

52 ritical for regulation of blood pressure and fluid balance and influences cardiovascular remodeling.

53 f the association between post-ICU admission fluid balance and pediatric septic shock outcomes.

54 The ability to maintain fluid balance and prevent increased intracardiac filling

55 We found no association between fluid balance and renal recovery.

56 Observed associations between fluid balance and septic shock outcomes are likely confo

57 ces in serum creatinine caused by changes in fluid balance and the impact of these differences on dia

58 : 1) identify an inverse association between fluid balance and ventilator-free days; and 2) determine

59 ed heart failure and commonly monitored with fluid balance and weight loss.

60 iofacial development, (3) ionoregulation and fluid balance, and (4) cholesterol synthesis and homeost

61 After adjusting for steroid administration, fluid balance, and baseline vasopressor score, T4 admini

62 Hemodynamic variables, volume shifts, fluid balance, and cardiac function were monitored durin

63 The lymphatic system maintains tissue fluid balance, and dysfunction of lymphatic vessels and

64 s duration of CT drainage, net perioperative fluid balance, and LOS after the Fontan operation.

65 mphatic system regulates interstitial tissue fluid balance, and lymphatic malfunction causes edema.

66 osures, routes of nutrition, blood products, fluid balance, and modes of ventilatory support.

67 Anesthesia, fluid balance, and normothermia were maintained.

68 of blood glucose concentration, temperature, fluid balance, and oxygenation.

69 , blood urea nitrogen (BUN), creatinine, net fluid balance, and positive end-expiratory pressure.

70 regulate diverse functions such as motility, fluid balance, and sensory perception.

71 ive end-expiratory pressure, mean cumulative fluid balance, and the minimal ratio of arterial oxygen

72 euroendocrine control of energy homeostasis, fluid balance, and the stress response.

73 oendocrine regulation of energy homeostasis, fluid balance, and the stress response.

74 ssures (p < .05) without apparent effects on fluid balance, and was associated with a significantly (

75 Mandatory modes of ventilation and positive fluid balance are risk factors for ventilator-associated

76 it is unclear whether positive and negative fluid balances are associated with poor outcome compared

77 sed by intubation time, CICU length of stay, fluid balance, arterio-venous O2 difference (DeltaA-VO2)

78 nitoring was associated with a more positive fluid balance at 24 hrs.

79 stituted blood also had a smaller cumulative fluid balance at 48 hours (-6.9 ml per kilogram of body

80 Higher cumulative fluid balance at 72 hours of ICU admission was independe

81 Every 1-L increase in cumulative fluid balance at 72 hours of ICU admission was independe

82 t of patients with sepsis, higher cumulative fluid balance at day 3 but not in the first 24 hours aft

83 ents in the albumin group had a net negative fluid balance at the end of cardiopulmonary bypass compa

84 0 mEq/L were older and had higher cumulative fluid balance, base deficit, and Sequential Organ Failur

85 Fluid balances became negative after the third ICU day i

86 NA expression of NKCC2 does not affect BP or fluid balance because of compensatory factors that resto

87 There was wide variation in fluid balance between hospitals (P < 0.001, all procedur

88 ph pump system impacts not only interstitial fluid balance but other aspects of overall homeostasis.

89 criteria after adjustment of creatinine for fluid balance (but not before) had a mortality rate that

90 The lymphatic vasculature preserves tissue fluid balance by absorbing fluid and macromolecules and

91 ion between exposure to positive or negative fluid balance, compared with even fluid balance, on 1-ye

92 Using Gray's model, negative fluid balance, compared with even fluid balance, was ass

93 l patients, exposure to positive or negative fluid balance, compared with even fluid balance, was ass

94 Following propensity matching, positive fluid balance, compared with even or negative fluid bala

95 th acute kidney injury, exposure to positive fluid balance, compared with negative fluid balance, has

96 ion to control patients reduced net negative fluid balance; control patients more frequently develope

97 We characterized cumulative fluid balance cut-offs associated with hospital mortalit

98 ce (p =0.005) such that different cumulative fluid balance cut-offs with the best prognostic accuracy

99 r pathophysiological changes associated with fluid balance disorders including renal hypertension.

100 e of ingestive behaviours in regulating body fluid balance during 24 h HU.

101 orize plays an important role in maintaining fluid balance during pregnancy, with possible implicatio

102 A negative mean daily fluid balance during study treatment was independently a

103 during the first 24 hours, percent positive fluid balance during the first 24 hours, and cumulative

104 The mean (+/-SE) cumulative fluid balance during the first seven days was -136+/-491

105 a more negative median (interquartile range) fluid balance during weaning (-2,320 [-4,735, 738] vs. -

106 history, development of atrial fibrillation, fluid balance, echocardiographic findings, medication ad

107 poor outcome compared to patients with even fluid balance (euvolemia).

108 wn of HNS NKCC2 elicited profound effects on fluid balance following ingestion of a high-salt solutio

109 alveolar epithelial fluid transport and lung fluid balance from acute lung injury (ALI) in an ex vivo

110 Beyond intestinal fluid balance, GCC mediates diarrhea induced by bacteria

111 mportant in modulating drinking behavior and fluid balance has led to numerous studies aimed at ident

112 sitive fluid balance, compared with negative fluid balance, has been associated with mortality and im

113 t is identified after adjusting for positive fluid balance have higher mortality rates, and patients

114 ey injury before but not after adjusting for fluid balance have lower mortality rates.

115 luded change in weight, serum total protein, fluid balance, hemodynamics, respiratory system complian

116 rms, low Glasgow coma score, edema, positive fluid balance, high cardiac index, low PaO2/FIO2 ratio,

117 Highest fluid balance hospitals had significantly longer adjuste

118 High fluid balance hospitals have 12% to 14% longer risk-adju

119 This mortality risk associated with positive fluid balance, however, was attenuated by use of renal r

120 ks regulating cardiovascular homeostasis and fluid balance; however, the mechanisms of AngII signalin

121 ne in mice, protected against perturbed lung fluid balance in a bleomycin model of lung injury, highl

122 further adjusted for daily transfusions and fluid balance in a subset of our patients.

123 ransmembrane conductance regulator regulates fluid balance in alveolar epithelial cells and appears t

124 Cs or the conditioned medium restores normal fluid balance in an ex vivo perfused human lung injured

125 portant to understanding edema formation and fluid balance in both normal physiology and disease.

126 of ion channels is critical for maintaining fluid balance in epithelial tissues.

127 tribute to abnormalities in hemodynamics and fluid balance in heart failure through its actions on V(

128 stablishing the endothelial barrier and lung fluid balance in lung inflammatory diseases such as acut

129 ncrease in salt intake of 6 g/d would change fluid balance in men living under ultra-long-term contro

130 arrier, critical for maintaining the correct fluid balance in the brain, entails net secretion of HCO

131 ulmonary bypass compared with a net positive fluid balance in the crystalloid group.

132 Fluid intake, percent positive fluid balance in the first 24 hours, and cumulative perc

133 ngoing food and water consumption will alter fluid balance in the future and then to adjust behaviour

134 GMP signaling is critical to electrolyte and fluid balance in the neonatal intestine.

135 th with higher quartiles of 3-day cumulative fluid balance in the whole population and after stratifi

136 d fluid accumulation resulted in similar net fluid balances in both groups within 12 hrs after the bu

137 ty analysis including daily transfusions and fluid balance (in a subset of 518 patients) did not qual

138 Estrogens affect body fluid balance, including sodium ingestion.

139 The cumulative fluid balance increased from 1,217 mL (-90 to 2,783 mL)

140 Fluid balance is an integral component of hemodialysis t

141 nger-term fluid retention and maintenance of fluid balance is of real clinical and practical benefit

142 e urine, conserve electrolytes, and maintain fluid balance, is a frequent clinical problem, particula

143 pressure levels of 50, 60, and 70 mm Hg, and fluid balance levels in quartiles were examined for thei

144 Fluid balance lower than -594 mL was associated with an

145 sion, age, mean arterial pressure <70 mm Hg, fluid balance lower than -594 mL, and intracranial press

146 or cerebral perfusion pressure <60 mm Hg and fluid balance lower than -594 mL-was associated with an

147 creases in pulmonary capillary pressure, net fluid balance, lung and prefemoral lymph flow and protei

148 Managing fluid balance mandates a clear identification of what go

149 Fluid balance may be a target for specific manipulation

150 eoptic nucleus (MnPo) is critical for normal fluid balance, mediating osmotically evoked drinking and

151 Daily fluid balance, mental status, and serum and urine electr

152 , and vasopressor use, increasing cumulative fluid balance (mL/kg) on day 3 was associated with fewer

153 d cardiac index returned to baseline values, fluid balance normalized, and glomerular filtration rate

154 male sex, RBC and plasma transfusion, higher fluid balance, obesity, hypoxemia, acidosis, tobacco use

155 ds ratio, 3.4; 95% CI, 1.6-8.0) and positive fluid balances (odds ratio, 1.2 per L positive; 95% CI,

156 We analyzed the association between daily fluid balance on clinical outcomes using multivariable l

157 Increasing fluid balance on day 3 in children with acute lung injur

158 Adjusted for weight, daily fluid balance on days 1-3 and cumulative fluid balance o

159 ily fluid balance on days 1-3 and cumulative fluid balance on days 1-7 were higher in these children

160 investigated the possible influence of early fluid balance on outcome in a large international databa

161 oliguria have a higher incidence of negative fluid balance on postoperative day 1, as well as avoidan

162 primary end point was incidence of negative fluid balance on postoperative day 1.

163 rosemide groups in the incidence of negative fluid balance on the first postoperative day.

164 We sought to determine the impact of fluid balance on the incidence of nondialysis requiring

165 ogistic regression to estimate the effect of fluid balance on the odds of 28-day mortality, and on co

166 terior descending artery [p <.001]), and net fluid balance on the operative day (p =.015).

167 r negative fluid balance, compared with even fluid balance, on 1-year mortality and renal recovery.

168 se a series of transient kidneys to regulate fluid balance, osmolarity and metabolic waste during dev

169 Primary outcome was cumulative fluid balance over 7 days.

170 Mean cumulative fluid balance over the same period was -1941 vs. +1755 m

171 nd ventilator-free days; and 2) determine if fluid balance over time is more similar to adults in the

172 Albumin and furosemide therapy improves fluid balance, oxygenation, and hemodynamics in hypoprot

173 ury and chronic kidney disease on cumulative fluid balance (p =0.005) such that different cumulative

174 ean arterial pressure (P=0.03) and lower net fluid balance (P<0.001).

175 water increased with positive perioperative fluid balance (p=0.04).

176 smolyte in autoregulation of cell volume and fluid balance, particularly for mammalian brain and kidn

177 ay an indispensable role in maintaining body fluid balance partly through their ability to regulate a

178 Our findings and the similarity of fluid balance patterns in our cohort to adults in the Fl

179 We stratified hospitals by average fluid balance quartile, and compared patterns across dis

180 ine clearance (r = 0.79, P < 0.05), negative fluid balance (r = 0.51, P < 0.01), and the free water c

181 drainage (r=0.90, n =16), net perioperative fluid balance (r=0.71, n=14), and length of stay (LOS) (

182 complication rates were not associated with fluid balance rankings.

183 The lymphatic system is important in tissue fluid balance regulation, immune cell trafficking, edema

184 Achieving and maintaining optimal fluid balance remains a significant challenge; better mo

185 ded 24-hour arterial pH, serum electrolytes, fluid balance, resource utilization, and in-hospital mor

186 egrate hydromineral and hormonal circulating fluid balance signals, information which is transmitted

187 FACTT Lite had a greater cumulative fluid balance than FACTT Conservative but had equivalent

188 After adjustment for fluid balance, the incidence of acute kidney injury was

189 hannels that maintain bronchial and alveolar fluid balance: the cystic fibrosis transmembrane conduct

190 opic/vasotropic actions and to optimize body fluid balance, this candidate pathway might benefit sept

191 Close monitoring of fluid balance to avoid hypervolemia is essential.

192 an coordinate structural reorganization with fluid balance to maintain cellular integrity.

193 The addition of cumulative fluid balance to the admission Sequential Organ Failure

194 st 24 hours, and cumulative percent positive fluid balance up to 7 days.

195 Within each category, we assessed three fluid balance variables: total fluid intake/kg/d during

196 Cumulative fluid balance was 1,918 +/- 323 mL in FACTT Lite, -136 +

197 Conversely, positive fluid balance was associated with higher mortality throu

198 Increased cumulative percent positive fluid balance was associated with mortality in the low-r

199 djusted odds ratio, 0.81; 95% CI, 0.43-1.55) fluid balance was associated with renal recovery.

200 In addition, a negative mean daily fluid balance was associated with significantly increase

201 Among 18,084 patients, fluid balance was categorized as negative (< 0%), even (

202 In the RENAL study, a negative mean daily fluid balance was consistently associated with improved

203 of acute kidney injury before adjustment for fluid balance was greater in those managed with the cons

204 As a result, myocardial fluid balance was improved, and cardiac inflammation, fi

205 s similar in survivors and nonsurvivors, but fluid balance was less positive in survivors because of

206 llment, 609 without baseline shock (for whom fluid balance was managed by the study protocol).

207 After day 5, fluid balance was more negative in the crystalloid group

208 Cumulative fluid balance was more positive among patients with high

209 ltivariable analysis, the 24-hour cumulative fluid balance was not associated with an increased hazar

210 Fluid balance was similar in the two groups, as was the

211 criteria after but not before adjustment for fluid balance was similar to patients with acute kidney

212 r negative fluid balance, compared with even fluid balance, was associated with higher 1-year mortali

213 luid balance, compared with even or negative fluid balance, was associated with increased mortality (

214 , negative fluid balance, compared with even fluid balance, was associated with lower short-term mort

215 of the lymphatic vasculature in maintaining fluid balance, we tested the hypothesis that ANP or BNP

216 st 24 hours, and cumulative percent positive fluid balance were all associated with increased odds of

217 ration, plasma colloid osmotic pressure, and fluid balance were measured before and after scalding an

218 commonly consumed drinks on urine output and fluid balance when ingested in a euhydrated state, with

219 ore and maintain cardiovascular function and fluid balance while minimizing secondary edema-related d

220 , and an endolymphatic duct and sac allowing fluid balance with the cerebrospinal system.

221 e to cardiac comorbidity and a more positive fluid balance with use of transpulmonary thermodilution

222 has been drunk than is necessary to restore fluid balance within the body.

223 received renal replacement therapy (positive fluid balance x renal replacement therapy interaction (a