The ability of stroke volume variations obtained with Vigileo/FloTrac system to monitor fluid responsiveness in mechanically ventilated patients.
about
Postreperfusion syndrome during liver transplantationRecent advance in patient monitoring.Systematic review including re-analyses of 1148 individual data sets of central venous pressure as a predictor of fluid responsiveness.Measurement of cardiac index by transpulmonary thermodilution using an implanted central venous access port: a prospective study in patients scheduled for oncologic high-risk surgery.Perioperative fluid therapy: a statement from the international Fluid Optimization Group.Automated stroke volume and pulse pressure variations predict fluid responsiveness in mechanically ventilated patients with obstructive jaundice.Applying dynamic parameters to predict hemodynamic response to volume expansion in spontaneously breathing patients with septic shock.Intravascular volume therapy in adults: Guidelines from the Association of the Scientific Medical Societies in Germany.Goal-directed fluid optimization based on stroke volume variation and cardiac index during one-lung ventilation in patients undergoing thoracoscopy lobectomy operations: a pilot study.Non-invasive measurements of pulse pressure variation and stroke volume variation in anesthetized patients using the Nexfin blood pressure monitor.Brachial artery peak velocity variation to predict fluid responsiveness in mechanically ventilated patients.The pleth variability index as an indicator of the central extracellular fluid volume in mechanically ventilated patients after anesthesia induction: comparison with initial distribution volume of glucose.Pulse pressure variation: where are we today?Accuracy of stroke volume variation in predicting fluid responsiveness: a systematic review and meta-analysis.Using arterial pressure waveform analysis for the assessment of fluid responsiveness.Bench-to-bedside review: functional hemodynamics during surgery - should it be used for all high-risk cases?Increasing use of less-invasive hemodynamic monitoring in 3 specialty surgical intensive care units: a 5-year experience at a tertiary medical center.Low molecular weight pentastarch is more effective than crystalloid solution in goal-directed fluid management in patients undergoing major gastrointestinal surgery.Goal-directed therapy in intraoperative fluid and hemodynamic managementHemodynamic monitoring during liver transplantation: A state of the art review.Accuracy of pleth variability index to predict fluid responsiveness in mechanically ventilated patients: a systematic review and meta-analysis.Improving surgical outcomes: it is the destination not the journey.Physiological controversies and methods used to determine fluid responsiveness: a qualitative systematic review.Effect of fluid loading on left ventricular volume and stroke volume variability in patients with end-stage renal disease: a pilot study.Inferior Vena Cava Collapsibility Index is a Valuable and Non-Invasive Index for Elevated General Heart End-Diastolic Volume Index Estimation in Septic Shock Patients.Hemodynamic changes during robotic radical prostatectomy.What is the impact of the fluid challenge technique on diagnosis of fluid responsiveness? A systematic review and meta-analysis.Stroke volume variation (SVV) and pulse pressure variation (PPV) as indicators of fluid responsiveness in sevoflurane anesthetized mechanically ventilated euvolemic dogs.A combination of levobupivacaine and lidocaine for paravertebral block in breast cancer patients undergoing quadrantectomy causes greater hemodynamic oscillations than levobupivacaine alone.The comparison of stroke volume variation with central venous pressure in predicting fluid responsiveness in septic patients with acute circulatory failure.Goal-directed fluid therapy based on stroke volume variations improves fluid management and gastrointestinal perfusion in patients undergoing major orthopedic surgery.Impact of skin incision on the pleth variability index.Prediction of hypotension in the beach chair position during shoulder arthroscopy using pre-operative hemodynamic variables.Inferior vena cava variation compared to pulse contour analysis as predictors of fluid responsiveness: a prospective cohort study.Outcome impact of goal directed fluid therapy during high risk abdominal surgery in low to moderate risk patients: a randomized controlled trial.The ability of left ventricular end-diastolic volume variations measured by TEE to monitor fluid responsiveness in high-risk surgical patients during craniotomy: a prospective cohort study.The comparison between stroke volume variation and filling pressure as an estimate of right ventricular preload in patients undergoing renal transplantation.Pleth variability index-directed fluid management in abdominal surgery under combined general and epidural anesthesia.Stroke volume-directed administration of hydroxyethyl starch (HES 130/0.4) and Ringer’s acetate in prone position during neurosurgery: a randomized controlled trial.Vigilance of hemodynamic changes immediately after transferring patients is crucial.
P2860
Q26774922-3E3BB005-B309-4ADB-94E5-22A3FA5139E7Q30479473-0F48403F-42A6-4868-B9B8-427B41982F85Q31031160-A11D17CA-0933-4E20-B619-F3454815FBE9Q34066325-3A6BFC66-8B5D-47DB-95BC-9278FEA7B07EQ35494370-49A147DA-E3BE-4F0C-97D4-AE07EDC9449BQ36492841-EE9B2491-2E3B-404F-8DE1-8DB82C530CA4Q36634281-DF4F7788-C4DC-4B2A-9105-09AEF8C8D38BQ36961877-92E39E06-874B-4B3B-973A-DF9240AD15B2Q37023566-B9044520-9382-499A-8CCE-88C13F4A41EEQ37256602-712BA83E-2774-4F33-BD4C-2514B86C80C7Q37443013-9775A467-18E6-4AFA-A8BA-AC2B58A38610Q37644635-DF5710AD-6ED1-47ED-80DC-296AE037BF09Q37730593-66F116C0-4F6B-4599-92EE-63C0BF40C366Q37926566-9A9E6037-2122-4312-9260-53CB637DF810Q37949424-AA208F01-F539-4161-A5DC-A313662842B7Q38077276-A2287F0C-F55A-4970-8A87-CBE8B07DF43CQ38128544-69E653D5-CEE9-46A4-BBEA-C5E5ADF371D6Q38141896-25CD3CDB-20E1-49B2-AE0F-8D84D4E54B01Q38148536-AB843811-0460-44CA-A73E-0923E8846ADDQ38519902-7AB3769C-8065-4663-BE19-467BF041530CQ38560683-1DC4D765-0B4E-4A5E-A42B-DB7068E885BBQ38569918-CCAFFEDB-4BFD-4437-A8E5-F668860178F5Q38605342-A26FFCE7-3183-4575-BC03-6ED8F543002DQ40363286-CC954186-3CB0-46C8-934B-ACC3CC476938Q40497137-3A4D26B4-D160-4996-BF8F-6E45717AC217Q41140102-02717D0E-CA94-431F-B73A-FD4DB6489988Q41248330-82E530E8-65E6-4F92-A36A-9D66CACB011AQ41538786-15A06D62-108D-4B8F-B490-6E9172815AB3Q41570267-C3D5A03D-45A5-41C1-B355-4C97C478E736Q41595719-71C03FB3-1B36-4528-B153-CED4E388AFE7Q42759317-9B4246E4-E996-462A-B00A-E49D378586FDQ44193111-9969240C-72F5-4B6E-8682-A53546F4EA9AQ45115914-A094D911-3FFA-4EA9-A22E-7A5A531149E7Q46622750-D2EACE38-284A-4F2F-ABC4-E78D9C01E53AQ46795599-418EE7DB-6FBB-4BFD-B037-A9E5DBB7F891Q47372500-DA2E5FD1-2E79-4BCC-879D-B8535DA7D408Q47852757-CE0CB772-5C2A-4EFC-A8D1-6DAC29B14D37Q47909606-548EA144-380D-4148-AAFC-C27AE0130B32Q47966657-A53C2811-D98E-4435-ACAE-D1373DDB5F88Q48030626-5B157674-9AD8-4AF6-93B1-D5B44E84EE58
P2860
The ability of stroke volume variations obtained with Vigileo/FloTrac system to monitor fluid responsiveness in mechanically ventilated patients.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh-hant
name
The ability of stroke volume v ...... hanically ventilated patients.
@en
The ability of stroke volume v ...... hanically ventilated patients.
@nl
type
label
The ability of stroke volume v ...... hanically ventilated patients.
@en
The ability of stroke volume v ...... hanically ventilated patients.
@nl
prefLabel
The ability of stroke volume v ...... hanically ventilated patients.
@en
The ability of stroke volume v ...... hanically ventilated patients.
@nl
P2093
P1476
The ability of stroke volume v ...... chanically ventilated patients
@en
P2093
Cécile Boucau
Henri Musard
Jean-Jacques Lehot
Maxime Cannesson
Olivier Desebbe
Rémi Simon
P304
P356
10.1213/ANE.0B013E318192A36B
P407
P577
2009-02-01T00:00:00Z