Using heart-lung interactions to assess fluid responsiveness during mechanical ventilation.
about
Equipment review: an appraisal of the LiDCO plus method of measuring cardiac outputPulse oximeter as a sensor of fluid responsiveness: do we have our finger on the best solution?Fluid responsiveness in acute circulatory failurePostoperative fluid managementEvolving concepts of hemodynamic monitoring for critically ill patientsPreload responsiveness is associated with increased interleukin-6 and lower organ yield from brain-dead donors.Pulse pressure variation and volume responsiveness during acutely increased pulmonary artery pressure: an experimental studyAccuracy of pulse oximeter perfusion index in thoracic epidural anesthesia under basal general anesthesia.Heart-lung interactions during neurally adjusted ventilatory assistClinical review: interpretation of arterial pressure wave in shock statesDynamic arterial elastance as a predictor of arterial pressure response to fluid administration: a validation studyFluid responsiveness in mechanically ventilated patients: a review of indices used in intensive care.Dynamic arterial elastance to predict arterial pressure response to volume loading in preload-dependent patientsClinical usefulness of respiratory variations in arterial pressure.Passive leg raising can predict fluid responsiveness in patients placed on venovenous extracorporeal membrane oxygenation.Pulse pressure variation and prediction of fluid responsiveness in patients ventilated with low tidal volumes.Goal-Directed Resuscitation Aiming Cardiac Index Masks Residual Hypovolemia: An Animal Experiment.Pulmonary hypertension attenuates the dynamic preload indicators increase during experimental hypovolemiaWhich cardiac surgical patients can benefit from placement of a pulmonary artery catheter?Assessment of stroke volume variation for prediction of fluid responsiveness using the modified FloTrac and PiCCOplus systemDiagnostic accuracy of stroke volume variation measured with uncalibrated arterial waveform analysis for the prediction of fluid responsiveness in patients with impaired left ventricular function: a prospective, observational study.Epidemiology of severe sepsis in the emergency department and difficulties in the initial assistance.Fluid responsiveness prediction using Vigileo FloTrac measured cardiac output changes during passive leg raise testDiagnosis Accuracy of Mean Arterial Pressure Variation during a Lung Recruitment Maneuver to Predict Fluid Responsiveness in Thoracic Surgery with One-Lung Ventilation.Brachial artery peak velocity variation to predict fluid responsiveness in mechanically ventilated patients.Techniques for assessment of intravascular volume in critically ill patients.Weaning failure of cardiac origin: recent advances.Use of 'tidal volume challenge' to improve the reliability of pulse pressure variation.Pulse pressure variation: where are we today?Interpretation of blood pressure signal: physiological bases, clinical relevance, and objectives during shock states.Advanced hemodynamic monitoring: principles and practice in neurocritical care.Using arterial pressure waveform analysis for the assessment of fluid responsiveness.Fluid administration limited by lung sonography: the place of lung ultrasound in assessment of acute circulatory failure (the FALLS-protocol).Point of care cardiac ultrasound applications in the emergency department and intensive care unit--a review.Assessment of volume responsiveness during mechanical ventilation: recent advances.Clinical review: What are the best hemodynamic targets for noncardiac surgical patients?Endpoints of resuscitation: what are they anyway?Respiratory variations in the arterial pressure during mechanical ventilation reflect volume status and fluid responsiveness.The multimodal concept of hemodynamic stabilizationOptimizing mean arterial pressure in septic shock: a critical reappraisal of the literature.
P2860
Q24791262-D6D6835A-6262-4DE8-A81C-188F82C39FECQ24813583-DF11D768-3913-4B95-B8CA-1FB901F697BAQ26776490-F3BB1613-0657-4AB7-9498-C63F4DB59FD9Q26799400-23F75C57-31A2-4FC9-8CCF-98D05A931F3FQ28081995-86EDDFF7-0DC6-40EE-BC91-0A18CA617E82Q33829730-CE97BE84-BBDA-4E19-9B3B-33812D8EF09DQ34027070-3A8BF6C9-0A56-41C5-B1F6-5E48B3776DEDQ34042195-0803B292-44CF-42C6-872A-1B6D6E4E28F0Q34304269-80181B9F-6AC9-4D10-B495-6A5A04C8D6F6Q34480809-053BF0F1-C5D0-4191-9403-016359225AAFQ34740316-7BD6DA66-47E4-4F76-8235-88D3DCEC18EDQ35048984-C2B34825-0644-409D-AD18-1B03E23F22AAQ35567187-A7B1A76A-638B-461D-8B65-AB0DDDEA5599Q35626601-BAF69CC2-4BC7-4290-9669-0379F9119BBAQ35908123-755BE2FB-8E23-4C51-8441-2D2D1A487D6AQ36104084-754653B5-E90D-4E1E-834D-319EEE5751B1Q36205267-1C67B047-217B-4030-8B16-AEB656B84498Q36295709-57CB7DE4-3175-4942-92AC-1D71D029F31EQ36681434-24B8061D-6170-495B-80DD-493536E2DA30Q36787302-723B1924-594E-473C-92CC-C2F9212C6CFDQ37124484-7055838F-9C39-4901-B1EF-A7462A20A8E7Q37147080-C89BDE2A-5AB0-4066-90A1-27589AFDFC1DQ37315427-999B99F3-8C9B-4D44-B28A-EE9675C61563Q37368818-794DDBC7-2D71-4DD2-B933-D2E5D0F13632Q37443013-7C580AF7-39BA-4419-9819-96C4AED7F5F2Q37569345-F41C2084-60C3-4458-8960-14DCEF009A54Q37710766-3C2BC1AE-7116-411E-94B0-554938259C7BQ37713297-5FCD6296-FD5D-4DA7-9BD0-3814B7E9D181Q37730593-E54A58F3-0120-49E9-BA2A-F5DB2876222DQ37820373-3BA003DE-32B6-4D6F-A1C9-B20AAE922EAFQ37890292-3B539430-B2CA-421A-B0FB-E12F0B21C245Q37949424-E154DA5B-EA41-47CB-BA2B-5C164663ADEEQ37997816-3C8FE6DB-7817-4FBB-90EE-DA466B0286A5Q38034830-E4EA01E1-9F54-4F7A-A3E4-E5F1CC360583Q38091150-B806D36B-0717-450E-943D-2980701CAC87Q38106770-23BDE3F7-AF24-4FFC-A719-31A66D581586Q38184861-56E30D17-8BFE-4C7E-A6D3-C95BC284EFD4Q38204935-7D04A74D-EA23-4E3D-BD8F-6984A3FB7A5BQ38211039-B782B84C-739A-4972-A14C-2CF760FEAFA0Q38427234-133D927A-545F-4E52-BEB9-EFE0176E7A99
P2860
Using heart-lung interactions to assess fluid responsiveness during mechanical ventilation.
description
2000 nî lūn-bûn
@nan
2000 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
name
Using heart-lung interactions ...... during mechanical ventilation
@nl
Using heart-lung interactions ...... during mechanical ventilation.
@ast
Using heart-lung interactions ...... during mechanical ventilation.
@en
type
label
Using heart-lung interactions ...... during mechanical ventilation
@nl
Using heart-lung interactions ...... during mechanical ventilation.
@ast
Using heart-lung interactions ...... during mechanical ventilation.
@en
prefLabel
Using heart-lung interactions ...... during mechanical ventilation
@nl
Using heart-lung interactions ...... during mechanical ventilation.
@ast
Using heart-lung interactions ...... during mechanical ventilation.
@en
P2860
P3181
P356
P1433
P1476
Using heart-lung interactions ...... during mechanical ventilation.
@en
P2093
P2860
P2888
P304
P3181
P356
10.1186/CC710
P407
P577
2000-09-01T00:00:00Z
P5875
P6179
1013179914