Assessment of stroke volume variation for prediction of fluid responsiveness using the modified FloTrac and PiCCOplus system
about
Radial-femoral concordance in time and frequency domain-based estimates of systemic arterial respiratory variation.Assessment of the agreement between photoplethysmographic and arterial waveform respiratory variation in patients undergoing spine surgery.Goal-directed intraoperative therapy based on autocalibrated arterial pressure waveform analysis reduces hospital stay in high-risk surgical patients: a randomized, controlled trialA plea for balanced reporting.Intraoperative fluid optimization using stroke volume variation in high risk surgical patients: results of prospective randomized study.Cardiac output assessed by invasive and minimally invasive techniques.Liberal or restricted fluid administration: are we ready for a proposal of a restricted intraoperative approach?Perioperative fluid therapy: a statement from the international Fluid Optimization Group.Effects of high-volume, rapid-fluid therapy on cardiovascular function and hematological values during isoflurane-induced hypotension in healthy dogs.Perioperative management of patients with severe pulmonary hypertension in major orthopedic surgery: experience-based recommendationsPerioperative anesthesiological management of patients with pulmonary hypertension.Stroke volume variation for prediction of fluid responsiveness in patients undergoing gastrointestinal surgeryApplying dynamic parameters to predict hemodynamic response to volume expansion in spontaneously breathing patients with septic shock.Anaesthetic Considerations in the Perioperative Management of Cytoreductive Surgery and Hyperthermic Intraperitoneal ChemotherapyEfficacy and Safety of Stroke Volume Variation-Guided Fluid Therapy for Reducing Blood Loss and Transfusion Requirements During Radical Cystectomy: A Randomized Clinical Trial.Current practice in hemodynamic monitoring and management in high-risk surgery patients: a national survey of Korean anesthesiologists.Fluid responsiveness prediction using Vigileo FloTrac measured cardiac output changes during passive leg raise testComparison of monitoring performance of Bioreactance vs. pulse contour during lung recruitment maneuvers.Brachial artery peak velocity variation to predict fluid responsiveness in mechanically ventilated patients.Year in review 2008: Critical Care--cardiology.Echocardiography in the intensive care unit.Perioperative intravascular fluid assessment and monitoring: a narrative review of established and emerging techniques.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?Clinical review: What are the best hemodynamic targets for noncardiac surgical patients?Perioperative Maintenance of Tissue Perfusion and Cardiac Output in Cardiac Surgery Patients.Perioperative fluid guidance with transthoracic echocardiography and pulse-contour device in morbidly obese patients.Arterial Pressure Variation in Elective Noncardiac Surgery: Identifying Reference Distributions and Modifying Factors.Effective evaluation of arterial pulse waveform analysis by two-dimensional stroke volume variation-stroke volume index plots.Cardiac variation of inferior vena cava: new concept in the evaluation of intravascular blood volume.Outcomes associated with stroke volume variation versus central venous pressure guided fluid replacements during major abdominal surgery.Data availability and feasibility of various techniques to predict response to volume expansion in critically ill patientsBasic concepts of fluid responsiveness.What's New in Critical Illness and Injury Science? The continued search for the ideal hemodynamic monitoring device: Spending ourselves in a worthy cause and coming up shortSecurity and efficiency of a closed-system, turbulent-flow circuit for hyperthermic intraperitoneal chemotherapy after cytoreductive ovarian surgery: perioperative outputs.Inferior vena cava variation compared to pulse contour analysis as predictors of fluid responsiveness: a prospective cohort study.Observations on significant hemodynamic changes caused by a high concentration of epidurally administered ropivacaine: correlation and prediction study of stroke volume variation and central venous pressure in thoracic 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.Evaluation of stroke volume variation obtained by the FloTrac™/Vigileo™ system to guide preoperative fluid therapy in patients undergoing brain surgery.Does targeted pre-load optimisation by stroke volume variation attenuate a reduction in cardiac output in the prone position.
P2860
Q30455977-971E56DD-22B9-4E7C-BE7A-5157C3E26C09Q30456876-0B108A6E-A712-4BC2-9B59-032E9DC925C9Q33873463-2E45F4DC-3431-4717-A002-ED9F1595974FQ33919171-4A660EB4-A75E-44AF-B2EA-3A67F4B388D5Q34027045-1E63DF73-A8AD-4AFF-96E5-526042645DF6Q35109966-C8F12000-8EEB-46B9-889D-2D5929C58796Q35221679-7ECCA088-2453-474C-935C-8E563B261138Q35494370-9177F56D-9E22-40CA-A834-DCF264ED5D71Q35857997-C4BF4146-8C4D-4388-A2D4-9C9743795829Q36159657-EAB35E06-5FBC-47B5-A47C-29A67AA0744AQ36336623-020A9087-CABA-454A-9D7E-BD3D94BDB428Q36540113-AC426B46-CD65-4D47-A73B-E9A587D3848AQ36634281-E2DE4869-FA8B-496E-9AB2-775D2841D3ABQ36758897-420737E2-5A18-4634-9030-1EDE1FC45D9CQ36993621-D1106509-6BBF-4AEA-86A4-86817405D6EBQ37054256-CF4A3AFC-9E22-47D4-A3EB-F47DAF61E3E4Q37315427-5A4AEE0F-0367-41C2-BD3D-E0EB85825934Q37360340-76CB1E28-EBDC-4DED-B511-A53094B37880Q37443013-CF986196-EA70-488A-9EDF-3A9567B9B791Q37623075-5CEC840C-9992-4C96-A9ED-CA42744F2D56Q37896374-B74E8CC8-35CA-431E-8239-21E1C10ED74CQ37904699-0B03D81D-2E03-4977-A1AC-E4E2A6144ADBQ37949424-E6F4A1FE-24AE-4763-B845-9BBB65806DD1Q38077276-9EE0B2BB-8983-415E-8FCD-F976C30A2D53Q38106770-79266470-D7AA-44BD-A45C-9293749F1208Q38215979-FC6ED898-008F-48D3-A845-52DEC545DCACQ38428863-D7EBC25D-DFD3-47DF-B352-99AFDD878A2FQ39139629-7F32EB6E-A1D8-40EC-A6DB-520C7F4B0745Q39523159-1441AC52-B683-40EC-BC96-5DFF47A95905Q39699873-6B081CFD-561E-4B96-AE93-0BA7DC1136B2Q39701364-11EB1370-F0F6-49DF-8C44-09D427C6A9D3Q41855929-758164B1-7F07-4E6C-AA1E-25AF6B0C3BDEQ42005090-2D5361A1-0F59-47BF-99C1-BF1716015C3FQ42363919-93D2EA4B-9E7C-4308-B63A-C05E7C4E03A4Q45172317-A202B8D1-6990-474A-9609-F3ADD3D301A7Q46622750-272A69A8-EDA6-4723-A705-7AA35DF58E0FQ47108386-140478EE-839C-4885-8F2F-F8492859D19FQ47966657-A707E2AD-0A39-4420-9D92-708B693D860DQ48137441-2900219F-D86B-4B06-889F-B9D4C51DD68EQ48174897-54E9EAEC-EEE9-4BAF-BF60-AFA3BB96D60B
P2860
Assessment of stroke volume variation for prediction of fluid responsiveness using the modified FloTrac and PiCCOplus system
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
2008年论文
@zh
2008年论文
@zh-cn
name
Assessment of stroke volume va ...... d FloTrac and PiCCOplus system
@en
type
label
Assessment of stroke volume va ...... d FloTrac and PiCCOplus system
@en
prefLabel
Assessment of stroke volume va ...... d FloTrac and PiCCOplus system
@en
P2093
P2860
P356
P1433
P1476
Assessment of stroke volume va ...... d FloTrac and PiCCOplus system
@en
P2093
Alban Senn
Andreas Zollinger
Christoph K Hofer
Luc Weibel
P2860
P2888
P356
10.1186/CC6933
P577
2008-06-20T00:00:00Z
P5875
P6179
1028473005