Vascular pedicle width in acute lung injury: correlation with intravascular pressures and ability to discriminate fluid status

[1]  Lung Pulmonary-artery versus central venous catheter to guide treatment of acute lung injury. , 2009 .

[2]  A. Arroliga,et al.  Pulmonary Artery Catheter and Fluid Management in Acute Lung Injury and the Acute Respiratory Distress Syndrome (DOI: 10.1016/j.ccm.2006.08.002) , 2007 .

[3]  M. Levy,et al.  Hemodynamic monitoring in shock and implications for management , 2007, Intensive Care Medicine.

[4]  A. Arroliga,et al.  Pulmonary artery catheter and fluid management in acute lung injury and the acute respiratory distress syndrome. , 2006, Clinics in chest medicine.

[5]  G. Bernard,et al.  Comparison of two fluid-management strategies in acute lung injury. , 2006, The New England journal of medicine.

[6]  M. Matthay,et al.  Acute Pulmonary Edema , 2005 .

[7]  Clifford Kavinsky,et al.  Pulmonary artery occlusion pressure and central venous pressure fail to predict ventricular filling volume, cardiac performance, or the response to volume infusion in normal subjects , 2004, Critical care medicine.

[8]  G. Bernard,et al.  Findings on the portable chest radiograph correlate with fluid balance in critically ill patients. , 2002, Chest.

[9]  G. Evans,et al.  Radiologic determination of intravascular volume status using portable, digital chest radiography: A prospective investigation in 100 patients , 2001, Critical care medicine.

[10]  Theodore Speroff,et al.  Evaluation of delirium in critically ill patients: Validation of the Confusion Assessment Method for the Intensive Care Unit (CAM-ICU) , 2001, Critical care medicine.

[11]  Woodring Jh,et al.  Noninvasive estimation of pulmonary capillary wedge pressure from computed radiography. , 2000 .

[12]  S. Lampotang,et al.  Synchronization of radiograph film exposure with the inspiratory pause. Effect on the appearance of bedside chest radiographs in mechanically ventilated patients. , 1999, American journal of respiratory and critical care medicine.

[13]  K. Reinhart,et al.  Comparison of pulmonary artery and arterial thermodilution cardiac output in critically ill patients , 1999, Intensive Care Medicine.

[14]  R. Freimanis,et al.  Appraising pulmonary edema using supine chest roentgenograms in ventilated patients. , 1998, American journal of respiratory and critical care medicine.

[15]  R H Choplin,et al.  Chest X-ray changes in air space disease are associated with parameters of mechanical ventilation in ICU patients. , 1996, American journal of respiratory and critical care medicine.

[16]  S. Shumway,et al.  "Incisura" of the ascending aorta and vascular pedicle width in the cardiac transplant patient. , 1996, The Annals of thoracic surgery.

[17]  G. Zimmerman,et al.  The acute respiratory distress syndrome. , 1996, The Journal of clinical investigation.

[18]  Karyn M. Warsow,et al.  End-diastolic volume versus pulmonary artery wedge pressure in evaluating cardiac preload in trauma patients. , 1994, The Journal of trauma.

[19]  J. Bourdarias,et al.  Invasive monitoring combined with two-dimensional echocardiographic study in septic shock , 1994, Intensive Care Medicine.

[20]  L. Hillis,et al.  Relation of mean pulmonary arterial wedge pressure and left ventricular end-diastolic pressure. , 1990, The American journal of cardiology.

[21]  D. Levine,et al.  Body fluid volume status in hemodialysis patients: the value of the chest radiograph. , 1990, Canadian Association of Radiologists journal = Journal l'Association canadienne des radiologistes.

[22]  D. Aberle,et al.  Hydrostatic versus increased permeability pulmonary edema: diagnosis based on radiographic criteria in critically ill patients. , 1988, Radiology.

[23]  M. Lebowitz,et al.  Objective radiographic criteria to differentiate cardiac, renal, and injury lung edema. , 1988, Investigative radiology.

[24]  E. Bleecker,et al.  Increased vascular pedicle width preceding burn-related pulmonary edema. , 1986, Chest.

[25]  M. Pistolesi,et al.  The radiologic distinction of cardiogenic and noncardiogenic edema. , 1985, AJR. American journal of roentgenology.

[26]  M. Pistolesi,et al.  The vascular pedicle and the vena azygos. Part III: In trauma--the "vanishing" azygos. , 1984, Radiology.

[27]  M. Pistolesi,et al.  The vascular pedicle of the heart and the vena azygos. Part II: Acquired heart disease. , 1984, Radiology.

[28]  M. Pistolesi,et al.  The vascular pedicle of the heart and the vena azygos. Part I: The normal subject. , 1984, Radiology.

[29]  W. Sibbald,et al.  Does the pulmonary capillary wedge pressure predict left ventricular preload in critically ill patients? , 1981, Critical care medicine.

[30]  G. Diamond,et al.  Catheterization of the heart in man with use of a flow-directed balloon-tipped catheter. , 1970, The New England journal of medicine.

[31]  J. Ross,et al.  Left Atrial and Left Ventricular Pressures in Subjects without Cardiovascular Disease: Observations in Eighteen Patients Studied by Transseptal Left Heart Catheterization , 1961, Circulation.

[32]  G. Bernard,et al.  Pulmonary-artery versus central venous catheter to guide treatment of acute lung injury. , 2006, The New England journal of medicine.

[33]  M. Matthay,et al.  Clinical practice. Acute pulmonary edema. , 2005, The New England journal of medicine.

[34]  U. Pfeiffer,et al.  Intrathoracic blood volume accurately reflects circulatory volume status in critically ill patients with mechanical ventilation , 2005, Intensive Care Medicine.

[35]  C. Given,et al.  Noninvasive estimation of pulmonary capillary wedge pressure from computed radiography. , 2000, The Journal of the Kentucky Medical Association.