Plasma Volume Status and its Association with In-Hospital and Post-Discharge Outcomes in Decompensated Heart Failure.

[1]  P. Ponikowski,et al.  Acute heart failure congestion and perfusion status – impact of the clinical classification on in‐hospital and long‐term outcomes; insights from the ESC‐EORP‐HFA Heart Failure Long‐Term Registry , 2019, European journal of heart failure.

[2]  M. Drazner,et al.  Prognostic implications of plasma volume status estimates in heart failure with preserved ejection fraction: insights from TOPCAT , 2019, European journal of heart failure.

[3]  P. Martens,et al.  The Optimal Plasma Volume Status in Heart Failure in Relation to Clinical Outcome. , 2019, Journal of cardiac failure.

[4]  P. Rossignol,et al.  The unit of Estimated Plasma Volume in Patients with Heart Failure using the Strauss-derived Duarte formula is not liter but dL/g. , 2019, Journal of cardiac failure.

[5]  W. Miller,et al.  Heart Failure Outcomes With Volume-Guided Management. , 2018, JACC. Heart failure.

[6]  F. Zannad,et al.  Diagnostic and prognostic value of plasma volume status at emergency department admission in dyspneic patients: results from the PARADISE cohort , 2018, Clinical Research in Cardiology.

[7]  F. Zannad,et al.  Prognostic value of estimated plasma volume in acute heart failure in three cohort studies , 2018, Clinical Research in Cardiology.

[8]  M. Fudim,et al.  Calculated Estimates of Plasma Volume in Patients With Chronic Heart Failure-Comparison With Measured Volumes. , 2018, Journal of cardiac failure.

[9]  P. Sobotka,et al.  Prediction of readmissions and mortality in patients with heart failure: lessons from the IMPEDANCE‐HF extended trial , 2018, ESC heart failure.

[10]  Y. Takeishi,et al.  Plasma volume status predicts prognosis in patients with acute heart failure syndromes , 2018, European heart journal. Acute cardiovascular care.

[11]  G. Felker,et al.  Role of Volume Redistribution in the Congestion of Heart Failure , 2017, Journal of the American Heart Association.

[12]  W. Tang,et al.  Plasma Volume Is Normal but Heterogeneously Distributed, and True Anemia Is Highly Prevalent in Patients With Stable Heart Failure. , 2016, Journal of cardiac failure.

[13]  L. Ng,et al.  Change in plasma volume and prognosis in acute decompensated heart failure: an observational cohort study , 2016, Journal of the Royal Society of Medicine.

[14]  W. Miller,et al.  IMPACT OF BLOOD VOLUME QUANTIFICATION ON DECONGESTION STRATEGY, READMISSION RATES (RR), AND MORTALITY IN HOSPITALIZED HEART FAILURE PATIENTS (HHF) , 2016 .

[15]  B. Pitt,et al.  Prognostic Value of Estimated Plasma Volume in Heart Failure. , 2015, JACC. Heart failure.

[16]  B. Mullan,et al.  Peripheral Venous Hemoglobin and Red Blood Cell Mass Mismatch in Volume Overload Systolic Heart Failure: Implications for Patient Management , 2015, Journal of Cardiovascular Translational Research.

[17]  V. Hasselblad,et al.  Predictors of clinical outcomes in acute decompensated heart failure: Acute Study of Clinical Effectiveness of Nesiritide in Decompensated Heart Failure outcome models. , 2015, American heart journal.

[18]  J. Cohn,et al.  Calculated plasma volume status and prognosis in chronic heart failure , 2015, European journal of heart failure.

[19]  B. Mullan,et al.  Understanding the heterogeneity in volume overload and fluid distribution in decompensated heart failure is key to optimal volume management: role for blood volume quantitation. , 2014, JACC. Heart failure.

[20]  C. O'connor,et al.  Decongestion in acute heart failure , 2014, European journal of heart failure.

[21]  G. Filippatos,et al.  Haemoconcentration, renal function, and post‐discharge outcomes among patients hospitalized for heart failure with reduced ejection fraction: insights from the EVEREST trial , 2013, European journal of heart failure.

[22]  P. Ponikowski,et al.  The predictive value of short-term changes in hemoglobin concentration in patients presenting with acute decompensated heart failure. , 2013, Journal of the American College of Cardiology.

[23]  N. Chapman,et al.  Abstract 17469: Prognostic Utility of the Hemoglobin/Hematocrit Equation for Estimating Plasma Volume Changes During Hospitalization for Acute Decompensated Heart Failure , 2012 .

[24]  L. Deckelbaum,et al.  Effect of nesiritide in patients with acute decompensated heart failure. , 2011, The New England journal of medicine.

[25]  W. Paulus,et al.  Heart failure with preserved ejection fraction: pathophysiology, diagnosis, and treatment. , 2011, European heart journal.

[26]  P. Norsk,et al.  Impact of diuretic treatment and sodium intake on plasma volume in patients with compensated systolic heart failure , 2010, European journal of heart failure.

[27]  S. Kimmel,et al.  Potential Effects of Aggressive Decongestion During the Treatment of Decompensated Heart Failure on Renal Function and Survival , 2010, Circulation.

[28]  G. Navis,et al.  Increased central venous pressure is associated with impaired renal function and mortality in a broad spectrum of patients with cardiovascular disease. , 2009, Journal of the American College of Cardiology.

[29]  Gary S Francis,et al.  Importance of venous congestion for worsening of renal function in advanced decompensated heart failure. , 2009, Journal of the American College of Cardiology.

[30]  V. Hasselblad,et al.  Rationale and design of the Acute Study of Clinical Effectiveness of Nesiritide in Decompensated Heart Failure Trial (ASCEND-HF). , 2009, American heart journal.

[31]  J. Concato,et al.  Patterns of Weight Change Preceding Hospitalization for Heart Failure , 2007, Circulation.

[32]  F. Fouad-Tarazi,et al.  Blood volume and brain natriuretic peptide in congestive heart failure: a pilot study. , 2005, American heart journal.

[33]  C. O’loughlin,et al.  Clinical deterioration in established heart failure: What is the value of BNP and weight gain in aiding diagnosis? , 2005, European journal of heart failure.

[34]  D. Mancini,et al.  Relation of unrecognized hypervolemia in chronic heart failure to clinical status, hemodynamics, and patient outcomes. , 2004, The American journal of cardiology.

[35]  H. Endoh,et al.  Does central venous pressure or pulmonary capillary wedge pressure reflect the status of circulating blood volume in patients after extended transthoracic esophagectomy? , 2004, Journal of Anesthesia.

[36]  R. Myerburg,et al.  Clinical, radiographic, and hemodynamic correlations in chronic congestive heart failure: conflicting results may lead to inappropriate care. , 1991, The American journal of medicine.

[37]  L. Stevenson,et al.  The limited reliability of physical signs for estimating hemodynamics in chronic heart failure. , 1989, JAMA.

[38]  W. Shoemaker,et al.  Reliability of clinical monitoring to assess blood volume in critically ill patients. , 1982 .

[39]  J. Carr Plasmapheresis. , 1978, Zeitschrift fur Allgemeinmedizin.

[40]  J. D. Rosenbaum,et al.  Water diuresis produced during recumbency by the intravenous infusion of isotonic saline solution. , 1951, The Journal of clinical investigation.