Rational Use of Intravenous Fluids in Critically Ill Patients.

Rational Use of Intravenous Fluids in Critically Ill Patients.

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Malbrain, Manu L. N. G.
TeilnehmendeR:
Wong, Adrian.
Nasa, Prashant.
Ghosh, Supradip.
Place / Publishing House:Cham : : Springer International Publishing AG,, 2023.
©2024.
Year of Publication:2023
Edition:First edition.
Language:English
Physical Description:1 online resource (600 pages)
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id 993640358604498
ctrlnum (CKB)5670000000788102
(MiAaPQ)EBC31016773
(Au-PeEL)EBL31016773
(OCoLC)1415907003
(EXLCZ)995670000000788102
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spelling Malbrain, Manu L. N. G.
Rational Use of Intravenous Fluids in Critically Ill Patients.
First edition.
Cham : Springer International Publishing AG, 2023.
©2024.
1 online resource (600 pages)
text txt rdacontent
computer c rdamedia
online resource cr rdacarrier
Description based on publisher supplied metadata and other sources.
Intro -- Foreword 1 -- Foreword 2 -- Foreword 3 -- Foreword 4 -- Foreword 5 -- Foreword 6 -- Foreword 7 -- Preface -- Contents -- Contributors -- Part I: Fundamentals of Intravenous Fluid Therapy -- 1: Terms and Definitions of Fluid Therapy -- Introduction -- Terms and Definitions -- Conclusions -- References -- 2: Fluid Physiology Part 1: Volume and Distribution of Water and Its Major Solutes Between Plasma, the Interstitium and Intracellular Fluid -- Introduction -- Total Body Water -- Clinical Use of Total Body Water Estimation and Modified Body Weights -- Water Absorption -- Plasma Volume -- The Starling Principle and Microvessel Heterogeneity -- Exceptions to the No-Absorption Rule -- The Current Understanding of Starling Forces -- Starling Forces -- Steady State Variations Versus Abrupt Disequilibrium -- Interstitium and Lymphatics -- The Triphasic Interstitium -- Collagen Phase -- The Triphasic Interstitium -- Hyaluronan Gel Phase -- The Triphasic Interstitium -- Aqueous Phase -- Gel Swelling Pressure -- Interstitial Starling Forces -- Lymphatic Vascular System -- Interstitial Fluid Dynamics -- Lymphatics and the Interstitial Storage of Sodium -- Interstitial Fluid and Lymph in Critical Illness -- Pulmonary Starling Forces and the Extravascular Lung Water -- Cell Fluid and Extracellular Fluid -- Starling Forces Between Extracellular and Intracellular Fluids -- Maintenance of the Extracellular-Intracellular Solute Balance is Energy-Dependent -- Double Donnan Effect -- Potassium and Magnesium Ions -- Cell Volume Regulation and Intracranial Pressure -- Cell Volume Regulation beyond the Brain -- Hessels' Alternative Model of Water, Sodium and Potassium Distribution -- Water Excretion -- References -- 3: Fluid Physiology Part 2: Regulation of Body Fluids and the Distribution of Infusion Fluids -- Introduction -- Fluid Balance -- Fluid Intake.
Fluid Losses -- Fluid Movement and Edema Formation -- Cell Membrane -- Capillary Membrane -- The Starling Equation -- Edema Formation -- The Importance of Organ Function -- The Kidneys -- Nervous Control -- Hormones -- Cardiac Response to Fluid -- Electrolytes -- Crystalloid Fluid Solutions -- Ringer's Solution -- Other Crystalloid Fluids -- Colloid Fluid Solutions -- Measurement of Body Fluid Volumes -- Fluid Efficiency -- Volume Kinetics, Basic Concepts -- Crystalloids Versus Colloids -- Goals of Fluid Therapy -- References -- 4: Fluid Dynamics During Resuscitation: From Frank-Starling to the Reappraisal of Guyton -- Introduction -- What Are the Factors That Determine Flow of Blood from Peripheral Circulation to Heart? -- What Are the Factors That Determine Mean Systemic Pressure? -- Guyton's Experiment and Venous Return Curve -- Starling's Experiment -- Effect of Fluid Bolus on Venous Return Curve -- Cardiac Function Curve -- Integrating the Return Function with Cardiac Function -- Overall Effect of Fluid Bolus on Circulation -- Validation of Guytonian Model in Human Studies -- Conclusion -- References -- 5: Understanding Heart-Lung Interactions: Concepts of Fluid Responsiveness -- Introduction -- Basics of Respiratory and Cardio-Circulatory Physiology -- Effects of Mechanical Ventilation on Intrathoracic Pressure -- The Pump -- Venous Return and Ventricular Preload -- Ventricular Afterload -- Left Ventricular Afterload -- Right Ventricular Afterload -- Ventricular Interdependence -- Heart-Lung Interactions: Clinical Application -- Functional Hemodynamic Monitoring -- Concept of Fluid Responsiveness -- Dynamic Indicators for Fluid Responsiveness -- Invasive Assessment of Respiratory Changes in LV Stroke Volume -- Pulse Pressure Variation -- Non-invasive Assessment of Respiratory Changes in LV Stroke Volume.
Other Clinically Significant Clinical Interactions -- Cardiopulmonary Changes in Prone Positioning -- Conclusions -- References -- 6: Acid-Base Homeostasis: Traditional Approach -- Introduction -- Definitions -- Acid-Base Homeostasis -- High AG Metabolic Acidosis -- Normal AG Metabolic Acidosis -- Metabolic Alkalosis -- Some More Illustrative Cases -- Conclusion -- Reference -- 7: Acid Base Homeostasis: Stewart Approach at the Bedside -- Introduction -- Physicochemical Perspective -- SID and Acid Base Balance -- Total Nonvolatile Acid Anion (Atot) and Acid Base Balance -- Total CO2 -- Stewart at Bedside: Fencl-Stewart Approach -- Fencl-Stewart: Putting It All Together -- Stewart at Bedside: Using Standard Base Excess -- Effect of Different IV Fluids on Acid-Base Balance -- Some More Illustrative Case -- Conclusion -- References -- 8: The 4-indications of Fluid Therapy: Resuscitation, Replacement, Maintenance and Nutrition Fluids, and Beyond -- Introduction -- The Four Indications -- Resuscitation Fluids -- Maintenance Fluids -- Replacement Fluids -- Nutrition Fluids -- The Four Questions -- When to Start IV Fluids? -- When to Stop IV Fluids? -- When to Start Fluid Removal? -- When to Stop Fluid Removal? -- The Four (or Six) D's -- Diagnosis -- Drug -- Dose -- Duration -- De-escalation -- Discharge -- The Four Hits -- First Hit: Initial Insult -- Second Hit: Ischemia-Reperfusion -- Third Hit: Global Increased Permeability Syndrome -- Fourth Hit: Hypoperfusion -- The Four Phases (ROSE Concept) -- Resuscitation -- Optimization -- Stabilization -- Evacuation -- The Other Fours -- The Four Compartments -- The Four Spaces -- The Four Losses -- Conclusions -- References -- Part II: Available Intravenous Fluids -- 9: The Place of Crystalloids -- Introduction -- Fluid Physiology -- Types of Crystalloids -- Isotonic Crystalloids.
Isotonic Saline or 0.9% Saline -- Balanced Crystalloids -- Clinical Evidence: 0.9% Saline Vs Balanced -- Observational Studies -- Randomized Controlled Studies -- Hypotonic Crystalloids -- Hypertonic Crystalloids -- Hypertonic Saline -- Sodium Bicarbonate Solution -- Conclusion -- References -- 10: The Case for Albumin as Volume Expander and beyond -- Introduction -- Albumin in Health -- Albumin in Critical Illness -- Evidence on Albumin as a Plasma Expander -- Timing of Albumin Administration during Resuscitation -- Comparison of Different Strengths of Albumin -- Albumin beyond Resuscitation -- Patients with Liver Disease -- Treatment of Hypoalbuminemia with Peripheral Oedema -- Deresuscitation -- Other Indications -- Caution with the Use of Albumin -- Conclusion -- References -- 11: The Place for Starches and Other Colloids -- Introduction -- Hydroxyethyl Starch -- Pharmacology -- Is Hydroxyethyl Starch Beneficial? -- Evidence in Critically Ill Patients -- Perioperative Use of HES -- Controversies and Restrictions on HES -- Gelatins -- Dextrans -- Conclusion -- References -- 12: How to Use Blood and Blood Products -- Introduction -- Anemia and Red Cell Administration -- Age of RBC and Transfusion Outcomes -- Thrombocytopenia and Platelet Transfusion -- Coagulopathy and Plasma Transfusion -- Adverse Transfusion Reactions in Critical Care -- Alternatives to Transfusion -- Conclusion -- References -- 13: Nutrition Delivery in Critically Ill Patients -- Introduction -- Goals of Nutrition in the ICU -- Nutrition Assessment -- Assessment of Energy Needs -- Initiate Early EN -- Dosing of EN -- Monitoring Tolerance and Adequacy of EN -- Selection of Appropriate Enteral Formulation -- When to Use PN -- When Indicated, Maximize Efficacy of PN -- Special Situations -- Pulmonary Failure -- Renal Failure -- Hepatic Failure -- Acute Pancreatitis -- Trauma.
Burns -- Sepsis -- Postoperative Major Surgery -- Obese Patients -- Fluid Therapy and Nutrition -- Conclusion -- References -- Part III: Fluid Therapy in Special Conditions -- 14: Fluid Management in Septic Shock -- Introduction -- Septic Shock: Pathophysiology -- Septic Shock: Diagnosis -- Septic Shock: Management -- Resuscitation -- Which Fluid? -- Dose of Fluid -- Interaction with Vasopressors -- Septic Shock: Monitoring -- Limiting Cumulative Fluid Balance -- Conclusion -- References -- 15: Fluid Management in Cardiogenic Shock -- Introduction -- Fluid Management of Left-Ventricular Failure -- How Should Fluid Responsiveness Be Assessed and Fluid Therapy Titrated in these Patients? -- Fluid Management in Right-Ventricular Failure -- How to Assess Fluid Responsiveness and Titrate Fluids in RV Failure? -- Conclusion -- References -- 16: Fluid Management in Trauma -- Introduction -- Goals of Early Resuscitation -- Initial Choice of Fluid for Trauma Resuscitation -- Crystalloids -- Colloids -- Hypertonic Solutions -- Penetrating Versus Blunt Injury Versus Head Injuries -- Initial Trauma Resuscitation Fluid Volume -- Practical Approach to Initial Fluid Resuscitation and Pattern of Responses -- Completion of Resuscitation -- Post-Resuscitation Fluid Management -- Deresuscitation -- Conclusion -- References -- 17: Fluid Management in Neurocritical Care -- Introduction -- Physiological Considerations -- What Kind of Fluid Is Appropriate in NIC Patients? -- Does Tonicity of the IV Fluids Matter in NIC Patients? -- Hyperosmolar Therapy in NIC Patients -- End Points of Fluid Therapy Management in Neurocritical Care: How Much Fluid Is Enough? -- Monitoring Fluid Therapy in NIC Patients -- A Note on Common Electrolyte Disturbances in NIC Patients -- General Considerations -- Hyponatraemia -- Hypernatremia -- Hyperchloraemia -- Other Electrolyte Disturbances.
Fluid Therapy Management in Neurocritical Care: Clinical Practice Recommendations.
3-031-42204-X
Wong, Adrian.
Nasa, Prashant.
Ghosh, Supradip.
language English
format eBook
author Malbrain, Manu L. N. G.
spellingShingle Malbrain, Manu L. N. G.
Rational Use of Intravenous Fluids in Critically Ill Patients.
Intro -- Foreword 1 -- Foreword 2 -- Foreword 3 -- Foreword 4 -- Foreword 5 -- Foreword 6 -- Foreword 7 -- Preface -- Contents -- Contributors -- Part I: Fundamentals of Intravenous Fluid Therapy -- 1: Terms and Definitions of Fluid Therapy -- Introduction -- Terms and Definitions -- Conclusions -- References -- 2: Fluid Physiology Part 1: Volume and Distribution of Water and Its Major Solutes Between Plasma, the Interstitium and Intracellular Fluid -- Introduction -- Total Body Water -- Clinical Use of Total Body Water Estimation and Modified Body Weights -- Water Absorption -- Plasma Volume -- The Starling Principle and Microvessel Heterogeneity -- Exceptions to the No-Absorption Rule -- The Current Understanding of Starling Forces -- Starling Forces -- Steady State Variations Versus Abrupt Disequilibrium -- Interstitium and Lymphatics -- The Triphasic Interstitium -- Collagen Phase -- The Triphasic Interstitium -- Hyaluronan Gel Phase -- The Triphasic Interstitium -- Aqueous Phase -- Gel Swelling Pressure -- Interstitial Starling Forces -- Lymphatic Vascular System -- Interstitial Fluid Dynamics -- Lymphatics and the Interstitial Storage of Sodium -- Interstitial Fluid and Lymph in Critical Illness -- Pulmonary Starling Forces and the Extravascular Lung Water -- Cell Fluid and Extracellular Fluid -- Starling Forces Between Extracellular and Intracellular Fluids -- Maintenance of the Extracellular-Intracellular Solute Balance is Energy-Dependent -- Double Donnan Effect -- Potassium and Magnesium Ions -- Cell Volume Regulation and Intracranial Pressure -- Cell Volume Regulation beyond the Brain -- Hessels' Alternative Model of Water, Sodium and Potassium Distribution -- Water Excretion -- References -- 3: Fluid Physiology Part 2: Regulation of Body Fluids and the Distribution of Infusion Fluids -- Introduction -- Fluid Balance -- Fluid Intake.
Fluid Losses -- Fluid Movement and Edema Formation -- Cell Membrane -- Capillary Membrane -- The Starling Equation -- Edema Formation -- The Importance of Organ Function -- The Kidneys -- Nervous Control -- Hormones -- Cardiac Response to Fluid -- Electrolytes -- Crystalloid Fluid Solutions -- Ringer's Solution -- Other Crystalloid Fluids -- Colloid Fluid Solutions -- Measurement of Body Fluid Volumes -- Fluid Efficiency -- Volume Kinetics, Basic Concepts -- Crystalloids Versus Colloids -- Goals of Fluid Therapy -- References -- 4: Fluid Dynamics During Resuscitation: From Frank-Starling to the Reappraisal of Guyton -- Introduction -- What Are the Factors That Determine Flow of Blood from Peripheral Circulation to Heart? -- What Are the Factors That Determine Mean Systemic Pressure? -- Guyton's Experiment and Venous Return Curve -- Starling's Experiment -- Effect of Fluid Bolus on Venous Return Curve -- Cardiac Function Curve -- Integrating the Return Function with Cardiac Function -- Overall Effect of Fluid Bolus on Circulation -- Validation of Guytonian Model in Human Studies -- Conclusion -- References -- 5: Understanding Heart-Lung Interactions: Concepts of Fluid Responsiveness -- Introduction -- Basics of Respiratory and Cardio-Circulatory Physiology -- Effects of Mechanical Ventilation on Intrathoracic Pressure -- The Pump -- Venous Return and Ventricular Preload -- Ventricular Afterload -- Left Ventricular Afterload -- Right Ventricular Afterload -- Ventricular Interdependence -- Heart-Lung Interactions: Clinical Application -- Functional Hemodynamic Monitoring -- Concept of Fluid Responsiveness -- Dynamic Indicators for Fluid Responsiveness -- Invasive Assessment of Respiratory Changes in LV Stroke Volume -- Pulse Pressure Variation -- Non-invasive Assessment of Respiratory Changes in LV Stroke Volume.
Other Clinically Significant Clinical Interactions -- Cardiopulmonary Changes in Prone Positioning -- Conclusions -- References -- 6: Acid-Base Homeostasis: Traditional Approach -- Introduction -- Definitions -- Acid-Base Homeostasis -- High AG Metabolic Acidosis -- Normal AG Metabolic Acidosis -- Metabolic Alkalosis -- Some More Illustrative Cases -- Conclusion -- Reference -- 7: Acid Base Homeostasis: Stewart Approach at the Bedside -- Introduction -- Physicochemical Perspective -- SID and Acid Base Balance -- Total Nonvolatile Acid Anion (Atot) and Acid Base Balance -- Total CO2 -- Stewart at Bedside: Fencl-Stewart Approach -- Fencl-Stewart: Putting It All Together -- Stewart at Bedside: Using Standard Base Excess -- Effect of Different IV Fluids on Acid-Base Balance -- Some More Illustrative Case -- Conclusion -- References -- 8: The 4-indications of Fluid Therapy: Resuscitation, Replacement, Maintenance and Nutrition Fluids, and Beyond -- Introduction -- The Four Indications -- Resuscitation Fluids -- Maintenance Fluids -- Replacement Fluids -- Nutrition Fluids -- The Four Questions -- When to Start IV Fluids? -- When to Stop IV Fluids? -- When to Start Fluid Removal? -- When to Stop Fluid Removal? -- The Four (or Six) D's -- Diagnosis -- Drug -- Dose -- Duration -- De-escalation -- Discharge -- The Four Hits -- First Hit: Initial Insult -- Second Hit: Ischemia-Reperfusion -- Third Hit: Global Increased Permeability Syndrome -- Fourth Hit: Hypoperfusion -- The Four Phases (ROSE Concept) -- Resuscitation -- Optimization -- Stabilization -- Evacuation -- The Other Fours -- The Four Compartments -- The Four Spaces -- The Four Losses -- Conclusions -- References -- Part II: Available Intravenous Fluids -- 9: The Place of Crystalloids -- Introduction -- Fluid Physiology -- Types of Crystalloids -- Isotonic Crystalloids.
Isotonic Saline or 0.9% Saline -- Balanced Crystalloids -- Clinical Evidence: 0.9% Saline Vs Balanced -- Observational Studies -- Randomized Controlled Studies -- Hypotonic Crystalloids -- Hypertonic Crystalloids -- Hypertonic Saline -- Sodium Bicarbonate Solution -- Conclusion -- References -- 10: The Case for Albumin as Volume Expander and beyond -- Introduction -- Albumin in Health -- Albumin in Critical Illness -- Evidence on Albumin as a Plasma Expander -- Timing of Albumin Administration during Resuscitation -- Comparison of Different Strengths of Albumin -- Albumin beyond Resuscitation -- Patients with Liver Disease -- Treatment of Hypoalbuminemia with Peripheral Oedema -- Deresuscitation -- Other Indications -- Caution with the Use of Albumin -- Conclusion -- References -- 11: The Place for Starches and Other Colloids -- Introduction -- Hydroxyethyl Starch -- Pharmacology -- Is Hydroxyethyl Starch Beneficial? -- Evidence in Critically Ill Patients -- Perioperative Use of HES -- Controversies and Restrictions on HES -- Gelatins -- Dextrans -- Conclusion -- References -- 12: How to Use Blood and Blood Products -- Introduction -- Anemia and Red Cell Administration -- Age of RBC and Transfusion Outcomes -- Thrombocytopenia and Platelet Transfusion -- Coagulopathy and Plasma Transfusion -- Adverse Transfusion Reactions in Critical Care -- Alternatives to Transfusion -- Conclusion -- References -- 13: Nutrition Delivery in Critically Ill Patients -- Introduction -- Goals of Nutrition in the ICU -- Nutrition Assessment -- Assessment of Energy Needs -- Initiate Early EN -- Dosing of EN -- Monitoring Tolerance and Adequacy of EN -- Selection of Appropriate Enteral Formulation -- When to Use PN -- When Indicated, Maximize Efficacy of PN -- Special Situations -- Pulmonary Failure -- Renal Failure -- Hepatic Failure -- Acute Pancreatitis -- Trauma.
Burns -- Sepsis -- Postoperative Major Surgery -- Obese Patients -- Fluid Therapy and Nutrition -- Conclusion -- References -- Part III: Fluid Therapy in Special Conditions -- 14: Fluid Management in Septic Shock -- Introduction -- Septic Shock: Pathophysiology -- Septic Shock: Diagnosis -- Septic Shock: Management -- Resuscitation -- Which Fluid? -- Dose of Fluid -- Interaction with Vasopressors -- Septic Shock: Monitoring -- Limiting Cumulative Fluid Balance -- Conclusion -- References -- 15: Fluid Management in Cardiogenic Shock -- Introduction -- Fluid Management of Left-Ventricular Failure -- How Should Fluid Responsiveness Be Assessed and Fluid Therapy Titrated in these Patients? -- Fluid Management in Right-Ventricular Failure -- How to Assess Fluid Responsiveness and Titrate Fluids in RV Failure? -- Conclusion -- References -- 16: Fluid Management in Trauma -- Introduction -- Goals of Early Resuscitation -- Initial Choice of Fluid for Trauma Resuscitation -- Crystalloids -- Colloids -- Hypertonic Solutions -- Penetrating Versus Blunt Injury Versus Head Injuries -- Initial Trauma Resuscitation Fluid Volume -- Practical Approach to Initial Fluid Resuscitation and Pattern of Responses -- Completion of Resuscitation -- Post-Resuscitation Fluid Management -- Deresuscitation -- Conclusion -- References -- 17: Fluid Management in Neurocritical Care -- Introduction -- Physiological Considerations -- What Kind of Fluid Is Appropriate in NIC Patients? -- Does Tonicity of the IV Fluids Matter in NIC Patients? -- Hyperosmolar Therapy in NIC Patients -- End Points of Fluid Therapy Management in Neurocritical Care: How Much Fluid Is Enough? -- Monitoring Fluid Therapy in NIC Patients -- A Note on Common Electrolyte Disturbances in NIC Patients -- General Considerations -- Hyponatraemia -- Hypernatremia -- Hyperchloraemia -- Other Electrolyte Disturbances.
Fluid Therapy Management in Neurocritical Care: Clinical Practice Recommendations.
author_facet Malbrain, Manu L. N. G.
Wong, Adrian.
Nasa, Prashant.
Ghosh, Supradip.
author_variant m l n g m mlng mlngm
author2 Wong, Adrian.
Nasa, Prashant.
Ghosh, Supradip.
author2_variant a w aw
p n pn
s g sg
author2_role TeilnehmendeR
TeilnehmendeR
TeilnehmendeR
author_sort Malbrain, Manu L. N. G.
title Rational Use of Intravenous Fluids in Critically Ill Patients.
title_full Rational Use of Intravenous Fluids in Critically Ill Patients.
title_fullStr Rational Use of Intravenous Fluids in Critically Ill Patients.
title_full_unstemmed Rational Use of Intravenous Fluids in Critically Ill Patients.
title_auth Rational Use of Intravenous Fluids in Critically Ill Patients.
title_new Rational Use of Intravenous Fluids in Critically Ill Patients.
title_sort rational use of intravenous fluids in critically ill patients.
publisher Springer International Publishing AG,
publishDate 2023
physical 1 online resource (600 pages)
edition First edition.
contents Intro -- Foreword 1 -- Foreword 2 -- Foreword 3 -- Foreword 4 -- Foreword 5 -- Foreword 6 -- Foreword 7 -- Preface -- Contents -- Contributors -- Part I: Fundamentals of Intravenous Fluid Therapy -- 1: Terms and Definitions of Fluid Therapy -- Introduction -- Terms and Definitions -- Conclusions -- References -- 2: Fluid Physiology Part 1: Volume and Distribution of Water and Its Major Solutes Between Plasma, the Interstitium and Intracellular Fluid -- Introduction -- Total Body Water -- Clinical Use of Total Body Water Estimation and Modified Body Weights -- Water Absorption -- Plasma Volume -- The Starling Principle and Microvessel Heterogeneity -- Exceptions to the No-Absorption Rule -- The Current Understanding of Starling Forces -- Starling Forces -- Steady State Variations Versus Abrupt Disequilibrium -- Interstitium and Lymphatics -- The Triphasic Interstitium -- Collagen Phase -- The Triphasic Interstitium -- Hyaluronan Gel Phase -- The Triphasic Interstitium -- Aqueous Phase -- Gel Swelling Pressure -- Interstitial Starling Forces -- Lymphatic Vascular System -- Interstitial Fluid Dynamics -- Lymphatics and the Interstitial Storage of Sodium -- Interstitial Fluid and Lymph in Critical Illness -- Pulmonary Starling Forces and the Extravascular Lung Water -- Cell Fluid and Extracellular Fluid -- Starling Forces Between Extracellular and Intracellular Fluids -- Maintenance of the Extracellular-Intracellular Solute Balance is Energy-Dependent -- Double Donnan Effect -- Potassium and Magnesium Ions -- Cell Volume Regulation and Intracranial Pressure -- Cell Volume Regulation beyond the Brain -- Hessels' Alternative Model of Water, Sodium and Potassium Distribution -- Water Excretion -- References -- 3: Fluid Physiology Part 2: Regulation of Body Fluids and the Distribution of Infusion Fluids -- Introduction -- Fluid Balance -- Fluid Intake.
Fluid Losses -- Fluid Movement and Edema Formation -- Cell Membrane -- Capillary Membrane -- The Starling Equation -- Edema Formation -- The Importance of Organ Function -- The Kidneys -- Nervous Control -- Hormones -- Cardiac Response to Fluid -- Electrolytes -- Crystalloid Fluid Solutions -- Ringer's Solution -- Other Crystalloid Fluids -- Colloid Fluid Solutions -- Measurement of Body Fluid Volumes -- Fluid Efficiency -- Volume Kinetics, Basic Concepts -- Crystalloids Versus Colloids -- Goals of Fluid Therapy -- References -- 4: Fluid Dynamics During Resuscitation: From Frank-Starling to the Reappraisal of Guyton -- Introduction -- What Are the Factors That Determine Flow of Blood from Peripheral Circulation to Heart? -- What Are the Factors That Determine Mean Systemic Pressure? -- Guyton's Experiment and Venous Return Curve -- Starling's Experiment -- Effect of Fluid Bolus on Venous Return Curve -- Cardiac Function Curve -- Integrating the Return Function with Cardiac Function -- Overall Effect of Fluid Bolus on Circulation -- Validation of Guytonian Model in Human Studies -- Conclusion -- References -- 5: Understanding Heart-Lung Interactions: Concepts of Fluid Responsiveness -- Introduction -- Basics of Respiratory and Cardio-Circulatory Physiology -- Effects of Mechanical Ventilation on Intrathoracic Pressure -- The Pump -- Venous Return and Ventricular Preload -- Ventricular Afterload -- Left Ventricular Afterload -- Right Ventricular Afterload -- Ventricular Interdependence -- Heart-Lung Interactions: Clinical Application -- Functional Hemodynamic Monitoring -- Concept of Fluid Responsiveness -- Dynamic Indicators for Fluid Responsiveness -- Invasive Assessment of Respiratory Changes in LV Stroke Volume -- Pulse Pressure Variation -- Non-invasive Assessment of Respiratory Changes in LV Stroke Volume.
Other Clinically Significant Clinical Interactions -- Cardiopulmonary Changes in Prone Positioning -- Conclusions -- References -- 6: Acid-Base Homeostasis: Traditional Approach -- Introduction -- Definitions -- Acid-Base Homeostasis -- High AG Metabolic Acidosis -- Normal AG Metabolic Acidosis -- Metabolic Alkalosis -- Some More Illustrative Cases -- Conclusion -- Reference -- 7: Acid Base Homeostasis: Stewart Approach at the Bedside -- Introduction -- Physicochemical Perspective -- SID and Acid Base Balance -- Total Nonvolatile Acid Anion (Atot) and Acid Base Balance -- Total CO2 -- Stewart at Bedside: Fencl-Stewart Approach -- Fencl-Stewart: Putting It All Together -- Stewart at Bedside: Using Standard Base Excess -- Effect of Different IV Fluids on Acid-Base Balance -- Some More Illustrative Case -- Conclusion -- References -- 8: The 4-indications of Fluid Therapy: Resuscitation, Replacement, Maintenance and Nutrition Fluids, and Beyond -- Introduction -- The Four Indications -- Resuscitation Fluids -- Maintenance Fluids -- Replacement Fluids -- Nutrition Fluids -- The Four Questions -- When to Start IV Fluids? -- When to Stop IV Fluids? -- When to Start Fluid Removal? -- When to Stop Fluid Removal? -- The Four (or Six) D's -- Diagnosis -- Drug -- Dose -- Duration -- De-escalation -- Discharge -- The Four Hits -- First Hit: Initial Insult -- Second Hit: Ischemia-Reperfusion -- Third Hit: Global Increased Permeability Syndrome -- Fourth Hit: Hypoperfusion -- The Four Phases (ROSE Concept) -- Resuscitation -- Optimization -- Stabilization -- Evacuation -- The Other Fours -- The Four Compartments -- The Four Spaces -- The Four Losses -- Conclusions -- References -- Part II: Available Intravenous Fluids -- 9: The Place of Crystalloids -- Introduction -- Fluid Physiology -- Types of Crystalloids -- Isotonic Crystalloids.
Isotonic Saline or 0.9% Saline -- Balanced Crystalloids -- Clinical Evidence: 0.9% Saline Vs Balanced -- Observational Studies -- Randomized Controlled Studies -- Hypotonic Crystalloids -- Hypertonic Crystalloids -- Hypertonic Saline -- Sodium Bicarbonate Solution -- Conclusion -- References -- 10: The Case for Albumin as Volume Expander and beyond -- Introduction -- Albumin in Health -- Albumin in Critical Illness -- Evidence on Albumin as a Plasma Expander -- Timing of Albumin Administration during Resuscitation -- Comparison of Different Strengths of Albumin -- Albumin beyond Resuscitation -- Patients with Liver Disease -- Treatment of Hypoalbuminemia with Peripheral Oedema -- Deresuscitation -- Other Indications -- Caution with the Use of Albumin -- Conclusion -- References -- 11: The Place for Starches and Other Colloids -- Introduction -- Hydroxyethyl Starch -- Pharmacology -- Is Hydroxyethyl Starch Beneficial? -- Evidence in Critically Ill Patients -- Perioperative Use of HES -- Controversies and Restrictions on HES -- Gelatins -- Dextrans -- Conclusion -- References -- 12: How to Use Blood and Blood Products -- Introduction -- Anemia and Red Cell Administration -- Age of RBC and Transfusion Outcomes -- Thrombocytopenia and Platelet Transfusion -- Coagulopathy and Plasma Transfusion -- Adverse Transfusion Reactions in Critical Care -- Alternatives to Transfusion -- Conclusion -- References -- 13: Nutrition Delivery in Critically Ill Patients -- Introduction -- Goals of Nutrition in the ICU -- Nutrition Assessment -- Assessment of Energy Needs -- Initiate Early EN -- Dosing of EN -- Monitoring Tolerance and Adequacy of EN -- Selection of Appropriate Enteral Formulation -- When to Use PN -- When Indicated, Maximize Efficacy of PN -- Special Situations -- Pulmonary Failure -- Renal Failure -- Hepatic Failure -- Acute Pancreatitis -- Trauma.
Burns -- Sepsis -- Postoperative Major Surgery -- Obese Patients -- Fluid Therapy and Nutrition -- Conclusion -- References -- Part III: Fluid Therapy in Special Conditions -- 14: Fluid Management in Septic Shock -- Introduction -- Septic Shock: Pathophysiology -- Septic Shock: Diagnosis -- Septic Shock: Management -- Resuscitation -- Which Fluid? -- Dose of Fluid -- Interaction with Vasopressors -- Septic Shock: Monitoring -- Limiting Cumulative Fluid Balance -- Conclusion -- References -- 15: Fluid Management in Cardiogenic Shock -- Introduction -- Fluid Management of Left-Ventricular Failure -- How Should Fluid Responsiveness Be Assessed and Fluid Therapy Titrated in these Patients? -- Fluid Management in Right-Ventricular Failure -- How to Assess Fluid Responsiveness and Titrate Fluids in RV Failure? -- Conclusion -- References -- 16: Fluid Management in Trauma -- Introduction -- Goals of Early Resuscitation -- Initial Choice of Fluid for Trauma Resuscitation -- Crystalloids -- Colloids -- Hypertonic Solutions -- Penetrating Versus Blunt Injury Versus Head Injuries -- Initial Trauma Resuscitation Fluid Volume -- Practical Approach to Initial Fluid Resuscitation and Pattern of Responses -- Completion of Resuscitation -- Post-Resuscitation Fluid Management -- Deresuscitation -- Conclusion -- References -- 17: Fluid Management in Neurocritical Care -- Introduction -- Physiological Considerations -- What Kind of Fluid Is Appropriate in NIC Patients? -- Does Tonicity of the IV Fluids Matter in NIC Patients? -- Hyperosmolar Therapy in NIC Patients -- End Points of Fluid Therapy Management in Neurocritical Care: How Much Fluid Is Enough? -- Monitoring Fluid Therapy in NIC Patients -- A Note on Common Electrolyte Disturbances in NIC Patients -- General Considerations -- Hyponatraemia -- Hypernatremia -- Hyperchloraemia -- Other Electrolyte Disturbances.
Fluid Therapy Management in Neurocritical Care: Clinical Practice Recommendations.
isbn 3-031-42205-8
3-031-42204-X
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callnumber-subject RC - Internal Medicine
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callnumber-sort RC 286 288.9
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fullrecord <?xml version="1.0" encoding="UTF-8"?><collection xmlns="http://www.loc.gov/MARC21/slim"><record><leader>01061nam a22003373i 4500</leader><controlfield tag="001">993640358604498</controlfield><controlfield tag="005">20231221201939.0</controlfield><controlfield tag="006">m o d | </controlfield><controlfield tag="007">cr#cnu||||||||</controlfield><controlfield tag="008">231218s2023 xx o ||||0 eng d</controlfield><datafield tag="020" ind1=" " ind2=" "><subfield code="a">3-031-42205-8</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(CKB)5670000000788102</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(MiAaPQ)EBC31016773</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(Au-PeEL)EBL31016773</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(OCoLC)1415907003</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(EXLCZ)995670000000788102</subfield></datafield><datafield tag="040" ind1=" " ind2=" "><subfield code="a">MiAaPQ</subfield><subfield code="b">eng</subfield><subfield code="e">rda</subfield><subfield code="e">pn</subfield><subfield code="c">MiAaPQ</subfield><subfield code="d">MiAaPQ</subfield></datafield><datafield tag="050" ind1=" " ind2="4"><subfield code="a">RC86-88.9</subfield></datafield><datafield tag="100" ind1="1" ind2=" "><subfield code="a">Malbrain, Manu L. N. G.</subfield></datafield><datafield tag="245" ind1="1" ind2="0"><subfield code="a">Rational Use of Intravenous Fluids in Critically Ill Patients.</subfield></datafield><datafield tag="250" ind1=" " ind2=" "><subfield code="a">First edition.</subfield></datafield><datafield tag="264" ind1=" " ind2="1"><subfield code="a">Cham :</subfield><subfield code="b">Springer International Publishing AG,</subfield><subfield code="c">2023.</subfield></datafield><datafield tag="264" ind1=" " ind2="4"><subfield code="c">©2024.</subfield></datafield><datafield tag="300" ind1=" " ind2=" "><subfield code="a">1 online resource (600 pages)</subfield></datafield><datafield tag="336" ind1=" " ind2=" "><subfield code="a">text</subfield><subfield code="b">txt</subfield><subfield code="2">rdacontent</subfield></datafield><datafield tag="337" ind1=" " ind2=" "><subfield code="a">computer</subfield><subfield code="b">c</subfield><subfield code="2">rdamedia</subfield></datafield><datafield tag="338" ind1=" " ind2=" "><subfield code="a">online resource</subfield><subfield code="b">cr</subfield><subfield code="2">rdacarrier</subfield></datafield><datafield tag="588" ind1=" " ind2=" "><subfield code="a">Description based on publisher supplied metadata and other sources.</subfield></datafield><datafield tag="505" ind1="0" ind2=" "><subfield code="a">Intro -- Foreword 1 -- Foreword 2 -- Foreword 3 -- Foreword 4 -- Foreword 5 -- Foreword 6 -- Foreword 7 -- Preface -- Contents -- Contributors -- Part I: Fundamentals of Intravenous Fluid Therapy -- 1: Terms and Definitions of Fluid Therapy -- Introduction -- Terms and Definitions -- Conclusions -- References -- 2: Fluid Physiology Part 1: Volume and Distribution of Water and Its Major Solutes Between Plasma, the Interstitium and Intracellular Fluid -- Introduction -- Total Body Water -- Clinical Use of Total Body Water Estimation and Modified Body Weights -- Water Absorption -- Plasma Volume -- The Starling Principle and Microvessel Heterogeneity -- Exceptions to the No-Absorption Rule -- The Current Understanding of Starling Forces -- Starling Forces -- Steady State Variations Versus Abrupt Disequilibrium -- Interstitium and Lymphatics -- The Triphasic Interstitium -- Collagen Phase -- The Triphasic Interstitium -- Hyaluronan Gel Phase -- The Triphasic Interstitium -- Aqueous Phase -- Gel Swelling Pressure -- Interstitial Starling Forces -- Lymphatic Vascular System -- Interstitial Fluid Dynamics -- Lymphatics and the Interstitial Storage of Sodium -- Interstitial Fluid and Lymph in Critical Illness -- Pulmonary Starling Forces and the Extravascular Lung Water -- Cell Fluid and Extracellular Fluid -- Starling Forces Between Extracellular and Intracellular Fluids -- Maintenance of the Extracellular-Intracellular Solute Balance is Energy-Dependent -- Double Donnan Effect -- Potassium and Magnesium Ions -- Cell Volume Regulation and Intracranial Pressure -- Cell Volume Regulation beyond the Brain -- Hessels' Alternative Model of Water, Sodium and Potassium Distribution -- Water Excretion -- References -- 3: Fluid Physiology Part 2: Regulation of Body Fluids and the Distribution of Infusion Fluids -- Introduction -- Fluid Balance -- Fluid Intake.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">Fluid Losses -- Fluid Movement and Edema Formation -- Cell Membrane -- Capillary Membrane -- The Starling Equation -- Edema Formation -- The Importance of Organ Function -- The Kidneys -- Nervous Control -- Hormones -- Cardiac Response to Fluid -- Electrolytes -- Crystalloid Fluid Solutions -- Ringer's Solution -- Other Crystalloid Fluids -- Colloid Fluid Solutions -- Measurement of Body Fluid Volumes -- Fluid Efficiency -- Volume Kinetics, Basic Concepts -- Crystalloids Versus Colloids -- Goals of Fluid Therapy -- References -- 4: Fluid Dynamics During Resuscitation: From Frank-Starling to the Reappraisal of Guyton -- Introduction -- What Are the Factors That Determine Flow of Blood from Peripheral Circulation to Heart? -- What Are the Factors That Determine Mean Systemic Pressure? -- Guyton's Experiment and Venous Return Curve -- Starling's Experiment -- Effect of Fluid Bolus on Venous Return Curve -- Cardiac Function Curve -- Integrating the Return Function with Cardiac Function -- Overall Effect of Fluid Bolus on Circulation -- Validation of Guytonian Model in Human Studies -- Conclusion -- References -- 5: Understanding Heart-Lung Interactions: Concepts of Fluid Responsiveness -- Introduction -- Basics of Respiratory and Cardio-Circulatory Physiology -- Effects of Mechanical Ventilation on Intrathoracic Pressure -- The Pump -- Venous Return and Ventricular Preload -- Ventricular Afterload -- Left Ventricular Afterload -- Right Ventricular Afterload -- Ventricular Interdependence -- Heart-Lung Interactions: Clinical Application -- Functional Hemodynamic Monitoring -- Concept of Fluid Responsiveness -- Dynamic Indicators for Fluid Responsiveness -- Invasive Assessment of Respiratory Changes in LV Stroke Volume -- Pulse Pressure Variation -- Non-invasive Assessment of Respiratory Changes in LV Stroke Volume.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">Other Clinically Significant Clinical Interactions -- Cardiopulmonary Changes in Prone Positioning -- Conclusions -- References -- 6: Acid-Base Homeostasis: Traditional Approach -- Introduction -- Definitions -- Acid-Base Homeostasis -- High AG Metabolic Acidosis -- Normal AG Metabolic Acidosis -- Metabolic Alkalosis -- Some More Illustrative Cases -- Conclusion -- Reference -- 7: Acid Base Homeostasis: Stewart Approach at the Bedside -- Introduction -- Physicochemical Perspective -- SID and Acid Base Balance -- Total Nonvolatile Acid Anion (Atot) and Acid Base Balance -- Total CO2 -- Stewart at Bedside: Fencl-Stewart Approach -- Fencl-Stewart: Putting It All Together -- Stewart at Bedside: Using Standard Base Excess -- Effect of Different IV Fluids on Acid-Base Balance -- Some More Illustrative Case -- Conclusion -- References -- 8: The 4-indications of Fluid Therapy: Resuscitation, Replacement, Maintenance and Nutrition Fluids, and Beyond -- Introduction -- The Four Indications -- Resuscitation Fluids -- Maintenance Fluids -- Replacement Fluids -- Nutrition Fluids -- The Four Questions -- When to Start IV Fluids? -- When to Stop IV Fluids? -- When to Start Fluid Removal? -- When to Stop Fluid Removal? -- The Four (or Six) D's -- Diagnosis -- Drug -- Dose -- Duration -- De-escalation -- Discharge -- The Four Hits -- First Hit: Initial Insult -- Second Hit: Ischemia-Reperfusion -- Third Hit: Global Increased Permeability Syndrome -- Fourth Hit: Hypoperfusion -- The Four Phases (ROSE Concept) -- Resuscitation -- Optimization -- Stabilization -- Evacuation -- The Other Fours -- The Four Compartments -- The Four Spaces -- The Four Losses -- Conclusions -- References -- Part II: Available Intravenous Fluids -- 9: The Place of Crystalloids -- Introduction -- Fluid Physiology -- Types of Crystalloids -- Isotonic Crystalloids.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">Isotonic Saline or 0.9% Saline -- Balanced Crystalloids -- Clinical Evidence: 0.9% Saline Vs Balanced -- Observational Studies -- Randomized Controlled Studies -- Hypotonic Crystalloids -- Hypertonic Crystalloids -- Hypertonic Saline -- Sodium Bicarbonate Solution -- Conclusion -- References -- 10: The Case for Albumin as Volume Expander and beyond -- Introduction -- Albumin in Health -- Albumin in Critical Illness -- Evidence on Albumin as a Plasma Expander -- Timing of Albumin Administration during Resuscitation -- Comparison of Different Strengths of Albumin -- Albumin beyond Resuscitation -- Patients with Liver Disease -- Treatment of Hypoalbuminemia with Peripheral Oedema -- Deresuscitation -- Other Indications -- Caution with the Use of Albumin -- Conclusion -- References -- 11: The Place for Starches and Other Colloids -- Introduction -- Hydroxyethyl Starch -- Pharmacology -- Is Hydroxyethyl Starch Beneficial? -- Evidence in Critically Ill Patients -- Perioperative Use of HES -- Controversies and Restrictions on HES -- Gelatins -- Dextrans -- Conclusion -- References -- 12: How to Use Blood and Blood Products -- Introduction -- Anemia and Red Cell Administration -- Age of RBC and Transfusion Outcomes -- Thrombocytopenia and Platelet Transfusion -- Coagulopathy and Plasma Transfusion -- Adverse Transfusion Reactions in Critical Care -- Alternatives to Transfusion -- Conclusion -- References -- 13: Nutrition Delivery in Critically Ill Patients -- Introduction -- Goals of Nutrition in the ICU -- Nutrition Assessment -- Assessment of Energy Needs -- Initiate Early EN -- Dosing of EN -- Monitoring Tolerance and Adequacy of EN -- Selection of Appropriate Enteral Formulation -- When to Use PN -- When Indicated, Maximize Efficacy of PN -- Special Situations -- Pulmonary Failure -- Renal Failure -- Hepatic Failure -- Acute Pancreatitis -- Trauma.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">Burns -- Sepsis -- Postoperative Major Surgery -- Obese Patients -- Fluid Therapy and Nutrition -- Conclusion -- References -- Part III: Fluid Therapy in Special Conditions -- 14: Fluid Management in Septic Shock -- Introduction -- Septic Shock: Pathophysiology -- Septic Shock: Diagnosis -- Septic Shock: Management -- Resuscitation -- Which Fluid? -- Dose of Fluid -- Interaction with Vasopressors -- Septic Shock: Monitoring -- Limiting Cumulative Fluid Balance -- Conclusion -- References -- 15: Fluid Management in Cardiogenic Shock -- Introduction -- Fluid Management of Left-Ventricular Failure -- How Should Fluid Responsiveness Be Assessed and Fluid Therapy Titrated in these Patients? -- Fluid Management in Right-Ventricular Failure -- How to Assess Fluid Responsiveness and Titrate Fluids in RV Failure? -- Conclusion -- References -- 16: Fluid Management in Trauma -- Introduction -- Goals of Early Resuscitation -- Initial Choice of Fluid for Trauma Resuscitation -- Crystalloids -- Colloids -- Hypertonic Solutions -- Penetrating Versus Blunt Injury Versus Head Injuries -- Initial Trauma Resuscitation Fluid Volume -- Practical Approach to Initial Fluid Resuscitation and Pattern of Responses -- Completion of Resuscitation -- Post-Resuscitation Fluid Management -- Deresuscitation -- Conclusion -- References -- 17: Fluid Management in Neurocritical Care -- Introduction -- Physiological Considerations -- What Kind of Fluid Is Appropriate in NIC Patients? -- Does Tonicity of the IV Fluids Matter in NIC Patients? -- Hyperosmolar Therapy in NIC Patients -- End Points of Fluid Therapy Management in Neurocritical Care: How Much Fluid Is Enough? -- Monitoring Fluid Therapy in NIC Patients -- A Note on Common Electrolyte Disturbances in NIC Patients -- General Considerations -- Hyponatraemia -- Hypernatremia -- Hyperchloraemia -- Other Electrolyte Disturbances.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">Fluid Therapy Management in Neurocritical Care: Clinical Practice Recommendations.</subfield></datafield><datafield tag="776" ind1=" " ind2=" "><subfield code="z">3-031-42204-X</subfield></datafield><datafield tag="700" ind1="1" ind2=" "><subfield code="a">Wong, Adrian.</subfield></datafield><datafield tag="700" ind1="1" ind2=" "><subfield code="a">Nasa, Prashant.</subfield></datafield><datafield tag="700" ind1="1" ind2=" "><subfield code="a">Ghosh, Supradip.</subfield></datafield><datafield tag="906" ind1=" " ind2=" "><subfield code="a">BOOK</subfield></datafield><datafield tag="ADM" ind1=" " ind2=" "><subfield code="b">2024-06-15 03:32:15 Europe/Vienna</subfield><subfield code="f">system</subfield><subfield code="c">marc21</subfield><subfield code="a">2023-12-02 21:21:33 Europe/Vienna</subfield><subfield code="g">false</subfield></datafield><datafield tag="AVE" ind1=" " ind2=" "><subfield code="i">DOAB Directory of Open Access Books</subfield><subfield code="P">DOAB Directory of Open Access Books</subfield><subfield code="x">https://eu02.alma.exlibrisgroup.com/view/uresolver/43ACC_OEAW/openurl?u.ignore_date_coverage=true&amp;portfolio_pid=5351917370004498&amp;Force_direct=true</subfield><subfield code="Z">5351917370004498</subfield><subfield code="b">Available</subfield><subfield code="8">5351917370004498</subfield></datafield></record></collection>

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