Monitoring mechanical ventilation using ventilator waveforms. (2018)
- Record Type:
- Book
- Title:
- Monitoring mechanical ventilation using ventilator waveforms. (2018)
- Main Title:
- Monitoring mechanical ventilation using ventilator waveforms
- Further Information:
- Note: Jean-Michel Arnal.
- Authors:
- Arnal, Jean-Michel
- Contents:
- Intro; Foreword; Preface; Acknowledgments; Contents; Abbreviations; List of Videos; Chapter 1: Basics; 1.1 What Is a Curve?; 1.2 Which Curves Are Relevant?; 1.3 What Is a Loop?; 1.4 Pressure Curve; 1.5 Flow Curve; 1.6 Volume Curve; 1.7 Time Scale; 1.8 Mandatory and Triggered Breaths; 1.9 Static Respiratory Mechanics; 1.10 Equation of Motion in Passive Patients; 1.11 Equation of Motion for Spontaneously Breathing Patients; 1.12 Independent and Dependent Variables; 1.13 Which Curves Should Be Monitored During Inspiration?; 1.14 Compliance; 1.15 Static and Dynamic Compliance. 1.16 Resistance1.17 Dynamic Respiratory Mechanics: Time Constant; 1.18 Expiratory Time Constant; 1.19 Clinical Application of the Expiratory Time Constant; 1.20 Rationale Behind Curve Analysis; Suggested Readings; Chapter 2: Controlled Modes; 2.1 Volume-Controlled Modes; 2.1.1 Shape of the Pressure Curve; 2.1.2 Flow Pattern; 2.1.3 Resistive Component of the Pressure Curve; 2.1.4 Elastic Component of the Pressure Curve; 2.1.5 The Pressure Curve for the RC Model; 2.1.6 Single-Breath Analysis of Overdistension and Recruitment; 2.1.7 Stress Index; 2.1.8 Peak Pressure. 2.1.9 Plateau Pressure2.1.10 End-Inspiratory Occlusion; 2.1.11 End-Inspiratory Occlusion with Leakage; 2.1.12 End-Inspiratory Occlusion with Active Effort; 2.1.13 Ascending Pressure During an End-Inspiratory Occlusion; 2.1.14 Additional Resistance; 2.1.15 Increased Peak Pressure; 2.1.16 Mean Airway Pressure; 2.1.17Intro; Foreword; Preface; Acknowledgments; Contents; Abbreviations; List of Videos; Chapter 1: Basics; 1.1 What Is a Curve?; 1.2 Which Curves Are Relevant?; 1.3 What Is a Loop?; 1.4 Pressure Curve; 1.5 Flow Curve; 1.6 Volume Curve; 1.7 Time Scale; 1.8 Mandatory and Triggered Breaths; 1.9 Static Respiratory Mechanics; 1.10 Equation of Motion in Passive Patients; 1.11 Equation of Motion for Spontaneously Breathing Patients; 1.12 Independent and Dependent Variables; 1.13 Which Curves Should Be Monitored During Inspiration?; 1.14 Compliance; 1.15 Static and Dynamic Compliance. 1.16 Resistance1.17 Dynamic Respiratory Mechanics: Time Constant; 1.18 Expiratory Time Constant; 1.19 Clinical Application of the Expiratory Time Constant; 1.20 Rationale Behind Curve Analysis; Suggested Readings; Chapter 2: Controlled Modes; 2.1 Volume-Controlled Modes; 2.1.1 Shape of the Pressure Curve; 2.1.2 Flow Pattern; 2.1.3 Resistive Component of the Pressure Curve; 2.1.4 Elastic Component of the Pressure Curve; 2.1.5 The Pressure Curve for the RC Model; 2.1.6 Single-Breath Analysis of Overdistension and Recruitment; 2.1.7 Stress Index; 2.1.8 Peak Pressure. 2.1.9 Plateau Pressure2.1.10 End-Inspiratory Occlusion; 2.1.11 End-Inspiratory Occlusion with Leakage; 2.1.12 End-Inspiratory Occlusion with Active Effort; 2.1.13 Ascending Pressure During an End-Inspiratory Occlusion; 2.1.14 Additional Resistance; 2.1.15 Increased Peak Pressure; 2.1.16 Mean Airway Pressure; 2.1.17 Driving Pressure; 2.2 Pressure-Controlled Mode; 2.2.1 Flow Curve; 2.2.2 Peak Inspiratory Flow; 2.2.3 Peak Inspiratory Flow Overshoot; 2.2.4 Shape of Flow Curve; 2.2.5 Inspiratory Time; 2.2.6 Inspiratory Time Optimization; 2.2.7 Plateau Pressure; 2.2.8 Mean Airway Pressure. 2.2.9 Driving PressureSuggested Reading; Chapter 3: Monitoring During Expiration; 3.1 Which Curves Should Be Monitored During Expiration?; 3.2 Normal Shape of Expiration; 3.3 Peak Expiratory Flow; 3.4 Active Expiration; 3.5 Shape of Expiratory Flow: Normal; 3.6 Shape of Expiratory Flow: Decreased Compliance; 3.7 Shape of Expiratory Flow: Increased Resistance; 3.8 Shape of Expiratory Flow: Flow Limitation; 3.9 Secretions; 3.10 Bi-compartmental Expiration; 3.11 Tracheal Malacia; 3.12 End-Expiratory Flow; 3.13 End-Expiratory Occlusion; 3.14 AutoPEEP Without Dynamic Hyperinflation. 3.15 Effect of Bronchodilators3.16 Pressure Curve During Expiration; Suggested Readings; Chapter 4: Assisted and Spontaneous Modes; 4.1 Pressure Support; 4.1.1 Normal Curves; 4.1.2 Inspiratory Trigger; 4.1.3 Trigger Effort; 4.1.4 Inspiratory Trigger Time; 4.1.5 Inspiratory Delay Time; 4.1.6 Ineffective Inspiratory Efforts; 4.1.7 Cardiac Oscillations; 4.1.8 Autotriggering; 4.1.9 Double Triggering; 4.1.10 Pressure Rise Time; 4.1.11 Peak Inspiratory Flow; 4.1.12 Pressure Overshoot; 4.1.13 Flow Overshoot; 4.1.14 Shape of Inspiratory Flow; 4.1.15 Inspiratory Effort. … (more)
- Publisher Details:
- Cham : Springer
- Publication Date:
- 2018
- Extent:
- 1 online resource (xx, 180 pages), illustrations (some color)
- Subjects:
- 615.8/362
Medicine
Artificial respiration
Artificial respiration -- Equipment and supplies
MEDICAL -- Pharmacology
Artificial respiration
Artificial respiration -- Equipment and supplies
Ventilators, Mechanical
Medical -- Pulmonary & Thoracic Medicine
Medical -- Anesthesiology
Medical -- Emergency Medicine
Respiratory medicine
Anaesthetics
Accident & emergency medicine
Critical care medicine
Pneumology
Anesthesiology
Emergency medicine
Medical -- Critical Care
Intensive care medicine
Electronic books - Languages:
- English
- ISBNs:
- 9783319586557
3319586556 - Related ISBNs:
- 9783319586540
3319586548 - Notes:
- Note: Online resource; title from PDF title page (SpringerLink, viewed March 1, 2018).
- Access Rights:
- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
- Access Usage:
- Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force.
- View Content:
- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library HMNTS - ELD.DS.357818
- Ingest File:
- 01_319.xml