Ventilation: Difference between revisions

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[https://onlinelibrary.wiley.com/doi/10.1111/pan.14378 Understanding pediatric ventilation in the operative setting. Part I: Physical principles of monitoring in the modern anesthesia workstation]
[https://onlinelibrary.wiley.com/doi/10.1111/pan.14378 Understanding pediatric ventilation in the operative setting. Part I: Physical principles of monitoring in the modern anesthesia workstation]


[https://onlinelibrary.wiley.com/doi/10.1111/pan.14366 Understanding pediatric ventilation in the operative setting. Part II: Setting perioperative ventilation]


[https://onlinelibrary.wiley.com/doi/10.1111/pan.14366 Understanding pediatric ventilation in the operative setting. Part II: Setting perioperative ventilation]
[https://pubmed.ncbi.nlm.nih.gov/34614266/ The effect of oxygen concentration on atelectasis formation during induction of general anesthesia in children: A prospective randomized controlled trial] [https://onlinelibrary.wiley.com/doi/full/10.1111/pan.14286?saml_referrer Editorial]


[https://www.resmedjournal.com/article/S0954-6111(18)30020-9/fulltext Airway clearance techniques in neuromuscular disorders: A state of the art review]
[https://www.resmedjournal.com/article/S0954-6111(18)30020-9/fulltext Airway clearance techniques in neuromuscular disorders: A state of the art review]


[[TYK19|Test Your Knowledge]]:ventilation, mean airway pressure, pressure control
[[TYK19|Test Your Knowledge]]:ventilation, mean airway pressure, pressure control
[https://pubmed.ncbi.nlm.nih.gov/35803726/ Pleural and transpulmonary pressures to tailor protective ventilation in children]
[https://pubmed.ncbi.nlm.nih.gov/36100276/ 2021 Year in Review - Pediatric Mechanical Ventilation]
[https://pubmed.ncbi.nlm.nih.gov/12580216/ Atelectasis formation during anesthesia: causes and measures to prevent it]
[https://pubmed.ncbi.nlm.nih.gov/34499087/ Perioperative Pulmonary Atelectasis: Part I. Biology and Mechanisms]
[https://pubmed.ncbi.nlm.nih.gov/34710217/ Perioperative Pulmonary Atelectasis: Part II. Clinical Implications]
[https://pubmed.ncbi.nlm.nih.gov/30260897/ Individual Positive End-expiratory Pressure Settings Optimize Intraoperative Mechanical Ventilation and Reduce Postoperative Atelectasis]
[https://pubmed.ncbi.nlm.nih.gov/20608554/ Mechanisms of atelectasis in the perioperative period]
[https://pubmed.ncbi.nlm.nih.gov/35791748/ Randomized controlled trial of low vs high oxygen during neonatal anesthesia: Oxygenation, feasibility, and oxidative stress]
[https://journals.lww.com/ejanaesthesiology/Abstract/2023/07000/Alveolar_target_ventilation_and_dead_space_in.7.aspx Alveolar target ventilation and dead space in children under anaesthesia - The proventiped cohort study]
[https://pubmed.ncbi.nlm.nih.gov/16548815/ Cuirass ventilation: a review and update]
[https://pubmed.ncbi.nlm.nih.gov/37587006/ Modern cuirass ventilation for airway surgery: unlimited access to the larynx and trachea in anaesthetised patients]
[https://pubmed.ncbi.nlm.nih.gov/28974067/ High intraoperative inspiratory oxygen fraction and risk of major respiratory complications]
[https://onlinelibrary.wiley.com/doi/10.1111/j.1399-6576.2010.02334.x Oxygen concentration and characteristics of progressive atelectasis formation during anaesthesia]
[https://www.openanesthesia.org/keywords/anesthesia-breathing-systems/ OpenAnesthesia: Anesthesia Breathing Systems]
[https://pubmed.ncbi.nlm.nih.gov/38215710/  Mechanical Ventilation, Past, Present, and Future]
[https://onlinelibrary.wiley.com/doi/10.1111/pan.14808 Noninvasive respiratory support preventing reintubation after pediatric cardiac surgery—A systematic review]
[https://pubs.asahq.org/anesthesiology/article/136/2/326/118008/Too-Much-of-a-Good-Thing-Iatrogenic-Pediatric Too Much of a Good Thing: Iatrogenic Pediatric Pneumothorax from Engagement of the Oxygen Flush Valve]
[https://pubmed.ncbi.nlm.nih.gov/38561049/ Predicting Extubation Readiness in Preterm Infants Utilizing Machine Learning: A Diagnostic Utility Study]
[https://journals.lww.com/ejanaesthesiology/fulltext/2024/06000/effects_of_closed_loop_ventilation_on_ventilator.6.aspx Effects of closed loop ventilation on ventilator settings, patient outcomes and ICU staff workloads – a systematic review]
[https://pubmed.ncbi.nlm.nih.gov/39021139/ Clinical validation of the Air-Test for the non-invasive detection of perioperative atelectasis in children]
[https://www.bjanaesthesia.org/article/S0007-0912(24)00470-7/abstract Association between inspired oxygen fraction and development of postoperative pulmonary complications in thoracic surgery: a multicentre retrospective cohort study]
Loi B, Sartorius V, Vivalda L, et al. Global and Regional Heterogeneity of Lung Aeration in Neonates with Different Respiratory Disorders: A Physiologic Observational Study. Anesthesiology 2024;141(4):719-731. (In eng). DOI: 10.1097/aln.0000000000005026.
Sett A, Dahm SI, Tingay DG. Lung Ultrasound and Regional Heterogeneity: A Bedside Solution to an Underrecognized Problem? Anesthesiology 2024;141(4):635-637. (In eng). DOI: 10.1097/aln.0000000000005136.
Angurana SK, Sudeep KC, Prasad S. Ventilator-induced lung injury in children. Journal of Pediatric Critical Care 2023;10(3):107-114. DOI: 10.4103/jpcc.jpcc_27_23.
Neumann RP, von Ungern-Sternberg BS. The neonatal lung – physiology and ventilation. Pediatric Anesthesia 2014;24(1):10-21. DOI: https://doi.org/10.1111/pan.12280.
RG, Matthay MA, Morris A, Schoenfeld D, Thompson BT, Wheeler A. Ventilation with lower tidal volumes as compared with traditional tidal volumes for acute lung injury and the acute respiratory distress syndrome. The New England journal of medicine 2000;342(18):1301-8. (In eng). DOI: 10.1056/nejm200005043421801
Feldman JM. Optimal ventilation of the anesthetized pediatric patient. Anesth Analg. 2015 Jan; 120(1): 165-75. PMID: 25625261
Neumann RP, von Ungern-Sternberg BS. The neonatal lung--physiology and ventilation. Paediatr Anaesth. 2014 Jan; 24(1): 10-21. PMID: 24152199

Latest revision as of 17:08, 12 December 2024

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Relevant Article Depot:


Understanding pediatric ventilation in the operative setting. Part I: Physical principles of monitoring in the modern anesthesia workstation

Understanding pediatric ventilation in the operative setting. Part II: Setting perioperative ventilation

The effect of oxygen concentration on atelectasis formation during induction of general anesthesia in children: A prospective randomized controlled trial Editorial

Airway clearance techniques in neuromuscular disorders: A state of the art review

Test Your Knowledge:ventilation, mean airway pressure, pressure control

Pleural and transpulmonary pressures to tailor protective ventilation in children

2021 Year in Review - Pediatric Mechanical Ventilation

Atelectasis formation during anesthesia: causes and measures to prevent it

Perioperative Pulmonary Atelectasis: Part I. Biology and Mechanisms

Perioperative Pulmonary Atelectasis: Part II. Clinical Implications

Individual Positive End-expiratory Pressure Settings Optimize Intraoperative Mechanical Ventilation and Reduce Postoperative Atelectasis

Mechanisms of atelectasis in the perioperative period

Randomized controlled trial of low vs high oxygen during neonatal anesthesia: Oxygenation, feasibility, and oxidative stress

Alveolar target ventilation and dead space in children under anaesthesia - The proventiped cohort study

Cuirass ventilation: a review and update

Modern cuirass ventilation for airway surgery: unlimited access to the larynx and trachea in anaesthetised patients

High intraoperative inspiratory oxygen fraction and risk of major respiratory complications

Oxygen concentration and characteristics of progressive atelectasis formation during anaesthesia

OpenAnesthesia: Anesthesia Breathing Systems

Mechanical Ventilation, Past, Present, and Future

Noninvasive respiratory support preventing reintubation after pediatric cardiac surgery—A systematic review

Too Much of a Good Thing: Iatrogenic Pediatric Pneumothorax from Engagement of the Oxygen Flush Valve

Predicting Extubation Readiness in Preterm Infants Utilizing Machine Learning: A Diagnostic Utility Study

Effects of closed loop ventilation on ventilator settings, patient outcomes and ICU staff workloads – a systematic review

Clinical validation of the Air-Test for the non-invasive detection of perioperative atelectasis in children

Association between inspired oxygen fraction and development of postoperative pulmonary complications in thoracic surgery: a multicentre retrospective cohort study

Loi B, Sartorius V, Vivalda L, et al. Global and Regional Heterogeneity of Lung Aeration in Neonates with Different Respiratory Disorders: A Physiologic Observational Study. Anesthesiology 2024;141(4):719-731. (In eng). DOI: 10.1097/aln.0000000000005026.

Sett A, Dahm SI, Tingay DG. Lung Ultrasound and Regional Heterogeneity: A Bedside Solution to an Underrecognized Problem? Anesthesiology 2024;141(4):635-637. (In eng). DOI: 10.1097/aln.0000000000005136.

Angurana SK, Sudeep KC, Prasad S. Ventilator-induced lung injury in children. Journal of Pediatric Critical Care 2023;10(3):107-114. DOI: 10.4103/jpcc.jpcc_27_23.

Neumann RP, von Ungern-Sternberg BS. The neonatal lung – physiology and ventilation. Pediatric Anesthesia 2014;24(1):10-21. DOI: https://doi.org/10.1111/pan.12280.

RG, Matthay MA, Morris A, Schoenfeld D, Thompson BT, Wheeler A. Ventilation with lower tidal volumes as compared with traditional tidal volumes for acute lung injury and the acute respiratory distress syndrome. The New England journal of medicine 2000;342(18):1301-8. (In eng). DOI: 10.1056/nejm200005043421801

Feldman JM. Optimal ventilation of the anesthetized pediatric patient. Anesth Analg. 2015 Jan; 120(1): 165-75. PMID: 25625261

Neumann RP, von Ungern-Sternberg BS. The neonatal lung--physiology and ventilation. Paediatr Anaesth. 2014 Jan; 24(1): 10-21. PMID: 24152199