Acute Respiratory Distress Syndrome, Mechanical Ventilation, and Inhalation Injury in Burn Patients

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The acute respiratory distress syndrome (ARDS) in mechanically ventilated burn patients: an analysis of risk factors, clinical features, and outcomes using the Berlin ARDS definition.

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Ventilator-induced Lung Injury.

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Oxygen administration for patients with ARDS.

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Ventilator-induced lung injury.

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Mechanical Ventilation in ARDS: Quo Vadis?.

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Evolving concepts for safer ventilation.

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Monitoring patient respiratory effort during mechanical ventilation: lung and diaphragm-protective ventilation.

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Personalized mechanical ventilation in acute respiratory distress syndrome.

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Formal guidelines: management of acute respiratory distress syndrome.

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Driving Pressure-limited Strategy for Patients with Acute Respiratory Distress Syndrome. A Pilot Randomized Clinical Trial.

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Esophageal Manometry.

Respir Care. 65: 772-792

Electrical impedance tomography in the adult intensive care unit: clinical applications and future directions.

Curr Opin Crit Care. 28: 292-301

Lung Ultrasonography in the Monitoring of Intraoperative Recruitment Maneuvers.

Diagnostics. 11: 276Sousse L.E. Herndon D.N. Andersen C.R. et al.

High tidal volume decreases adult respiratory distress syndrome, atelectasis, and ventilator days compared with low tidal volume in pediatric burned patients with inhalation injury.

J Am Coll Surg. 220: 570-578Schultz M.J. Horn J. Hollmann M.W. et al.

LAMiNAR investigators. Ventilation practices in burn patients-an international prospective observational cohort study.

Burns Trauma. 9 ()Crotti S. Mascheroni D. Caironi P. et al.

Recruitment and derecruitment during acute respiratory failure: a clinical study.

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Positive end-expiratory pressure: how to set it at the individual level.

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Lung recruitment in patients with the acute respiratory distress syndrome.

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Recruitment Maneuvers and PEEP Titration.

Respir Care. 60: 1688-1704Pensier J. de Jong A. Hajjej Z. et al.

Effect of lung recruitment maneuver on oxygenation, physiological parameters and mortality in acute respiratory distress syndrome patients: a systematic review and meta-analysis.

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Effect of Repeated Recruitment Manoeuvres on Patients with Severe Acute Respiratory Distress Syndrome.

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Optimal duration of a sustained inflation recruitment maneuver in ARDS patients.

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Lung recruitment in ARDS: we are still confused, but on a higher PEEP level.

Crit Care. 16: 108Revercomb L. Hanmandlu A. Wareing N. et al.

Mechanisms of Pulmonary Hypertension in Acute Respiratory Distress Syndrome (ARDS).

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The Right Ventricle in ARDS.

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Rationale and description of right ventricle-protective ventilation in ARDS.

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Rapidly progressive diaphragmatic weakness and injury during mechanical ventilation in humans.

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Mechanical Ventilation-induced Diaphragm Atrophy Strongly Impacts Clinical Outcomes.

Am J Respir Crit Care Med. 197: 204-213Hussain S.N. Simkus G. Roussos C.

Respiratory muscle fatigue: a cause of ventilatory failure in septic shock.

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Rapid disuse atrophy of diaphragm fibers in mechanically ventilated humans.

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Patient-Self Inflicted Lung Injury: A Practical Review.

J Clin Med. 10: 2738Yoshida T. Uchiyama A. Matsuura N. et al.

Spontaneous breathing during lung-protective ventilation in an experimental acute lung injury model: high transpulmonary pressure associated with strong spontaneous breathing effort may worsen lung injury.

Crit Care Med. 40: 1578-1585Yoshida T. Torsani V. Gomes S. et al.

Spontaneous effort causes occult pendelluft during mechanical ventilation.

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Driving pressure and mechanical power: new targets for VILI prevention.

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The Injurious Effects of Elevated or Nonelevated Respiratory Rate during Mechanical Ventilation.

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CrossTalk proposal: there is added benefit to providing permissive hypercapnia in the treatment of ARDS.

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Re-examining Permissive Hypercapnia in ARDS: A Narrative Review.

Chest. 154: 185-195Guilabert P. Usúa G. Martín N. et al.

Fluid resuscitation management in patients with burns: update.

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Mechanical Ventilation Strategies in the Critically Ill Burn Patient: A Practical Review for Clinicians.

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A narrative review of advanced ventilator modes in the pediatric intensive care unit.

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A Survey of Mechanical Ventilator Practices Across Burn Centers in North America.

J Burn Care Res. 37: e131-e139Sklar M.C. Fan E. Goligher E.C.

High-Frequency Oscillatory Ventilation in Adults With ARDS: Past, Present, and Future.

Chest. 152: 1306-1317Cartotto R. Walia G. Ellis S. et al.

Oscillation after inhalation: high frequency oscillatory ventilation in burn patients with the acute respiratory distress syndrome and co-existing smoke inhalation injury.

J Burn Care Res. 30: 119-127Swindin J. Sampson C. Howatson A.

Airway pressure release ventilation.

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Airway Pressure Release Ventilation: A Review of the Evidence, Theoretical Benefits, and Alternative Titration Strategies.

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Non-invasive ventilatory support and high-flow nasal oxygen as first-line treatment of acute hypoxemic respiratory failure and ARDS.

Intensive Care Med. 47: 851-866

Ventilation strategies in paediatric inhalation injury.

Paediatr Respir Rev. 20: 3-9

Noninvasive ventilation in the burned patient.

J Burn Care Res. 31: 217-228

A Systematic Review of the High-flow Nasal Cannula for Adult Patients.

Crit Care. 22: 71

High-flow nasal cannula oxygen therapy in adults.

J Intensive Care. 3: 15Byerly F.L. Haithcock J.A. Buchanan I.B. et al.

Use of high flow nasal cannula on a pediatric burn patient with inhalation injury and post-extubation stridor.

Burns. 32: 121-125Guérin C. Albert R.K. Beitler J. et al.

Prone position in ARDS patients: why, when, how and for whom.

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Prone position for acute respiratory failure in adults.

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Prone Positioning of the Burn Patient With Acute Respiratory Distress Syndrome: A Review of the Evidence and Practical Considerations.

J Burn Care Res. 39: 471-475Hale D.F. Cannon J.W. Batchinsky A.I. et al.

Prone positioning improves oxygenation in adult burn patients with severe acute respiratory distress syndrome.

J Trauma Acute Care Surg. 72: 1634-1639Park S.Y. Kim H.J. Yoo K.H. et al.

The efficacy and safety of prone positioning in adults patients with acute respiratory distress syndrome: a meta-analysis of randomized controlled trials.

J Thorac Dis. 7: 356-367Papazian L. Munshi L. Guérin C.

Prone position in mechanically ventilated patients.

Intensive Care Med. 48: 1062-1065Ho A.T.N. Patolia S. Guervilly C.

Neuromuscular blockade in acute respiratory distress syndrome: a systematic review and meta-analysis of randomized controlled trials.

J Intensive Care. 8: 12Martyn J.A.J. Sparling J.L. Bittner E.A.

Molecular mechanisms of muscular and non-muscular actions of neuromuscular blocking agents in critical illness.

Br J Anaesth. S0007-0912: 00451-00452Torbic H. Szumita P.M. Anger K.E. et al.

Inhaled epoprostenol vs inhaled nitric oxide for refractory hypoxemia in critically ill patients.

J Crit Care. 28: 844-848Gebistorf F. Karam O. Wetterslev J. et al.

Inhaled nitric oxide for acute respiratory distress syndrome (ARDS) in children and adults.

Cochrane Database Syst Rev. 2016: CD002787Sheridan R.L. Hurford W.E. Kacmarek R.M. et al.

Inhaled nitric oxide in burn patients with respiratory failure.

J Trauma. 42: 629-634Fuller B.M. Mohr N.M. Skrupky L. et al.

The use of inhaled prostaglandins in patients with ARDS: a systematic review and meta-analysis.

Chest. 147: 1510-1522Nosanov L.B. McLawhorn M.M. Vigiola Cruz M. et al.

A National Perspective on ECMO Utilization in Patients with Burn Injury.

J Burn Care Res. 39: 10-14Kennedy J.D. Thayer W. Beuno R. et al.

ECMO in major burn patients: feasibility and considerations when multiple modes of mechanical ventilation fail.

Burns Trauma. 5: 20Combes A. Peek G.J. Hajage D. et al.

ECMO for severe ARDS: systematic review and individual patient data meta-analysis.

Intensive Care Med. 46: 2048-2057Veeravagu A. Yoon B.C. Jiang B. et al.

National trends in burn and inhalation injury in burn patients: results of analysis of the nationwide inpatient sample database.

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The pulmonary complications: a clinical description.

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The acute pulmonary inflammatory response to the graded severity of smoke inhalation injury.

Crit Care Med. 40: 1113-1121

Inhalation injury, pulmonary perturbations, and fluid resuscitation.

J Burn Care Res. 28: 80-83Barillo D.J. Goode R. Esch V.

Cyanide poisoning in victims of fire: analysis of 364 cases and review of the literature.

J Burn Care Rehabil. 15: 46-57Cumpston K.L. Rodriguez V. Nguyen T. et al.

Evaluation of prehospital hydroxocobalamin use in the setting of smoke inhalation.

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The influence of inhalation injury and pneumonia on burn mortality.

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Assessing the severity of inhalation injuries in adults.

Burns. 36: 212-216Ryan C.M. Fagan S.P. Goverman J. et al.

Grading inhalation injury by admission bronchoscopy.

Crit Care Med. 40: 1345-1346Spano S. Hanna S. Li Z. et al.

Does Bronchoscopic Evaluation of Inhalation Injury Severity Predict Outcome?.

J Burn Care Res. 37: 1-11Shiau Y.C. Liu F.Y. Tsai J.J. et al.

Usefulness of technetium-99m hexamethylpropylene amine oxime lung scan to detect inhalation lung injury of patients with pulmonary symptoms/signs but negative chest radiograph and pulmonary function test findings after a fire accident--a preliminary report.

Ann Nucl Med. 17: 435-438Yamamura H. Morioka T. Hagawa N. et al.

Computed tomographic assessment of airflow obstruction in smoke inhalation injury: Relationship with the development of pneumonia and injury severity.

Burns. 41: 1428-1434Roderique J.D. Josef C.S. Feldman M.J. et al.

A modern literature review of carbon monoxide poisoning theories, therapies, and potential targets for therapy advancement.

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Hyperbaric oxygen for carbon monoxide poisoning.

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Use of cyanide antidotes in burn patients with suspected inhalation injuries in North America: a cross-sectional survey.

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Cyanide poisoning by fire smoke inhalation: a European expert consensus.

Eur J Emerg Med. 20: 2-9

Prophylactic sequential bronchoscopy after inhalation injury: results from a three-year prospective randomized trial.

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Incidence of ventilator associated pneumonia in burn patients with inhalation injury treated with high frequency percussive ventilation versus volume control ventilation: A systematic review.

Burns. : S0305-S4179Sousse L.E. Herndon D.N. Andersen C.R. et al.

High tidal volume decreases adult respiratory distress syndrome, atelectasis, and ventilator days compared with low tidal volume in pediatric burned patients with inhalation injury.

J Am Coll Surg. 220: 570-578Miller A.C. Elamin E.M. Suffredini A.F.

Inhaled anticoagulation regimens for the treatment of smoke inhalation-associated acute lung injury: a systematic review.

Crit Care Med. 42: 413-419Gaissert H.A. Lofgren R.H. Grillo H.C.

Upper airway compromise after inhalation. Complex strictures of the larynx and trachea and their management.

Ann Surg. 218: 672-678

Long term outcomes after inhalation injury.

J Burn Care Res. 30: 201-203

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