Inhalation injury is caused by inhalation of heat, toxic or irritating gases which lead to respiratory and pulmonary parenchyma damage. At present, the clinical understanding about it is still limited and lack of effective diagnosis and treatment standard. Based on the experience of diagnosis and treatment of domestic inhalation injury, combined with reports of international researches, criteria (expert consensus) for inhalation injury were systematically discussed from pathological and pathophysiological changes, clinical diagnosis and evaluation, and clinical treatment, which provides reference for clinical diagnosis and treatment of patients inflicted with inhalation injury.
Burns, Inhalation ; Consensus ; Humans ; Lung ; Smoke Inhalation Injury ; diagnosis ; therapy

The early pulmonary consequences of inhalation injury are well documented; however, little is known about delayed pulmonary complications following thermal inhalation injury. Although thermal injury below the vocal cords is rare because of effective heat dissipation in the upper airway, inflammatory endobronchial polyps have previously been reported as a delayed complication associated with inhalation injury. We report an extraordinary case of tracheobronchial polyps in patients with smoke inhalation injury. This report shows the delayed development and natural course of tracheobronchial polyps following thermal injury.
Bronchi ; Burns, Inhalation ; Hot Temperature ; Humans ; Inhalation* ; Polyps* ; Smoke Inhalation Injury ; Trachea ; Vocal Cords

High frequency ventilation (HFV) is a kind of lung protective ventilation strategy. High-frequency jet ventilation (HFJV) can decrease the water content, relocate interstitial fluid and accelerate lymph flow in the lung of dogs with smoke inhalation injury. HFJV can effectively improve breathing mechanics and gas exchange in dogs with smoke inhalation injury. Clinical application also proves that HFV is efficient in treatment of inhalation injury.
Animals ; Burns, Inhalation ; therapy ; Dogs ; High-Frequency Jet Ventilation ; Humans ; Smoke Inhalation Injury ; therapy

BACKGROUND: Burn injury and its subsequent multisystem effects are commonly encountered by acute care practitioners. Resuscitation is the major component of initial burn care and must be managed to restore and preserve vital organ function. Later complications of burn injury are dominated by infection. Burn centers are often called to manage problems related to thermal injury, including lightning and electrical injuries. METHODS: A selected review is provided of key management concepts as well as of recent reports published by the American Burn Association. RESULTS: The burn-injured patient is easily and frequently over resuscitated, with ensuing complications that include delayed wound healing and respiratory compromise. A feedback protocol designed to limit the occurrence of excessive resuscitation has been proposed, but no new “gold standard” for resuscitation has replaced the venerated Parkland formula. While new medical therapies have been proposed for patients sustaining inhalation injury, a paradigm-shifting standard of medical therapy has not emerged. Renal failure as a specific contributor to adverse outcome in burns has been reinforced by recent data. Of special problems addressed in burn centers, electrical injuries pose multisystem physiologic challenges and do not fit typical scoring systems. CONCLUSION: Recent reports emphasize the dangers of over resuscitation in the setting of burn injury. No new medical therapy for inhalation injury has been generally adopted, but new standards for description of burn-related infections have been presented. The value of the burn center in care of the problems of electrical exposure, both manmade and natural, is demonstrated in recent reports.
Burn Units ; Burns* ; Humans ; Inhalation ; Lightning ; Renal Insufficiency ; Resuscitation ; Smoke Inhalation Injury ; Wound Healing

BACKGROUND: Burn injury and its subsequent multisystem effects are commonly encountered by acute care practitioners. Resuscitation is the major component of initial burn care and must be managed to restore and preserve vital organ function. Later complications of burn injury are dominated by infection. Burn centers are often called to manage problems related to thermal injury, including lightning and electrical injuries. METHODS: A selected review is provided of key management concepts as well as of recent reports published by the American Burn Association. RESULTS: The burn-injured patient is easily and frequently over resuscitated, with ensuing complications that include delayed wound healing and respiratory compromise. A feedback protocol designed to limit the occurrence of excessive resuscitation has been proposed, but no new “gold standard” for resuscitation has replaced the venerated Parkland formula. While new medical therapies have been proposed for patients sustaining inhalation injury, a paradigm-shifting standard of medical therapy has not emerged. Renal failure as a specific contributor to adverse outcome in burns has been reinforced by recent data. Of special problems addressed in burn centers, electrical injuries pose multisystem physiologic challenges and do not fit typical scoring systems. CONCLUSION: Recent reports emphasize the dangers of over resuscitation in the setting of burn injury. No new medical therapy for inhalation injury has been generally adopted, but new standards for description of burn-related infections have been presented. The value of the burn center in care of the problems of electrical exposure, both manmade and natural, is demonstrated in recent reports.
Burn Units ; Burns ; Humans ; Inhalation ; Lightning ; Renal Insufficiency ; Resuscitation ; Smoke Inhalation Injury ; Wound Healing

Inhalation injury is caused by inhalation of heat, toxic or irritating gases which lead to respiratory and pulmonary parenchyma damage. At present, the clinical understanding about it is still limited and lack of effective diagnosis and treatment standard. Based on the experience of diagnosis and treatment of domestic inhalation injury, combined with reports of international researches, criteria (expert consensus) for inhalation injury were systematically discussed from pathological and pathophysiological changes, clinical diagnosis and evaluation, and clinical treatment, which provides reference for clinical diagnosis and treatment of patients inflicted with inhalation injury.
Burns, Inhalation ; Consensus ; Humans ; Lung ; Practice Guidelines as Topic ; Smoke Inhalation Injury ; diagnosis ; therapy

Among the fire victims, respiratory tract injury resulted from smoke inhalation is the major cause of death. Particulate substances in smoke, toxic and harmful gas, and chemical substances act together would rapidly induce the occurrence of dramatic pathophysiologic reaction in the respiratory tract, resulting in acute injury to the respiratory tract, thus inducing serious injury to it and acute respiratory distress syndrome, leading to death of the victims. In recent years, the pathophysiologic mechanism of severe smoke inhalation injury has been gradually clarified, thus appreciable advances in its treatment have been achieved. This paper is a brief review of above-mentioned aspects.
Burns, Inhalation ; pathology ; physiopathology ; Fires ; Humans ; Respiratory Distress Syndrome, Adult ; physiopathology ; Smoke ; adverse effects ; Smoke Inhalation Injury ; pathology ; physiopathology

OBJECTIVETo establish a canine model of severe smoke inhalation injury on unilateral lung, in order to observe the pathomorphological changes in the injured lung within 24 postburn hours (PBHs).

METHODSTwenty five mongrel dogs were employed in the study and randomized into 3 groups. The left lung was injured by inhaling smoke produced by burning sawdust with sparing the right lung with a breathing tube in 10 dogs in group A. A conventional model of smoke inhalation injury to bilateral lungs was reproduced in 8 dogs in group B, and dogs in group C not subjected to smoke inhalation served as controls. Hemodynamic changes, blood gas analysis and the pathophysiologic changes in the lungs were observed within 24 PBHs.

RESULTSAll of the dogs in groups A and C survived. Hemodynamic indices in the dogs in groups A and C remained stable without showing signs of systemic hypoxia. The arterial oxygen partial pressure in dogs of group A was 65 +/- 5 mm Hg, and the oxygen saturation in the mixed blood was 0.64 +/- 0.04 at 24 PBHs, and they were much lower than those in group C but higher than those in group B. The pathological changes in the injured side of the lungs in group A were similar to those in group B with high consistency, and the changes, though milder, could also be identified in the contralateral uninjured lung. Five dogs died in the group B within 24 hours after smoke inhalation and the survivors showed signs of multiple organ failure.

CONCLUSIONThe canine model of acute severe unilateral pulmonary smoke inhalation injury was reproduced reliably, and could be an ideal model for the study on smoke inhalation injury.

Inhalation injury is a major contributor to the morbidity and mortality associated with serious burns. The improvement in the understanding of smoke inhalation injury had been obtained in the last half century in China. The models of steam and smoke inhalation injury had been reproduced and a series of experimental studies had been performed. It was found that chemical bronchiotracheitis, pulmonary edema and alveolar collapse (atelectasis) were the primary pathologic findings after inhalation injury. The second inflammatory response would play an important role in the development of acute respiratory failure. The roles of some cytokines, inflammatory cells and pulmonary surfactants in the development of inhalation injury had been elucidated. The etiologic factors and the pathophysiologic changes in inhalation injury had been illustrated clearly. These basic science investigations had led to the advances in protective strategies for the complications of inhalation injury. Now the morbidity and mortality of inhalation injury have decreased markedly in China.
Burns, Inhalation ; etiology ; therapy ; China ; High-Frequency Ventilation ; Humans ; Pulmonary Surfactant-Associated Proteins ; Smoke Inhalation Injury ; etiology ; therapy

Adult ; Burns ; complications ; therapy ; Humans ; Male ; Nutritional Support ; Smoke Inhalation Injury ; complications ; therapy