Inhalation injury caused by the products of combustion.
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Inhalation injury results from a type of chemical burn (tracheobronchitis) of the respiratory tract. When this injury occurs in patients with serious cutaneous burns the mortality is exceedingly high- 48% to 86%. The injury can be divided into three types according to the level at which the damage occurs; upper airway, major airway and terminal airway. The early signs and symptoms may be complicated by carbon monoxide poisoning. The patient's condition usually follows a staged progression that is proportional to the extent and severity of the tracheobronchitis. Indirect laryngoscopy, bronchoscopy, scintiscanning of the lung with xenon 133 and serial analysis of arterial blood gases are useful diagnostic techniques. Treatment must be expeditious, and it depends on the severity of the injury. The prophylactic use of antibiotics and steroids is contraindicated. (+info)
Multifactorial probit analysis of mortality in burned patients.
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Burn mortality statistics may be misleading unless they account properly for the many factors which may influence outcome. In reviewing such factors in our patients, we identified age, total burn area, third degree burn area, prior bronchopulmonary disease, abnormal Pao2, and airway edema as the factors present on admission which best distinguished survivors from nonsurvivors. Using multifactorial probit analysis, we then calculated the contribution of each to the probability of fatal outcome. The resultant six-factor model significantly improved estimation of the probability of fatal outcome when compared to probit analysis based only on the traditional factors of age and total burn area. It also revealed a spectrum of mortality probabilities varying with the additional factors present. Although crucial in comparing different approaches to burn care, consideration of such prognostic factors will not eliminate the need for randomized treatment trials, because other factors, some of which are obscure, may also influence mortality rates in burned patients. (+info)
Upper airway compromise after inhalation injury. Complex strictures of the larynx and trachea and their management.
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OBJECTIVE: Strictures of the upper airway caused by burns have features distinct from other benign stenoses. The authors reviewed their experience with burn-related stenoses to define the principles of treatment. SUMMARY BACKGROUND DATA: The combined effects of inhaled gases and heat in burn victims produce an intense, often transmural, inflammation of the airway, further complicated by intubation. The incidence of laryngotracheal strictures in survivors of inhalation injury is high, but the reported experience with their treatment is limited and often unduly separated into injuries of larynx and trachea. METHODS: Presentation, treatment, and long-term follow-up are reviewed in 9 women and 9 men age 9 to 63 years, who were evaluated over a 22 year period for chronic airway compromise after inhalation injury. There were 18 tracheal stenoses, 14 subglottic strictures, and 2 main bronchial stenoses. Laryngotracheal strictures stenosis. T-tubes were placed in 15 patients, in low subglottic or tracheal stenosis below the vocal cords, in high subglottic stenosis through the vocal cords, and as a stent after resection of subglottic stenosis. RESULTS: There were two deaths during follow-up, one from respiratory failure and one from an unrelated cause. Two patients underwent evaluation only. Early in this series, one tracheal and one laryngotracheal resection resulted in prompt restenosis. Of the remaining 14 patients, 9 are without airway support from 2 to 20 years later. Four have permanent tracheal tubes. One patient required tracheostomy 8 years after successful subglottic reconstruction. CONCLUSIONS: Strictures of the upper airway related to inhalation injury are associated with prolonged inflammation and involve larynx and trachea in a majority of patients. These complex injuries respond to prolonged tracheal stenting (mean, 28 months) and resection or stenting of subglottic stenoses with recovery of a functional airway and voice in most patients. Early tracheal resection should be avoided. (+info)
Smoke, burns, and the natural history of inhalation injury in fire victims: a correlation of experimental and clinical data.
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Mortality and morbidity in fire victims is largely a function of injury due to heat and/or smoke. While degree and area of burn together constitute a reliable numerical measure of cutaneous injury due to heat, as yet no satisfactory measure of inhalation injury has been developed. In this study, with fluid resuscitation and pulmonary infection eliminated as variables, dose-response curves were constructed as a measure of inhalation injury by exposing burned and unburned animals to smoke of constant temperature and toxicity under conditions similar to the fire situation. In these animals, the natural history of inhalation injury: 1) proved to be a relatively simple function of smoke and burn dosage; 2) appeared to simulate and therefore aid interpretation of the inhalation injury syndromes seen in human fire victims; 3) indicated that within limits [COHgb] measured immediately after injury was directly proportional to, and might prove to be a clinically valuable measure of, absorbed dose of smoke. While fluid resuscitation and pulmonary contamination with bacterial pathogens may be eliminated experimentally, such is not the case with the vast majority of fire victims admitted to burn services with associated inhalation injury. Fluid resuscitation and inhalation of a Pseudomonas aeruginosa aerosol were therefore included serially in a study of animals with inhalation injury and burns large enough to require fluid resuscitation. In these animals it was demonstrated that: 1) pulmonary edema occurred in association with too little rather than too much fluid therapy; 2) after aerosol inoculation, fatal bacterial pneumonia was difficult to produce when inhalation injury was associated with no or only small burns, but common when associated with no or only small burns, but common when associated with a burn large enough to require fluid resuscitation. (+info)
Objective estimates of the probability of death from burn injuries.
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BACKGROUND: Over the past 20 years, there has been remarkable improvement in the chances of survival of patients treated in burn centers. A simple, accurate system for objectively estimating the probability of death would be useful in counseling patients and making medical decisions. METHODS: We conducted a retrospective review of all 1665 patients with acute burn injuries admitted from 1990 to 1994 to Massachusetts General Hospital and the Shriners Burns Institute in Boston. Using logistic-regression analysis, we developed probability estimates for the prediction of mortality based on a minimal set of well-defined variables. The resulting mortality formula was used to determine whether changes in mortality have occurred since 1984, and it was tested prospectively on all 530 patients with acute burn injuries admitted in 1995 or 1996. RESULTS: Of the 1665 patients (mean [+/-SD] age, 21+/-20 years; mean burn size, 14+/-20 percent of body-surface area), 1598 (96 percent) lived to discharge. The mean length of stay was 21+/-29 days. Three risk factors for death were identified: age greater than 60 years, more than 40 percent of body-surface area burned, and inhalation injury. The mortality formula we developed predicts 0.3 percent, 3 percent, 33 percent, or approximately 90 percent mortality, depending on whether zero, one, two, or three risk factors are present. The results of the prospective test of the formula were similar. A large increase in the proportion of patients who chose not to be resuscitated complicated comparisons of mortality over time. CONCLUSIONS: The probability of mortality after burns is low and can be predicted soon after injury on the basis of simple, objective clinical criteria. (+info)