Timothy A. Emhoff scite author profile

Patients with PC-FC should not be excessively fluid restricted but should be resuscitated to maintain signs of adequate tissue perfusion. Obligatory mechanical ventilation in the absence of respiratory failure should be avoided. The use of optimal analgesia and aggressive chest physiotherapy should be applied to minimize the likelihood of respiratory failure. Epidural catheter is the preferred mode of analgesia delivery in severe flail chest injury. Paravertebral analgesia may be equivalent to epidural analgesia and may be appropriate in certain situations when epidural is contraindicated.A trial of mask continuous positive airway pressure should be considered in alert patients with marginal respiratory status. Patients requiring mechanical ventilation should be supported in a manner based on institutional and physician preference and separated from the ventilator at the earliest possible time. Positive end-expiratory pressure or continuous positive airway pressure should be provided. High-frequency oscillatory ventilation should be considered for patients failing conventional ventilatory modes. Independent lung ventilation may also be considered in severe unilateral pulmonary contusion when shunt cannot be otherwise corrected.Surgical fixation of flail chest may be considered in cases of severe flail chest failing to wean from the ventilator or when thoracotomy is required for other reasons. Self-activating multidisciplinary protocols for the treatment of chest wall injuries may improve outcome and should be considered where feasible.Steroids should not be used in the therapy of pulmonary contusion. Diuretics may be used in the setting of hydrostatic fluid overload in hemodynamically stable patients or in the setting of known concurrent congestive heart failure.

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Not Just Full of Hot Air: Hyperbaric Oxygen Therapy Increases Survival in Cases of Necrotizing Soft Tissue Infections

Shaw

Psoinos

Emhoff

et al. 2014

Surgical Infections

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Background: The utility of hyperbaric oxygen therapy (HBOT) in the treatment of necrotizing soft tissue infections (NSTIs) has not been proved. Previous studies have been subject to substantial selection bias because HBOT is not available universally at all medical centers, and there is often considerable delay associated with its initiation. We examined the utility of HBOT for the treatment of NSTI in the modern era by isolating centers that have their own HBOT facilities. Methods: We queried all centers in the University Health Consortium (UHC) database from 2008 to 2010 that have their own HBOT facilities (n = 14). Cases of NSTI were identified by International Classification of Diseases, Ninth Revision (ICD-9) diagnosis codes, which included Fournier gangrene (608.83), necrotizing fasciitis (728.86), and gas gangrene (040.0). Status of HBOT was identified by the presence (HBOT) or absence (control) of ICD-9 procedure code 93.95. Our cohort was risk-stratified and matched by UHC's validated severity of illness (SOI) score. Comparisons were then made using univariate tests of association and multivariable logistic regression. Results: There were 1,583 NSTI cases at the 14 HBOT-capable centers. 117 (7%) cases were treated with HBOT. Univariate analysis showed that there was no difference between HBOT and control groups in hospital length of stay, direct cost, complications, and mortality across the three less severe SOI classes (minor, moderate, and major). However, for extreme SOI the HBOT group had fewer complications (45% vs. 66%; p < 0.01) and fewer deaths (4% vs. 23%; p < 0.01). Multivariable analysis showed that patients who did not receive HBOT were less likely to survive their index hospitalization (odds ratio, 10.6; 95% CI 5.2-25.1). Conclusion: At HBOT-capable centers, receiving HBOT was associated with a significant survival benefit. Use of HBOT in conjunction with current practices for the treatment of NSTI can be both a cost-effective and life-saving therapy, in particular for the sickest patients.

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Long-Term Functional Status and Mortality of Elderly Patients with Severe Closed Head Injuries

Kilaru

Garb

Emhoff

et al. 1996

The Journal of Trauma: Injury, Infection, and Critical Care

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Subacute sequelae of carbon monoxide poisoning

Myers¹,

Snyder²,

Emhoff³

1985

Annals of Emergency Medicine

159

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Successful Nonoperative Management of the Most Severe Blunt Liver Injuries

Wilden

Velmahos²,

Emhoff³

et al. 2012

Arch Surg

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Main Outcome Measure: Failure of NOM (f-NOM), defined as the need for a delayed operation.Results: One hundred thirty-one patients (33.3%) were operated on immediately, typically because of hemodynamic instability. Among 262 patients (66.7%) who were offered a trial of NOM, treatment failed in 23 patients (8.8%) (attributed to the liver in 17, with recurrent liver bleeding in 7 patients and biliary peritonitis in 10 patients). Multivariate analysis identified the following 2 independent predictors of f-NOM: systolic blood pressure on admission of 100 mm Hg or less and the presence of other abdominal organ injury. Failure of NOM was observed in 23% of patients with both independent predictors and in 4% of those with neither of the 2 independent predictors. No patients in the f-NOM group experienced life-threatening events because of f-NOM, and mortality was similar between patients with successful NOM (5.4%) and patients with f-NOM (8.7%) (P=.52). Among patients with successful NOM, liver-specific complications developed in 10.0% and were managed definitively without major sequelae.Conclusions: Nonoperative management was offered safely in two-thirds of grade 4 and grade 5 blunt liver injuries, with a 91.3% success rate. Only 6.5% of patients with NOM required a delayed operation because of liverspecific issues, and none experienced life-threatening complications because of the delay.

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Predicting survival after acute civilian penetrating brain injuries

et al. 2016

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Delayed Hemothorax after Blunt Thoracic Trauma

Simon

Chu

Emhoff

et al. 1998

The Journal of Trauma: Injury, Infection, and Critical Care

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Short-term outcomes of splenectomy avoidance in trauma patients

Kaseje

Agarwal

Burch

et al. 2008

The American Journal of Surgery

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Timothy A. Emhoff

Management of pulmonary contusion and flail chest

Not Just Full of Hot Air: Hyperbaric Oxygen Therapy Increases Survival in Cases of Necrotizing Soft Tissue Infections

Long-Term Functional Status and Mortality of Elderly Patients with Severe Closed Head Injuries

Subacute sequelae of carbon monoxide poisoning

Successful Nonoperative Management of the Most Severe Blunt Liver Injuries

Predicting survival after acute civilian penetrating brain injuries

Delayed Hemothorax after Blunt Thoracic Trauma

Short-term outcomes of splenectomy avoidance in trauma patients

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