James Cipolla

Antioxidant enzymes are induced during recovery from acute lung injury.

Objective To determine the contribution of the pulmonary antioxidant defense enzymes of the hexose monophosphate (HMP) shunt and glutathione systems to recovery from oxidant-mediated lung injury in an animal model shown to closely resemble the clinical syndrome of acute respiratory distress syndrome. Design Prospective, controlled laboratory study on phorbol myristate acetate (PMA)-induced lung injury in rabbits. Setting Animal research laboratory. Subjects Rabbits were injected with PMA (80 &mgr;g/kg) for 3 consecutive days. Control animals received normal saline. Measurements and Main Results Lungs were harvested at 24, 48, 72, and 96 hrs (n = 5/time point) after PMA injection or after the third injection of normal saline in control animals (n = 6). The cytosolic fraction from lung and bronchial alveolar lavage (BAL) fluid was used for measurements of HMP shunt and glutathione enzymes. Pulmonary activity peaked at 48 hrs post-PMA injury with a 40% increase in glucose-6-phosphate dehydrogenase activity and a 32% increase in 6-phosphogluconate dehydrogenase activity over control levels. BAL activity was maximal at 72 hrs with an increase of 98% in glucose-6-phosphate dehydrogenase and 346% in 6-phosphogluconate dehydrogenase activities. Glutathione peroxidase was maximally induced by 77% at 48 hrs in BAL and by 107% at 24 hrs in lung. Glutathione reductase activity did not increase significantly in either lung or BAL. Conclusions The observed induction of the antioxidant enzymes in response to PMA suggests that both the HMP shunt and the glutathione systems contribute to the recovery phase of oxidant-mediated lung injury. The inability of natural host defenses to regenerate reduced glutathione may explain failure of recovery from acute respiratory distress syndrome and suggests an avenue for clinical intervention.

The use of recombinant activated factor VIIa in coagulopathic traumatic brain injuries requiring emergent craniotomy: is it beneficial?

OBJECTnThe role of recombinant activated factor VII (rFVIIa) in traumatic brain injury (TBI) has not been well established. This study evaluates the outcomes of using rFVIIa as first-line therapy in patients with a severe TBI requiring emergent craniotomy that are coagulopathic.nnnMETHODSnThe authors retrospectively reviewed patients admitted between 2003 and 2006 to a Level I trauma center with a severe TBI requiring an emergency craniotomy. Eighteen patients with coagulopathy that was corrected using rFVIIa were identified. Variables evaluated included age, injury severity score, head abbreviated injury score, Glasgow Coma Scale score, international normalized ratio, time to operation, operative procedure, thromboembolic events, and death.nnnRESULTSnThe cohort consisted of 18 patients, predominantly male (55.6%) with a mean age of 80.5 years. The most common mechanism of injury was a fall. Coagulopathy was due to premorbid anticoagulants in 50% of the cohort. Time from admission to operation was 130 minutes. Coagulopathy reversal was complete in all 18 cases (100%). A high mortality rate (55.6%) was attributed to a high incidence of withdrawal of care (50%). The incidence of thromboembolic events was low (5.6%). Survivors, when compared with nonsurvivors, had a > 3-fold increase in postoperative Glasgow Coma Scale score for similar preoperative scores. A good functional outcome was achieved in 75% of survivors with a mean follow-up period of 4.2 months.nnnCONCLUSIONSnThe use of rFVIIa in the correction of coagulopathy in patients having sustained severe TBI requiring emergency craniotomy appears to be safe and effective even among the elderly. This allows a shorter transit time to craniotomy. Its effects on mortality and long-term neurological outcome requires further investigation prospectively.

Civilian nuclear incidents: An overview of historical, medical, and scientific aspects.

Given the increasing number of operational nuclear reactors worldwide, combined with the continued use of radioactive materials in both healthcare and industry, the unlikely occurrence of a civilian nuclear incident poses a small but real danger. This article provides an overview of the most important historical, medical, and scientific aspects associated with the most notable nuclear incidents to date. We have discussed fundamental principles of radiation monitoring, triage considerations, and the short- and long-term management of radiation exposure victims. The provision and maintenance of adequate radiation safety among first responders and emergency personnel are emphasized. Finally, an outline is included of decontamination, therapeutic, and prophylactic considerations pertaining to exposure to various radioactive materials.

Extracorporeal Membrane Oxygenation in Traumatic Injury: An Overview of Utility and Indications

Severe respiratory failure may develop in the trauma patient as a consequence of direct lung injury, in response to trauma‐associated systemic inflammatory response syndrome (SIRS), as a result of infection, or at times as an unintended consequence of the life‐saving management of the acute traumatic injury. Approximately 0.5% of all adult trauma patients develop some form of pulmonary dysfunction along the acute lung injury (ALI) – acute respiratory distress (ARDS) spectrum, with the incidence of severe respiratory failure reaching 10–20% in multisystem trauma victims. Of concern, mortality in patients with acute respiratory failure who go on to develop severe pulmonary dysfunction can be as high as 37–50% with the use of conventional therapeutic modalities. Extracorporeal membrane oxygenation (ECMO) has been proposed as a rescue strategy when less invasive primary or adjunctive attempts fail. Numerous case reports and single‐center studies demonstrate potential benefits of early implementation of veno‐venous (VV)‐ECMO for the treatment of severe respiratory failure associated with trauma or sequelae of trauma. In this clinical context, VV‐ ECMO can be employed to correct for both ventilatory and oxygenation failure while allowing the treating physician to provide much needed rest to the patients lungs and permit healing to take place. The use of ECMO (mainly veno‐venous, with limited use of veno‐arterial circuits for cardiac indications) has been described in patients with severe chest injuries, traumatic pneumonectomy, bronchopleural fistulas, and various forms of respiratory failure refractory to conventional therapies.

Acute myocardial infarction following right coronary artery dissection due to blunt trauma

Despite the frequent occurrence of blunt chest trauma, associated cardiac injuries are relatively rare. The most common presentation of blunt cardiac injury is benign arrhythmia (e.g., sinus tachycardia), followed in decreasing frequency by increasingly severe arrhythmias and finally physically evident injuries to the heart muscle, the conducting system, cardiac valves, and/or coronary vessels. Here we present an unusual case of a patient who sustained a right coronary artery dissection and associated acute myocardial infarction following a motor vehicle crash.

Simultaneous aortic and diaphragmatic injury following blunt trauma

Traumatic aortic injury associated with diaphragmatic rupture constitutes a devastating injury complex that requires prompt recognition and treatment. The incidence of diaphragmatic rupture among patients with aortic injury has been cited to be as high as 10%. Both decision-making and technical aspects associated with this injury combination can be very challenging. We describe a case of combined aortic and diaphragmatic injuries necessitating decompressive laparotomy before definitive aortic and diaphragm repairs. Brief literature overview of the topic is also presented, focusing on the role of modern imaging techniques in diagnosing combined aortic–diaphragmatic injury. The following core competencies are addressed in this article: Medical knowledge, Patient care, Systems-based practice. Republished with permission from: Jaik NP, Hoey BA, Cipolla J, Risher WH, Stawicki SP. Simultaneous aortic and diaphragmatic injury following blunt trauma: A case report. OPUS 12 Scientist 2007;1(2):5-7.