Contrary to expectations, patients who died from their injuries had lower inflammatory responses in their lungs than patients who survived.
“Perhaps a better understanding of this early pulmonary immune dysfunction will allow for therapies that further improve outcomes in burn care,” researchers reported.
Results were released at the 43rd annual meeting of the American Burn Association. The project won the 2011 Carl A. Moyer Resident Award for the best study submitted by a resident physician.
First author of the study is Christopher S. Davis, MD, a general surgery resident at Loyola University Hospital. Corresponding author is Elizabeth J. Kovacs, PhD, associate director of the Burn & Shock Trauma Institute at Loyola University Chicago Stritch School of Medicine.
Researchers followed 60 burn patients at the Loyola University Hospital Burn Center. As expected, patients with the worst combined burn-and-smoke-inhalation injuries required more time on the ventilator, in the intensive care unit and in the hospital. They also were more likely to die, although this finding fell just short of being statistically significant.
Also according to expectations, patients who died were older and had larger injuries than patients who survived.
But the immune system findings were unexpected. Researchers measured concentrations of 28 immune system modulators in fluid collected from the lungs of patients within 14 hours of burn and smoke-inhalation injuries.
These modulators are proteins produced by leukocytes (white blood cells) and other cells, including those that line the airway. Some of the modulators recruit leukocytes to areas of tissue damage or activate them to begin the repair process that follows tissue injury.
Based on studies conducted at Loyola and other centers, researchers had expected to find higher concentrations of modulators in patients who died, because sicker patients tend to have more active inflammatory responses. But researchers found just the opposite: patients who died had lower concentrations of these modulators in their lungs.
Why do some patients mount robust immune responses in the lungs while others do not? The reason may be due to age, genetics, differences in patients’ underlying health conditions or anything that might disrupt the balance between too much and too little inflammation, Davis said.
Survival of burn patients has significantly improved since the 1950s, due to advancements such as better wound care and improved prevention and treatment of infections. But progress has somewhat stalled in the last 10 years.
“It appears that the inflammatory and immune response to injury remains incompletely understood and that additional effort is required to further improve survival of the burn-injured patient,” researchers wrote.
Other co-authors of the study are Richard L. Gamelli, MD, FACS, dean of Stritch School of Medicine and director of the Burn & Shock Trauma Institute; Joslyn M. Albright, MD; Stewart R. Carter, MD; Luis Ramirez, BA; and Hajwa Kim, MA, MS. All are from Loyola except Kim, who is at the University of Illinois at Chicago.
The study was funded by grants from the National Institutes of Health, the International Association of Fire Fighters and the Dr. Ralph and Marian C. Falk Medical Research Trust.
Loyola’s Burn Center is one of the busiest in the Midwest, treating more than 600 patients annually in the hospital, and another 3,500 patients each year in its clinic. It is one of only two centers in Illinois that have received verification by the American Burn Association.
The study is one of two Loyola reports presented at the American Burn Association meeting. The second examined the role of ubiquitin, an immune system modulator, in burn and smoke-inhalation patients. Authors include Todd A. Baker, MD; Christopher S. Davis, MD; Harold H. Bach, MD; Jacqueline Romero, MS; Ellen Burnham, MD; Elizabeth J. Kovacs, PhD; Richard L. Gamelli, MD, FACS; and Matthias Majetschak, MD, PhD. All are from Loyola’s Burn & Shock Trauma Institute except Burnham, who is with the University of Colorado School of Medicine.
Both studies are the result of ongoing research over the last several years in Loyola’s Burn Center and Burn & Shock Trauma Institute investigating the lung’s response to burn and inhalation injuries.
Based in the western suburbs of Chicago, Loyola University Health System is a quaternary care system with a 61-acre main medical center campus, the 36-acre Gottlieb Memorial Hospital campus and 28 primary and specialty care facilities in Cook, Will and DuPage counties. The medical center campus is conveniently located in Maywood, 13 miles west of the Chicago Loop and 8 miles east of Oak Brook, Ill. The heart of the medical center campus, Loyola University Hospital, is a 569-licensed-bed facility. It houses a Level 1 Trauma Center, a Burn Center and the Ronald McDonald® Children’s Hospital of Loyola University Medical Center. Also on campus are the Cardinal Bernardin Cancer Center, Loyola Outpatient Center, Center for Heart & Vascular Medicine and Loyola Oral Health Center as well as the LUC Stritch School of Medicine, the LUC Marcella Niehoff School of Nursing and the Loyola Center for Fitness. Loyola’s Gottlieb Memorial Hospital campus in Melrose Park includes the 264-bed community hospital, the Gottlieb Center for Fitness and the Marjorie G. Weinberg Cancer Care Center.