Ahmed M. Al-Mousawi

Emerging Infections in Burns

BACKGROUND Patients who suffer severe burns are at higher risk for local and systemic infections. In recent years, emerging resistant pathogens have forced burn care providers world wide to search for alternative forms of treatment. Multidrug-resistant Staphylococcus aureus, Pseudomonas aeruginosa, Acinetobacter spp., and various fungal strains have been the major contributors to the increase in morbidity and mortality rates. Multi-drug-resistant S. aureus remains the major cause of gram-positive burn wound infections world wide. Treatment strategies include rigorous isolation protocols and new types of antibiotics where necessary. METHODS We reviewed 398 severely burned patients (burns >40% total body surface area [TBSA]) admitted to our hospital between 2000 and 2006. Patients who did not contract multi-drug-resistant gram-negative organisms during their hospital course and received our standard antibiotic regimen-vancomycin and piperacillin/tazobactam-served as controls (piperacillin/tazobactam; n = 280). The treatment group consisted of patients who, during their acute hospital stay, developed infections with multi-drug-resistant gram-negative pathogens and were treated with vancomycin and colistin for at least three days (colistin; n = 118). RESULTS Gram-negative organisms continue to cause the most severe infections in burn patients. Colistin has re-emerged as a highly effective antibiotic against multiresistant Pseudomonas and Acinetobacter infections of burns. Patients who required colistin therapy had a significantly larger average total and full-thickness burn than patients treated with piperacillin/tazobactam and vancomycin, and the mortality rate was significantly higher in the colistin group (p < 0.05). However, there was no significant difference between the colistin and piperacillin/tazobactam groups in the incidence of neurotoxicity, hepatic toxicity, or nephrotoxicity. The main fungal pathogens in burn patients are Candida spp., Aspergillus spp., and Fusarium spp. A definitive diagnosis is more difficult to obtain than in bacterial infections. Amphotericin B and voriconazole remain the two most important anti-fungal substances in our practice. CONCLUSIONS Innovations in fluid management, ventilatory support, surgical care, and antimicrobial therapy have contributed to a significant reduction in morbidity and mortality rates in burn patients. Vancomycin and clindamycin are the two most important reserve antibiotics for methicillin-resistant Staphylococcus aureus infection. Oxazolidinones and streptogramins have showed high effectiveness against gram-positive infections. Colistin has re-emerged as a highly effective antibiotic against multiresistant Pseudomonas and Acinetobacter infections. Current challenges include Candida, Aspergillus, and molds. The development of new agents, prudent and appropriate use of antibiotics, and better infection control protocols are paramount in the ongoing battle against multi-resistant organisms.

Effects of exercise training on resting energy expenditure and lean mass during pediatric burn rehabilitation.

Severe burns cause profound hormonal and metabolic disturbances resulting in hypermetabolism, reflected in extreme elevation of resting energy expenditure (REE) and extensive skeletal muscle catabolism. Aerobic and resistive exercise programs during rehabilitation have shown substantial benefits, although whether such training potentially exacerbates basal metabolism is unknown. Therefore, the effects of exercise training on REE during the rehabilitation of severely burned pediatric patients were examined. Children with 40% total body surface area burns and greater were enrolled at admission to the burn intensive care unit to participate in a 12-week, hospital-based exercise program (EX) or a home-based standard of care program (SOC), commencing 6 months after injury. Twenty-one patients (aged 7–17 years) were enrolled and randomized to SOC (n = 10) or EX (n = 11). Age, sex, and total body surface area burned were similar. Mean change (±standard deviation) in REE, normalized to individual lean body mass, was almost negligible between SOC and EX group patients (SOC, 0.03 ± 17.40% vs EX, 0.01 ± 26.38%). A significant increase in lean body mass was found for EX patients (SOC, 2.06 ± 3.17% vs EX, 8.75 ± 5.65%; P = .004), which persisted when normalized to height (SOC, 0.70 ± 2.39% vs EX, 6.14 ± 6.46%; P = .02). Peak torque also improved significantly more in EX patients (SOC, 12.29 ± 16.49% vs EX, 54.31 ± 44.25%; P = .02), reflecting improved strength. Exercise training significantly enhanced lean mass and strength, without observed exacerbation of postburn hypermetabolism. Therefore, the use of exercise conditioning as a safe and effective component of pediatric burn rehabilitation is advocated.

Burn Teams and Burn Centers: The Importance of a Comprehensive Team Approach to Burn Care

Remarkable advances in burn care have been made over recent decades, and it is recognized that the organized efforts of burn teams are required to continue enhancing survival rates and quality of life for patients. Patients with major burns are unique, representing one of the most severe models of trauma, and therefore necessitate treatment in the best specialized facilities available for that endeavor. Burn centers have developed to meet these intricate needs but can only function most productively and efficiently through well-organized, multifaceted, patient-centered teams in the areas of both clinical care and research.

The use of exenatide in severely burned pediatric patients

IntroductionIntensive insulin treatment (IIT) has been shown to improve outcomes post-burn in severely burnt patients. However, it increases the incidence of hypoglycemia and is associated with risks and complications. We hypothesized that exenatide would decrease plasma glucose levels post-burn to levels similar to those achieved with IIT, and reduce the amount of exogenous insulin administered.MethodsThis open-label study included 24 severely burned pediatric patients. Six were randomized to receive exenatide, and 18 received IIT during acute hospitalization (block randomization). Exenatide and insulin were administered to maintain glucose levels between 80 and 140 mg/dl. We determined 6 AM, daily average, maximum and minimum glucose levels. Variability was determined using mean amplitude of glucose excursions (MAGE) and percentage of coefficient of variability. The amount of administered insulin was compared in both groups.ResultsGlucose values and variability were similar in both groups: Daily average was 130 ± 28 mg/dl in the intervention group and 138 ± 25 mg/dl in the control group (P = 0.31), MAGE 41 ± 6 vs. 45 ± 12 (respectively). However, administered insulin was significantly lower in the exenatide group than in the IIT group: 22 ± 14 IU patients/day in the intervention group and 76 ± 11 IU patients/day in the control group (P = 0.01). The incidence rate of hypoglycemia was similar in both groups (0.38 events/patient-month).ConclusionsPatients receiving exenatide received significantly lower amounts of exogenous insulin to control plasma glucose levels. Exenatide was well tolerated and potentially represents a novel agent to attenuate hyperglycemia in the critical care setting.Trial registrationNCT00673309.

The role of hyperglycemia in burned patients: evidence-based studies.

Severely burned patients typically experience a systemic response expressed as increased metabolism, inflammation, alteration of cardiac and immune function, and associated hyperglycemia. Hyperglycemia has been associated with an increased risk of morbidity and mortality in critically ill patients. Until recently and for many years, hyperglycemia has been expectantly managed and considered a normal and desired response of an organism to stress. However, findings reported from recent studies now suggest beneficial effects of intensive insulin treatment of critically ill patients. The literature on the management of hyperglycemia in severely burned patients is sparse, with most of the available studies involving only small numbers of burned patients. The purpose of this article is to describe the pathophysiology of hyperglycemia after severe burns and to review the available literature on the outcome of intensive insulin treatment and other anti-hyperglycemic modalities in burned patients in an evidence-based medical approach.

Impact of anesthesia, analgesia, and euthanasia technique on the inflammatory cytokine profile in a rodent model of severe burn injury.

ABSTRACT Anesthetics used in burn and trauma animal models may be influencing results by modulating inflammatory and acute-phase responses. Accordingly, we determined the effects of various anesthetics, analgesia, and euthanasia techniques in a rodent burn model. Isoflurane (ISO), ketamine-xylazine (KX), or pentobarbital (PEN) with or without buprenorphine were administered before scald-burn in 72 rats that were euthanized without anesthesia by decapitation after 24 h and compared with unburned shams. In a second experiment, 120 rats underwent the same scald-burn injury using KX, and 24 h later were euthanized under anesthesia or carbon dioxide (CO2). In addition, we compared euthanasia by exsanguination with that of decapitation. Serum cytokine levels were determined by an enzyme-linked immunosorbent assay. In the first experiment, ISO was associated with elevation of cytokine-induced neutrophil chemoattractant 2 (CINC-2) and monocyte chemotactic protein 1 (MCP-1), and KX and PEN was associated with elevation of CINC-1, CINC-2, IL-6, and MCP-1. Pentobarbital also decreased IL-1&bgr;. IL-6 increased significantly when ISO or PEN were combined with buprenorphine. In the second experiment, euthanasia performed by exsanguination under ISO was associated with reduced levels of IL-1&bgr;, CINC-1, CINC-2, and MCP-1, whereas KX reduced CINC-2 and increased IL-6 levels. Meanwhile, PEN reduced levels of IL-1&bgr; and MCP-1, and CO2 reduced CINC-2 and MCP-1. In addition, decapitation after KX, PEN, or CO2 decreased IL-1&bgr; and MCP-1, although we found no significant difference between ISO and controls. Euthanasia by exsanguination compared with decapitation using the same agent also led to modulation of several cytokines. Differential expression of inflammatory markers with the use of anesthetics and analgesics should be considered when designing animal studies and interpreting results because these seem to have a significant modulating impact. Our findings indicate that brief anesthesia with ISO immediately before euthanasia by decapitation exerted the least dampening effect on the cytokines measured. Conversely, KX with buprenorphine may offer a better balance during longer procedures to avoid significant modulation. Standardization across all experiments that are compared and awareness of these findings are essential for those investigating the pathophysiology of inflammation in animal models.

The Effect of Ketoconazole on Post-Burn Inflammation, Hypermetabolism and Clinical Outcomes

Background Hypercortisolemia has been suggested as a primary hormonal mediator of whole-body catabolism following severe burn injury. Ketoconazole, an anti-fungal agent, inhibits cortisol synthesis. We, therefore, studied the effect of ketoconazole on post-burn cortisol levels and the hyper-catabolic response in a prospective randomized trial (block randomization 2∶1). Methodology/Principal Findings Fifty-five severely burned pediatric patients with >30% total body surface area (TBSA) burns were enrolled in this trial. Patients were randomized to receive standard care plus either placebo (controls, n = 38) or ketoconazole (n = 23). Demographics, clinical data, serum hormone levels, serum cytokine expression profiles, organ function, hypermetabolism measures, muscle protein synthesis, incidence of wound infection sepsis, and body composition were obtained throughout the acute hospital course. Statistical analysis was performed using Fisher’s exact test, Student’s t-test, and parametric and non-parametric two-way repeated measures analysis of variance where applicable. Patients were similar in demographics, age, and TBSA burned. Ketoconazole effectively blocked cortisol production, as indicated by normalization of the 8-fold elevation in urine cortisol levels [F(1, 376) = 85.34, p<.001] with the initiation of treatment. However, there were no significant differences in the inflammatory response, acute-phase proteins, body composition, muscle protein breakdown or synthesis, or organ function between groups. Conclusions Both groups were markedly hypermetabolic and catabolic throughout the acute hospital stay. Normalization of hypercortisolemia with ketoconazole therapy had no effect on whole-body catabolism or the post-burn inflammatory or hypermetabolic response, suggesting that hypercortisolemia does not play a central role in the post-burn hypermetabolic catabolic response. Trial Registration ClinicalTrials.gov NCT00675714; and NCT00673309

The effect of obesity on adverse outcomes and metabolism in pediatric burn patients

HYPOTHESIS:Obesity influences metabolism and increases the incidence of clinical complications and worsens outcomes in pediatric burn patients.DESIGN:Retrospective, single-center study.SUBJECTS:In all, 592 severely burned pediatric patients who had burns covering more than 30% of the total body surface area and who were treated between 2001 and 2008 were enrolled in this study. Patients were divided into ⩾85th percentile (n=277) and normal (n=315) weight groups based on body mass index (BMI) percentiles.RESULTS:Patients stratified below (normal) and ⩾85th percentile had similar age, gender distribution and total burn size. No significant differences were detected in the incidence of sepsis (11% for obese vs 10% for normal), the incidence of multiple organ failure (MOF) (21% for obese and 16% for normal) or mortality (11% for obese vs 8% for normal). Compared with the normal group, the ⩾85th percentile group had low levels of constitutive proteins (α2macroglobulin and Apolipoprotein A1) (P<0.05 for both) as well as high levels of triglycerides and the acute-phase protein, C-reactive protein (P<0.05 for both) up to 60 days after injury. Patients ⩾85th percentile showed a significant higher loss of bone mineral density and lipolysis compared with normal individuals. Stepwise logistic regression analysis revealed that BMI had a positive predictive value towards the maximum DENVER2 score, an index of organ failure (P<0.001).CONCLUSIONS:BMI⩾85th percentile altered the post-burn acute phase and catabolic response but did not increase the incidence of sepsis, MOF or mortality in pediatric burn patients. Our results suggest that impaired metabolism and an altered inflammatory response already exists in patients starting at the 85th percentile BMI.

HEPATIC APOPTOSIS POST-BURN IS MEDIATED BY C-JUN N-TERMINAL KINASE-2

ABSTRACT The trauma of a severe burn injury induces a hypermetabolic response that increases morbidity and mortality. Previously, our group showed that insulin resistance after burn injury is associated with endoplasmic reticulum (ER) stress. Evidence suggests that c-Jun N-terminal kinase (JNK) 2 may be involved in ER stress-induced apoptosis. Here, we hypothesized that JNK2 contributes to the apoptotic response after burn injury downstream of ER stress. To test this, we compared JNK2 knockout mice (−/−) with wild-type mice after inducing a 30% total body surface area thermal injury. Animals were killed after 1, 3, and 5 days. Inflammatory cytokines in the blood were measured by multiplex analysis. Hepatic ER stress and insulin signaling were assessed by Western blotting, and insulin resistance was measured by a peritoneal glucose tolerance test. Apoptosis in the liver was quantified by terminal deoxynucleotidyl transferase-mediated dUTP nick end labeling staining. Liver function was quantified by aspartate aminotransferase and alanine aminotransferase activity assays. Endoplasmic reticulum stress increased after burn in both JNK2−/− and wild-type mice, indicating that JNK2 activation is downstream of ER stress. Knockout of JNK2 did not affect serum inflammatory cytokines; however, the increase in interleukin 6 mRNA expression was prevented in the knockouts. Serum insulin did not significantly increase in the JNK2−/− group. On the other hand, insulin signaling (PI3K/Akt pathway) and glucose tolerance tests did not improve in JNK2−/−. As expected, apoptosis in the liver increased after burn injury in wild-type mice but not in JNK2−/−. Aspartate aminotransferase/alanine aminotransferase activity revealed that liver function recovered more quickly in JNK2−/−. This study indicates that JNK2 is a central mediator of hepatic apoptosis after a severe burn.

Teamwork for total burn care

Abstract The survivor rate of patients with severe burns has increased in the past decades. Some burn centers have teams composed of experts, clinicians, and personnel all knowledgeable in their own specialized fields. The idea of a comprehensive burn care team is important because burn patient care requires the interaction of various specialists in different fields of medicine and rehabilitation. All members of the team need to interact in a synergistic manner in order to provide the best burn care and outcome for the patient. This chapter focuses on burn team composition, communication, approach to care, team building, and the role that every component of this multidisciplinary group has in relation to the patient and how all members of the team contribute to the best patient burn care.