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Yusuke Yamamoto,
Linda E Sousse,
Perenlei Enkhbaatar,
Edward R Kraft,
Donald J Deyo,
Charlotte L Wright,
Alan Taylor,
Maret G Traber,
Robert A Cox, Hal K Hawkins,
Sebastian W Rehberg,
Lillian D Traber,
David N Herndon,
Daniel L Traber
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ABSTRACT: More than 20,000 burn injury victims suffer from smoke inhalation injury in the United States annually. In an ovine model of acute lung injury, γ-tocopherol had a beneficial effect when nebulized into the airway. We hypothesize that γ-tocopherol scavenges reactive oxygen species (ROS) and reactive nitrogen species resulting from burn and smoke inhalation injury and that these ROS/reactive nitrogen species activate the arginase pathway, leading to increased collagen deposition and decreased pulmonary function. To test this hypothesis, ewes were operatively prepared for chronic study, then they were randomly divided into groups (n = 8): uninjured, injured, or injured with nebulization (γ-tocopherol [950 mg/g] and α-tocopherol [40 mg/g] from hours 3 to 48 after the injury). The injury, under deep anesthesia, consisted of a 20% total body surface burn and 36 breaths of cotton smoke; all animals were killed after 3 weeks. Treatment increased lung γ-tocopherol at 3 weeks after γ-tocopherol nebulization compared with injured sheep (1.75 ± 0.62 nmol/g vs. 0.45 ± 0.06, P < 0.05). The expression of dimethylarginine dimethylaminohydrolase-2, which degrades asymmetrical dimethylarginine, a nitric oxide synthase inhibitor, significantly increases with γ-tocopherol treatment compared with injured sheep (P < 0.05). Arginase activity (0.15 ± 0.02 μM urea/μg protein vs. 0.24 ± 0.009, P < 0.05), ornithine aminotransferase (11,720 ± 888 vs. 13,170 ± 1,775), and collagen deposition (0.62 ± 0.12 μM hydroxyproline/μg protein vs. 1.02 ± 0.13, P < 0.05) significantly decrease with γ-tocopherol compared with injured animals without γ-tocopherol. The decreases in arginase and collagen with γ-tocopherol are associated with significantly increased diffusion capacity (P < 0.05) and decreased lung wet-to-dry ratio (P < 0.05). Smoke-induced chronic pulmonary dysfunction is mediated through the ROS/asymmetrical dimethylarginine/arginase pathway, and ROS scavengers such as γ-tocopherol may be a potential therapeutic management of burn patients with inhalation injury.
Shock (Augusta, Ga.) 12/2012; 38(6):671-6. · 2.87 Impact Factor
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Sam Jacob,
Yong Zhu,
Collette Jonkam,
Sven Asmussen,
Lillian Traber,
David N Herndon,
Tina L Palmieri,
Perenlei Enkhbaatar,
Daniel L Traber, Hal K Hawkins,
Robert A Cox
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ABSTRACT: The objective of this study is to measure the temporal changes in bronchial submucosal gland (SMG) cell proliferation in sheep after smoke inhalation and burn (SB) injury, and to assess the effect of bronchodilators on the proliferative response. Archived main bronchial airways from sheep after SB injury were immunostained for Ki67, and the percentage of ciliated duct and SMG cells expressing nuclear localization of Ki67 was determined for uninjured sheep and in sheep 24, 48, 72, and 96 hours after injury. A semiquantitative measure of lining epithelial exfoliation was made for each tissue. Bronchial tissues from sheep at 48 hours after SB injury that had been nebulized with albuterol or tiotropium bromide (tiotropium) were examined to assess the effect of bronchodilators on the proliferative response. At 48 through 96 hours after injury, both ciliated duct and SMG cell proliferation were significantly increased compared with that of uninjured animals and animals 24 hours after injury, P <.05. A small increase in proliferation was seen in the SMG cells of albuterol-treated sheep compared with nebulized saline controls, P = .048. SMG cells of tiotropium-treated animals showed a significant increase in Ki67 nuclear staining compared with their study controls, P = .001. Extensive injury to the lining epithelium is associated with a proliferative response in both ciliated duct and SMG cells 24 hours after injury. The increase in proliferation in sheep treated with bronchodilators suggests that therapies for inhalation injury modify the glandular proliferative response. Further study to assess the ability of bronchodilators to enhance epithelial repair is warranted.
Journal of burn care & research: official publication of the American Burn Association 10/2012; · 1.37 Impact Factor
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Yusuke Yamamoto,
Perenlei Enkhbaatar,
Linda E Sousse,
Hiroyuki Sakurai,
Sebastian W Rehberg,
Sven Asmussen,
Edward R Kraft,
Charlotte L Wright,
Eva Bartha,
Robert A Cox, Hal K Hawkins,
Lillian D Traber,
Maret G Traber,
Csaba Szabo,
David N Herndon,
Daniel L Traber
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ABSTRACT: We hypothesize that the nebulization of γ-tocopherol (g-T) in the airway of our ovine model of acute respiratory distress syndrome will effectively improve pulmonary function following burn and smoke inhalation after 96 h. Adult ewes (n = 14) were subjected to 40% total body surface area burn and were insufflated with 48 breaths of cotton smoke under deep anesthesia, in a double-blind comparative study. A customized aerosolization device continuously delivered g-T in ethanol with each breath from 3 to 48 h after the injury (g-T group, n = 6), whereas the control group (n = 5) was nebulized with only ethanol. Animals were weaned from the ventilator when possible. All animals were killed after 96 h, with the exception of one untreated animal that was killed after 64 h. Lung g-T concentration significantly increased after g-T nebulization compared with the control group (38.5 ± 16.8 vs. 0.39 ± 0.46 nmol/g, P < 0.01). The PaO(2)/FIO(2) ratio was significantly higher after treatment with g-T compared with the control group (310 ± 152 vs. 150 ± 27.0, P < 0.05). The following clinical parameters were improved with g-T treatment: pulmonary shunt fraction, peak and pause pressures, lung bloodless wet-to-dry weight ratios (2.9 ± 0.87 vs. 4.6 ± 1.4, P < 0.05), and bronchiolar obstruction (2.0% ± 1.1% vs. 4.6% ± 1.7%, P < 0.05). Nebulization of g-T, carried by ethanol, improved pulmonary oxygenation and markedly reduced the time necessary for assisted ventilation in burn- and smoke-injured sheep. Delivery of g-T into the lungs may be a safe, novel, and efficient approach for management of acute lung injury patients who have sustained oxidative damage to the airway.
Shock (Augusta, Ga.) 01/2012; 37(4):408-14. · 2.87 Impact Factor
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ABSTRACT: This study tests the hypothesis that muscarinic receptor antagonist therapy with tiotropium bromide (tiotropium; TIO), alone or in combination with tissue plasminogen activator (TPA), can attenuate pulmonary dysfunction in sheep after smoke inhalation and burn injury. The study consisted of four study groups, sham (uninjured), control (injured and untreated), TIO (injured and treated with nebulized TIO), and TIO + TPA (injured and treated with nebulized TIO and TPA). Cardiopulmonary and ventilatory parameters were monitored for 48 hours. After killing the animal, airway obstruction, submucosal gland neutrophilia, parenchyma histopathology, and lung wet to dry weight ratios were measured. PaO2/FiO2 was significantly improved in the TIO group compared with the control group at 48 hours, 301 ± 149 vs 99 ± 33, respectively, P < .05. At 48 hours, peak airway pressures in the control, TIO, and TIO + TPA groups were 35 ± 6, 24 ± 7, and 26 ± 10, respectively, with the mean of the TIO group being significantly different from that of the control group, P < .05. A trend of decreased airway obstruction was seen in the treated animals compared with controls; however, the differences were not statistically significant. The TIO and TIO + TPA groups exhibited significant decreases in gland neutrophilia compared with the control group, P < .05. No differences in parenchyma histopathology and lung edema between injured control and treated groups were observed. Nebulization of TIO was effective in improving pulmonary performance and reducing bronchial submucosal gland neutrophilia in sheep after smoke inhalation and burn injury. There was no additive benefit to the inclusion of nebulized TPA with TIO.
Journal of burn care & research: official publication of the American Burn Association 12/2011; 33(4):524-31. · 1.37 Impact Factor
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ABSTRACT: Bronchial circulation plays a critical role in the pathophysiology of burn and smoke inhalation-induced acute lung injury. A 10-fold increase in bronchial blood flow is associated with excessive production of nitric oxide (NO) following smoke inhalation and cutaneous burn. Because an increased release of neuropeptides from the airway has been implicated in smoke inhalation injury, we hypothesized that direct delivery into the bronchial artery of low-dose 7-nitroindazole (7-NI), a specific neuronal NO synthase inhibitor, would attenuate smoke/burn-induced acute lung injury. Eighteen adult female sheep were instrumented for chronic hemodynamic monitoring 5 to 7 days before the injury. The bronchial artery was cannulated via intercostal thoracotomy, while blood flow was preserved. Acute lung injury was induced by 40% total body surface area third-degree cutaneous burn and smoke inhalation (48 breaths of cotton smoke, <40°C) under deep anesthesia. Following injury, animals (35.4 ± 1.1 kg) were divided into three groups: (a) 7-NI group: 1 h after injury, 7-NI (0.01 mg · kg · h, 2 mL · h) was continuously infused into the bronchial artery, n = 6; (b) control group: 1 h after injury, same amount of saline was injected into the bronchial artery, n = 6; (c) sham group: no injury, no treatment, same operation and anesthesia, n = 6. After injury, all animals were ventilated and fluid resuscitated according to an established protocol. The experiment was conducted for 24 h. Injury induced severe pulmonary dysfunction, which was associated with increases in lung edema formation, airway obstruction, malondialdehyde, and nitrate/nitrite. 7-Nitroindazole injection into the bronchial artery reduced the degree of lung edema formation and improved pulmonary gas exchange. The increase in malondialdehyde and nitrate/nitrite in lung tissue was attenuated by treatment. Our data strongly suggest that local airway production of NO contributes to pulmonary dysfunction following smoke inhalation and burn injury. Most mechanisms that drive this pathophysiology reside in the airway.
Shock (Augusta, Ga.) 12/2011; 36(6):575-9. · 2.87 Impact Factor
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ABSTRACT: This experimental animal study investigates the effects of combined recombinant human activated protein C (rhAPC) and ceftazidime on cardiopulmonary function in acute lung injury and severe sepsis. Twenty-one sheep (37 ± 2 kg) were operatively prepared and randomly allocated to either the sham, control, or treatment group (n = 7 each). Single treatments of rhAPC or ceftazidime were published previously; therefore, control groups were dispensed in the present study, what may be considered a study limitation. Acute lung injury and sepsis were induced according to an established protocol. The sham group received only the vehicle. The sheep were studied in awake state for 24 h and mechanically ventilated. Recombinant human APC (continuous infusion 24 μg/kg per hour) and ceftazidime (3-g bolus at 1 and 13 h) were intravenously administered. The animals were fluid resuscitated with Ringer's lactate to maintain hematocrit at baseline. Compared with injured controls, the treatment group had a significantly higher PaO₂/FIO₂ ratio, and the onset of acute respiratory distress syndrome was prevented. The increase in pulmonary microvascular shunt fraction and airway obstruction in bronchi and bronchiole, as well as lung 3-nitrotyrosine, lung myeloperoxidase, cardiac 3-nitrotyrosine, and cardiac malondialdehyde levels, was significantly reduced as compared with controls (P < 0.05 each). Treated sheep had significantly improved hemodynamics as reflected by mean arterial pressure, heart rate, cardiac index, and systemic vascular resistance index (P < 0.05 each). In addition, plasma oncotic pressure and urine output were significantly improved (P < 0.05 each). Combined rhAPC and ceftazidime significantly improved cardiopulmonary function, reduced pulmonary and cardiac tissue injury, and prevented the onset of acute respiratory distress syndrome in ovine severe sepsis without obvious adverse effects.
Shock (Augusta, Ga.) 11/2011; 37(2):170-6. · 2.87 Impact Factor
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ABSTRACT: The objective of the study was to investigate pulmonary responses to Pseudomonas aeruginosa and methicillin-resistant Staphylococcus aureus (MRSA) using ovine and mice models of sepsis with emphasis on lung cytokine expression, asymmetric dimethylarginine (ADMA) concentration, and the arginase pathway. Sheep were instilled with either MRSA, P. aeruginosa, or saline under deep anesthesia; mechanically ventilated; resuscitated with fluid; and killed after 24 h. Mice were instilled with either MRSA, P. aeruginosa, or saline under deep anesthesia and killed after 8 h. Lungs were assessed for ADMA concentration, arginase activity, oxidative stress, and cytokine expression, and plasma was assessed for nitrate/nitrite concentrations. The severity of lung injury was more pronounced in P. aeruginosa sepsis compared with MRSA. The significant changes in sheep lung function after P. aeruginosa sepsis were associated with significantly increased ADMA concentrations and arginase activity compared with MRSA. However, the plasma concentration of nitrites and nitrates were significantly increased in MRSA sepsis compared with P. aeruginosa sepsis. In the mice model, P. aeruginosa significantly increased lung cytokine expression (IL-1 and IL-13), protein oxidation, and arginase activity compared with MRSA. Our data suggest that the greater expression of cytokines and ADMA concentrations may be responsible for severity of acute lung injury in P. aeruginosa sepsis. The lack of arginase activity may explain the greater nitric oxide production in MRSA sepsis.
Shock (Augusta, Ga.) 09/2011; 36(5):466-70. · 2.87 Impact Factor
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Sven Asmussen,
Eva Bartha,
Gabor Olah,
Elena Sbrana,
Sebastian W Rehberg,
Yusuke Yamamoto,
Perenlei Enkhbaatar, Hal K Hawkins,
Hiroshi Ito,
Robert A Cox,
Lillian D Traber,
Daniel L Traber,
Csaba Szabo
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ABSTRACT: We investigated the effect of the angiotensin-converting enzyme (ACE) inhibitor captopril in a clinically relevant ovine model of smoke and burn injury, with special reference to oxidative stress and activation of poly(ADP-ribose) polymerase, in the lung and in circulating leukocytes. Female, adult sheep (28-40 kg) were divided into three groups. After tracheostomy and under deep anesthesia, both vehicle-control-treated (n = 5) and captopril-treated (20 mg/kg per day, i.v., starting 0.5 h before the injury) (n = 5) groups were subjected to 2 × 20%, third-degree burn injury and were insufflated with 48 breaths of cotton smoke. A sham group not receiving burn/smoke was also studied (n = 5). Animals were mechanically ventilated and fluid resuscitated for 24 h in the awake state. Burn and smoke injury resulted in an upregulation of ACE in the lung, evidenced by immunohistochemical determination and Western blotting. Burn and smoke injury resulted in pulmonary dysfunction, as well as systemic hemodynamic alterations. Captopril treatment of burn and smoke animals improved PaO2/FiO2 ratio and pulmonary shunt fraction and reduced the degree of lung edema. There was a marked increase in PAR levels in circulating leukocytes after burn/smoke injury, which was significantly decreased by captopril. The pulmonary level of ACE and the elevated pulmonary levels of transforming growth factor β in response to burn and smoke injury were significantly decreased by captopril treatment. Our results suggest that the ACE inhibitor captopril exerts beneficial effects on the pulmonary function in burn/smoke injury. The effects of the ACE inhibitor may be related to the prevention of reactive oxygen species-induced poly(ADP-ribose)polymerase overactivation. Angiotensin-converting enzyme inhibition may also exert additional beneficial effects by inhibiting the expression of the profibrotic mediator transforming growth factor β.
Shock (Augusta, Ga.) 06/2011; 36(4):402-9. · 2.87 Impact Factor
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ABSTRACT: We sought to extend our prior observations and histopathologically characterize key metabolic enzymes (CYP1A1) with markers of oxidative damage in the placental sections from smokers.
Placental specimens were collected from term singleton deliveries from smokers (n = 10) and nonsmokers (n = 10) and subjected to a detailed histopathological examination. To quantify the extent of oxidative damage, masked score-graded (0-6) histopathology against 4-hydroxy-2-nonenal (4-HNE) and 8-hydroxydeoxyguanisine (8-OHdG) was performed. Minimal significance (P < .05) was determined with a Fisher's exact and a 2-tailed Student t test as appropriate.
We observed a significant increase in the presence of syncytial knots in placentas from smokers (70% vs 10%, P = .02). These gross observations were accompanied by a significant aberrant placental aromatic hydrocarbon metabolism (increased CYP1A1, 4.4 vs 2.1, P = .002) in addition to evidence of oxidative damage (4-HNE 3.4 vs 1.1, P = .00005; 8-OHdG 4.9 vs 3.1, P = .0038).
We observed a strong association between maternal tobacco use and aberrant placental metabolism, syncytial knot formation, and multiple markers of oxidative damage.
American journal of obstetrics and gynecology 06/2011; 205(3):246.e1-7. · 3.28 Impact Factor
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ABSTRACT: Reactive oxygen species (ROS) are thought to contribute to the pathogenesis of necrotizing enterocolitis (NEC). Mitochondria as a major source of intracellular ROS and apoptotic signaling during oxidative stress in NEC have not been investigated. We sought to determine: (1) the effects of oxidative stress on intestinal mitochondrial apoptotic signaling, and (2) the role of growth factors in this process.
We used Swiss-Webster mice pups, and rat intestinal epithelial (RIE)-1, mitochondrial DNA-depleted RIE-1 cell line (RIE-1-ρ°) and human fetal intestinal epithelial cells (FHs74 Int) for our studies.
H(2)O(2) induced apoptosis and ROS production. ROS-mediated activation of apoptotic signaling was significantly attenuated with mitochondrial silencing in RIE-1-ρ° cells. Growth factors, especially IGF-1, attenuated this response to H(2)O(2) in intestinal epithelial cells.
Our findings suggest that mitochondria are a major source of intestinal apoptotic signaling during oxidative stress, and modulating mitochondrial apoptotic responses may help ameliorate the effects of NEC.
Pediatric Surgery International 03/2011; 27(8):871-7. · 1.25 Impact Factor
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ABSTRACT: The aim of the study was to compare a low fat/high-carbohydrate diet and a high-fat diet on clinical outcomes by a retrospective cohort study.
Nine hundred forty-four children with burns ≥ 40% of their total body surface area (TBSA) were divided into two groups: patients receiving Vivonex T.E.N. (low-fat/high-carbohydrate diet; n = 518) and patients receiving milk (high-fat diet; n = 426). Patient demographics, caloric intake, length of hospital stay, and incidence of sepsis, mortality, hepatic steatosis, and organomegaly at autopsy were determined.
Demographics and caloric intake were similar in both groups. Patients receiving Vivonex T.E.N. had shorter (intensive care unit) ICU stays (Vivonex T.E.N.: 31 ± 2 d; milk: 47 ± 2 d; P < 0.01), shorter ICU stay per % TBSA burn (Vivonex T.E.N.: 0.51 ± 0.02 d/%; milk: 0.77 ± 0.03 d/%; P < 0.01), lower incidence of sepsis (Vivonex T.E.N.: 11%; milk: 20%; P < 0.01), and lived significantly longer until death than those receiving milk (Vivonex T.E.N.: 20 ± 3 d; milk: 10 ± 2 d; P < 0.01). There was no difference in overall mortality between the two groups (Vivonex T.E.N.:15% versus milk: 13%; P < 0.9). Autopsies revealed decreased hepatic steatosis and decreased enlargement of kidney and spleen in patients receiving Vivonex T.E.N.
The period with a low-fat/high-carbohydrate diet was associated with lower LOS, decreased incidence of organomegaly, infection, and hepatic steatosis post-burn compared with the period when a high-fat diet was used. These associations indicate the benefit of high carbohydrate/low fat nutrition; however, the findings in these time periods can also be likely due to the multifactorial effects of advances in burn care. We believe that these results have some relevance because high fat is associated with poorer outcomes compared with low fat.
Journal of Surgical Research 03/2011; 166(1):e83-90. · 2.25 Impact Factor
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Dirk M Maybauer,
Marc O Maybauer,
Csaba Szabó,
Robert A Cox,
Martin Westphal,
Levente Kiss,
Eszter M Horvath,
Lillian D Traber, Hal K Hawkins,
Andrew L Salzman,
Garry J Southan,
David N Herndon,
Daniel L Traber
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ABSTRACT: Systemic inflammatory response syndrome is associated with excessive production of nitric oxide (NO·) and superoxide (O2), forming peroxynitrite, which in turn, acts as a terminal mediator of cellular injury by producing cell necrosis and apoptosis. We examined the effect of the peroxynitrite decomposition catalyst, WW-85, in a sheep model of acute lung injury and septic shock. Eighteen sheep were operatively prepared and randomly allocated to the sham, control, or WW-85 group (n = 6 each). After a tracheotomy, acute lung injury was produced in the control and WW-85 groups by insufflation of four sets of 12 breaths of cotton smoke. Then, a 30-mL suspension of live Pseudomonas aeruginosa bacteria (containing 2 - 5 × 10¹¹ colony-forming units) was instilled into the lungs according to an established protocol. The sham group received only the vehicle (30 mL saline). The sheep were studied in awake state for 24 h and ventilated with 100% oxygen. WW-85 was administered 1 h after injury as bolus infusion (0.1 mg/kg), followed by a continuous infusion of 0.02 mg·kg⁻¹·h⁻¹ until the end of the 24-h experimental period. Compared with injured but untreated controls, WW-85-treated animals had significantly improved gas exchange, reductions in airway obstruction, shunt formation, lung myeloperoxidase concentrations, lung malondialdehyde concentrations, lung 3-nitrotyrosine concentrations, and plasma nitrate-to-nitrite levels. Animals treated with WW-85 exhibited less microvascular leakage and improvements in pulmonary function. These results provide evidence that blockade of the nitric oxide-peroxynitrite pathway improves disturbances from septic shock, as demonstrated in a clinically relevant ovine experimental model.
Shock (Augusta, Ga.) 02/2011; 35(2):148-55. · 2.87 Impact Factor
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ABSTRACT: Few publications recognize acute pancreatitis as a complication after large burns, consequently the incidence and outcome acute pancreatitis after burn in children is not well defined. The aim of this study was to determine the incidence, morbidity, and mortality relating to acute pancreatitis in a pediatric burn population and to correlate clinical diagnosis with autopsy findings to determine the incidence of unrecognized pancreatitis. Records of 2699 patients with acute burns were reviewed. Acute pancreatitis was defined as abdominal pain and/or feeding intolerance in addition to a three-fold elevation of amylase and/or lipase. One-hundred twenty-seven burned children served as the control cohort. To assess the presence of autopsy confirmed AP in pediatric burn patients, we evaluated autopsy reports of 78 children who died from burns, looking for reported evidence of pancreatic inflammation, and fat/parenchymal necrosis. Our data show that acute pancreatitis in children has a low incidence after burn. The study included 2699 patients of which 13 were suffering acute pancreatitis (13/2699 = 0.05%). Mortality is significantly higher for the acute pancreatitis group vs. the control group, p < 0.05. Autopsy reports established 11 of 78 patients with evidence of pancreatitis, resulting in an incidence of 0.17% for pancreatitis at autopsy. Although it has low incidence, acute pancreatitis is associated with increased mortality in severely burned pediatric patients, which underlines the importance of increased vigilance in the evaluation and treatment of pancreatitis in burned children.
Burns: journal of the International Society for Burn Injuries 02/2011; 37(1):82-5. · 1.95 Impact Factor
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ABSTRACT: Severe thermal injury induces inflammatory and hypermetabolic responses that are associated with morbidity and mortality. However, it is not well-documented whether the causes of burns affect inflammation, hypermetabolism, and morbidity. The aim of the present study was to determine whether there is a difference in degree of inflammation, hypermetabolism, endocrine and acute-phase response, and clinical outcome between pediatric patients with scald and flame burns.
None.
Children with burns requiring surgical intervention were enrolled in this cohort study and divided into two groups, scald or flame burn. In a second assignment, we analyzed the study populations in representative subgroups containing individuals with third-degree burns of 40% to 60% total body surface area. We determined clinical outcomes, resting energy expenditures, cytokine profiles, acute-phase proteins, constitutive proteins, and hormone panels. Statistical analysis was evaluated by analysis of variance, Student's t test corrected with the Bonferroni post hoc test, and the propensity score. Statistical significance was set at p < .05. A total of 912 patients were identified. Six hundred seventy-four had a flame burn and 238 had a scald burn. There was a significant difference (p < .05) in burn size (flame, 48% ± 23%; scald, 40% ± 21%), third-degree burn (flame, 39% ± 27%; scald 22% ± 25%), age (flame, 8 ± 5 yrs; scald, 3 ± 3 yrs), and mortality between groups. Propensity analysis confirmed the type of burn as a significant risk factor for morbidity and mortality. Subanalysis conducted in a representative patient group suffering from 40% to 60% burn total body surface area revealed that flame burns lead to significantly increased hypermetabolic, inflammatory, and acute-phase responses when compared to scald burns (p < .05). The frequency of sepsis was 3% in the scald burn group, while it was 14% in the flame group (p < .001). Multiorgan failure occurred in 14% of the scald patients, while it occurred in 17% of flame patients. The mortality in patients suffering from a scald burn was 3% compared to 6% in the flame-burned group (p < .05).
The type of burn affects hypermetabolism, inflammation, acute-phase responses, and mortality postburn.
Pediatric Critical Care Medicine 02/2011; 12(6):e275-81. · 3.13 Impact Factor
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Collette Jonkam,
Yong Zhu,
Sam Jacob,
Sebastian Rehberg,
Edward Kraft,
Atsumori Hamahata,
Yoshimitsu Nakano,
Lillian D Traber,
David N Herndon,
Daniel L Traber, Hal K Hawkins,
Perenlei Enkhbaatar,
Robert A Cox
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ABSTRACT: Inhalation injury contributes to the morbidity and mortality of burn victims. In humans and in an ovine model of combined smoke inhalation and burn injury, bronchospasm and acute airway obstruction contribute to progressive pulmonary insufficiency. This study tests the hypothesis that muscarinic receptor antagonist therapy with tiotropium bromide, an M1 and M3 muscarinic receptor antagonist, will decrease the airway constrictive response and acute bronchial obstruction to improve pulmonary function compared to injured animals without treatment.
Randomized, prospective study involving 32 sheep.
Large-animal intensive care research laboratory.
The study consisted of six groups: a sham group (n=4, instrumented noninjured), a control group (n=6, injured and not treated), and tiotropium bromide-treated groups, including both preinjury and postinjury nebulization protocols. Treatments for these groups included nebulization with 36 μg of tiotropium bromide 1 hr before injury (n=6) and postinjury nebulization protocols of 18 μg (n=6), 36 μg (n=6), and 72 μg (n=4) administered 1 hr after injury. All treated groups received an additional 14.4 μg every 4 hrs for the 24-hr study period.
Pretreatment with tiotropium bromide significantly attenuated the increases in ventilatory pressures, pulmonary dysfunction, and upper airway obstruction that occur after combined smoke inhalation and burn injury. Postinjury treatments with tiotropium bromide were as effective as pretreatment in preventing pulmonary insufficiency, although a trend toward decreased obstruction was present only in all post-treatment conditions. There was no improvement noted in pulmonary function in animals that received a higher dose of tiotropium bromide.
This study describes a contribution of acetylcholine to the airway constrictive and lumenal obstructive response after inhalation injury and identifies low-dose nebulization of tiotropium bromide as a potentially efficacious therapy for burn patients with severe inhalation injury.
Critical care medicine 12/2010; 38(12):2339-44. · 6.37 Impact Factor
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ABSTRACT: We previously reported bronchial circulation contributes to pulmonary edema and increases shunt fraction following smoke inhalation, and bronchial blood flow significantly increases in inhalation injury. We hypothesized reduction of bronchial blood flow reduces exudation to the airway and ameliorates lung injury from combined burn and smoke insults (B&S injury).
Merino ewes (n=28) randomly divided into three groups: (1) bronchial artery ligated and injured (injury+ligation group); (2) bronchial artery left intact and injured (injury+no ligation group); (3) bronchial artery ligated but not injured (no injury+ligation group) were subjected to a flame burn and inhalation injury under halothane anesthesia. Parameters were analyzed using Scheffe's post hoc test (P<0.05). All Groups were resuscitated with Ringer lactate solution and placed on a ventilator for 48h.
Pulmonary gas exchange (PaO(2)/FiO(2)) improved in injury+ligation group. Further, obstruction score, an index of airway cast formation, significantly changed between injury+no ligation group compared to both ligation groups.
Bronchial circulation plays a significant role in lung injury after B&S injury, and reduction of bronchial blood flow by bronchial artery ligation reduces bronchial exudates, resulting in improved gas exchange.
Burns: journal of the International Society for Burn Injuries 12/2010; 37(3):465-73. · 1.95 Impact Factor
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ABSTRACT: Smoke inhalation injury promotes exfoliation of the upper airway columnar epithelium. Tracheal tissues from sheep 30 min after smoke exposure show intact epithelial areas, areas of epithelial disruption with loss of columnar cells and areas denuded of columnar cells. In intact areas detaching ciliated cells can be seen raised above the apical surface. This study aims to assess cell-specific toxicity by examining intact epithelium after inhalation injury. The junctional adhesion integrity between columnar and basal cells and the type of cells initially being displaced were also studied using light (LM) and transmission electron microscopy (TEM). TEM assessment of intact areas of sheep tracheal tissue (n=3) 30 min after exposure showed secretory cell toxicity including extrusion of cytoplasmic contents. In cells with severe secretory cell cytoplasmic disruption, loss of desmosomal junctions between the secretory and adjacent ciliated cells was evident. The number of desmosomes visible between columnar cells and basal cells was reduced (2.8 ± 1.8) in smoke-exposed animals compared to those in uninjured animals (5.0 ± 2.7), p=0.008. Serial sections of intact regions found 52 cells being displaced from the epithelium. All detaching cells were identified as ciliated cells. These studies show that the acute effects of inhalation injury include selective secretory cell toxicity which is associated with loss of junctional adhesion mechanisms and displacement of ciliated cells. Improved understanding of acute hypersecretory responses and epithelial integrity after exposure to toxic agents may improve understanding of epithelial fragility in airway disease.
Toxicology mechanisms and methods 10/2010; 20(8):504-9. · 1.03 Impact Factor
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Linda E Sousse,
Yusuke Yamamoto,
Perenlei Enkhbaatar,
Sebastian W Rehberg,
Sandra M Wells,
Scott Leonard,
Maret G Traber,
Yong-Ming Yu,
Robert A Cox, Hal K Hawkins,
Lillian D Traber,
David N Herndon,
Daniel L Traber
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ABSTRACT: Evidence suggests that lung structure and function are partly maintained by a balance between the competing arginine-metabolizing enzymes arginase and nitric oxide (NO) synthase. Asymmetric dimethylarginine (ADMA) is an endogenous inhibitor of NO synthase. It is metabolized by dimethylarginine dimethylaminohydrolase 2 (DDAH-2), which is oxidant-sensitive. The mechanism that induces excess lung collagen deposition in burned patients has not yet been explored. Our objective was to investigate the role of ADMA and the arginase pathway in acute lung injury. An ovine model for burn and smoke inhalation injury was used to assess excess lung collagen deposition. Sheep were deeply anesthetized during the injury, mechanically ventilated, resuscitated with fluid, and killed after either 2 or 3 weeks. Lungs were assessed histologically and biochemically for collagen content, arginase activity, lipid peroxidation product and antioxidant concentration, and protein concentrations. Plasma was assessed for amino acid and nitrate/nitrite concentrations. Burn and inhalation injury resulted in significantly reduced pulmonary function and increased lung collagen deposition. These physiological changes were associated with significantly increased lung arginase activity, collagen synthesis precursor ornithine aminotransferase, and ornithine decarboxylase, which is associated with cell proliferation. Significant decreases in plasma nitrate/nitrite after injury were associated with increased lung ADMA concentrations and decreased DDAH-2 expression. The decreased DDAH-2 expression was associated with significantly increased lipid peroxidation product and decreased antioxidant content in the lung. These data support that excess lung collagen deposition and reduced pulmonary function in acute lung injury after burn and inhalation injury are mediated through the arginase pathway.
Shock (Augusta, Ga.) 10/2010; 35(3):282-8. · 2.87 Impact Factor
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ABSTRACT: The recently developed murine model of smoke inhalation and burn (SB) injury was used to study the effect of the substance-P antagonist CP96345. C57BL/6 mice were pre-treated with an i.v. dose of a specific NK-1 receptor antagonist, CP9635, or its inactive enantiomer, CP96344, (10 mg/Kg) 1 h prior to SB injury per protocol (n = 5). Mice were anesthetized and exposed to cooled cotton smoke, 2X 30 s, followed by a 40% total body surface area flame burn per protocol. At 48 h after SB injury Evans Blue (EB) dye and myeloperoxidase (MPO) were measured in lung after vascular perfusion. Lungs were also analyzed for hemoglobin (Hb) and wet/dry weight ratio. In the current study, CP96345 pre-treatment caused a significant decrease in wet/dry weight ratio (23%, p = 0.048), EB (31%, p = 0.047), Hb (46%, p = 0.002), and MPO (54%, p = 0.037) levels following SB injury compared to animals with SB injury alone. CP-96344 pre-treatment caused an insignificant decrease in wet/dry weight ratio (14%, p = 0.18), EB (16%, p = 0.134), Hb (9%, p = 0.39), and an insignificant increase in MPO (4%, p = 0.79) as compared to mice that received SB injury alone. As expected, levels of EB, Hb, MPO, and wet/dry weight ratios were all significantly (p < 0.05) increased 48 h following SB injury alone compared to respective sham animals. In conclusion, the current study indicates that pre-treatment with a specific NK-1R antagonist CP-96345 attenuates the lung injury and inflammation induced by SB injury in mice.
Toxicology mechanisms and methods 03/2010; 20(4):197-203. · 1.03 Impact Factor
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Fiona D Saunders,
Martin Westphal,
Perenlei Enkhbaatar,
Jianpu Wang,
Konrad Pazdrak,
Yoshimitsu Nakano,
Atsumori Hamahata,
Collette C Jonkam,
Matthias Lange,
Rhykka L Connelly,
Gabriela A Kulp,
Robert A Cox, Hal K Hawkins,
Frank C Schmalstieg,
Eszter Horvath,
Csaba Szabo,
Lillian D Traber,
Elbert Whorton,
David N Herndon,
Daniel L Traber
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ABSTRACT: Neuronal nitric oxide synthase is critically involved in the pathogenesis of acute lung injury resulting from combined burn and smoke inhalation injury. We hypothesized that 7-nitroindazole, a selective neuronal nitric oxide synthase inhibitor, blocks central molecular mechanisms involved in the pathophysiology of this double-hit insult. Twenty-five adult ewes were surgically prepared and randomly allocated to 1) an uninjured, untreated sham group (n = 7), 2) an injured control group with no treatment (n = 7), 3) an injury group treated with 7-nitroindazole from 1-h postinjury to the remainder of the 24-h study period (n = 7), or 4) a sham-operated group subjected only to 7-nitroindazole to judge the effects in health. The combination injury was associated with twofold increased activity of neuronal nitric oxide synthase and oxidative/nitrosative stress, as indicated by significant increases in plasma nitrate/nitrite concentrations, 3-nitrotyrosine (an indicator of peroxynitrite formation), and malondialdehyde lung tissue content. The presence of systemic inflammation was evidenced by twofold, sixfold, and threefold increases in poly(ADP-ribose) polymerase, IL-8, and myeloperoxidase lung tissue concentrations, respectively (each P < 0.05 vs. sham). These molecular changes were linked to tissue damage, airway obstruction, and pulmonary shunting with deteriorated gas exchange. 7-Nitroindazole blocked, or at least attenuated, all these pathological changes. Our findings suggest 1) that nitric oxide formation derived from increased neuronal nitric oxide synthase activity represents a pivotal reactive agent in the patho-physiology of combined burn and smoke inhalation injury and 2) that selective neuronal nitric oxide synthase inhibition represents a goal-directed approach to attenuate the degree of injury.
AJP Lung Cellular and Molecular Physiology 12/2009; 298(3):L427-36. · 3.66 Impact Factor
