Michael G. Caty

Evidence for tumor necrosis factor-induced pulmonary microvascular injury after intestinal ischemia-reperfusion injury

Acute lung injury characterized by increased microvascular permeability Is one feature of multiple-organ system failure and the adult respiratory distress syndrome. Intestinal ischemia–reperfusion injury has been linked to this type of acute lung injury. The purpose of these experiments was to examine the pathogenic mediators that link the two processes, with particular emphasis on the roles of endotoxln and tumor necrosis factor α (TNFα). Previously described characteristics of the acute lung Injury in this rat model of Intestinal ischemia-reperfusion include pulmonary neutrophil sequestration, depletion of lung tissue ATP, alveolar endotnelial cell disruption, and increased microvascular permeability. Plasma levels of TNF In the systemic circulation of sham-operated animals and those with intestinal ischemlc injury less than 60 minutes In duration were very low or undetectable. Intestinal ischemia for 120 minutes was associated with TNF elevation to 1.19 ± 0.50 U/mL. Reperfusion for periods of 15 and 30 minutes generated 5− to 10-fold Increases In circulating TNF levels (6.61 ± 3.11 U/mL, p > 0.05 and 10.41 ± 5.41 U/mL, p.= 0.004 compared to sham); however this increase in circulating TNF was transient and largely cleared within 60 minutes after Initiating reperfusion. Portal vein endotoxln levels were found to increase significantly before the appearance of TNF in systemic plasma, suggesting that gut-derived endotoxin may Induce TNF release from hepatic macrophages into the systemic circulation. Antl-TNF antibody attenuated the increase in pulmonary microvascular permeability In this preparation but did not prevent pulmonary, neutrophil sequestration. These observations suggest that endotoxin and TNF have pathogenic roles in this acute lung Injury, but that mechanisms of adherence of neutrophils to endotnelial cells Independent of TNF may be Involved. The accumulation of neutrophils in the lung but the prevention of a vascular permeability increase in the presence of antibody to TNF may imply an in vivo role for TNF in the process of neutrophil activation. These studies provide additional evidence of the Importance of the endogenous inflammatory mediators in the development of systemic injury in response to local tissue Injury.

Neutrophil-dependent, oxygen-radical mediated lung injury associated with acute pancreatitis.

Cerulein-induced acute pancreatitis in rats is associated with a reversible lung injury that is characterized by alveolar capillary endothelial-cell injury, increased microvascular permeability, interstitial edema formation, and intraalveolar hemorrhage and fibrin deposition. The role of mediators in this injury was analyzed using gravimetric data, microvascular permeability indices, electron microscopy, and a quantitative morphometric analysis. Neutrophil depletion induced by a specific antibody was highly protective against lung injury. Interruption of the complement pathway (using low dose Naja naja cobra venom factor) also protected against lung injury. Catalase and superoxide dismutase were also protective. The iron chelator deferoxamine and the hydroxyl radical scavenger, dimethylsulfoxide, were not protective against acute lung injury. These data suggest that complement, neutrophils, and neutrophil-derived (H2O2-dependent) oxygen products mediate lung injury that occurs secondary to cerulein-induced pancreatitis. In contrast to other models of neutrophil-dependent, oxygen-radical-mediated lung injury, this lung injury does not appear to be an iron-dependent and hydroxyl-radical mediated injury. We postulate that the process of acute pancreatitis leads to complement activation followed by neutrophil recruitment, sequestration, and adherence to alveolar capillary endothelial cells. Ultimately lung injury appears to result from local endothelial-cell injury secondary to neutrophil-generated oxygen products that may be myeloperoxidase dependent.

Impact of bicycle helmet safety legislation on children admitted to a regional pediatric trauma center

PURPOSEnThe regional pediatric trauma center in Buffalo, NY, has been active in pediatric injury prevention programs, including community education and distribution of bicycle helmets, since 1990. Since June 1, 1994, the use of bicycle safety helmets for children under 14 years of age has been mandated by a state law in New York. The authors undertook this study to assess the impact of this legislation on the frequency of helmet use in children involved in bicycle crashes presenting to the regional pediatric trauma center, and to assess the impact of helmet use on the number and severity of head injuries.nnnMETHODSnBicycle crash victims (n = 208) admitted to a regional pediatric trauma center from 1993 to 1995 were studied retrospectively. Head injuries were classified as concussion alone, skull fractures, intracranial hemorrhages (ie, epidural, subdural, and subarachnoid), cerebral contusions, or diffuse cerebral edema alone (without any other intracranial injury). Helmeted children (HC) were compared with nonhelmeted children (NHC) using chi2 and Fishers Exact test. P value less than .05 was considered significant.nnnRESULTSnOnly 31 children (15%) wore helmets at the time of the crash. Helmet use increased from 2%, during the period of education alone, to 26% after the legislation went into effect (P < .00001). The proportion of children suffering head injuries was similar in both groups (HC, 68%; NHC, 61%; P = NS). However, the type of head injury was different. HC were more likely to sustain concussion alone (HC, 65%; NHC, 44%; P < .03). HC were less likely to have skull fractures (HC, 0%; NHC, 13%; P < .02), and exhibited a trend toward less intracranial hemorrhages (HC, 0%; NHC, 9%; P = NS), cerebral contusions (HC, 3%; NHC, 5%; P = NS), and cerebral edema (HC, 0%; NHC, 0.6%; P = NS). Excluding the isolated concussions, head injuries were noted in only one HC, compared with 30 NHC (P < .04). None of the three children who died wore helmets at the time of the crash, and all died of multiple head injuries.nnnCONCLUSIONSnThe bicycle helmet safety law resulted in a 13-fold increase in the use of bicycle helmets among the children admitted to a regional pediatric trauma center after bicycle crashes, but the helmet use remains inadequate. Helmet use reduced the severity of head injuries, and might have prevented deaths caused by head injuries.

Arterial levels of oxidized glutathione (GSSG) reflect oxidant stress in vivo.

Neutrophil-related, oxidant-mediated injury to the pulmonary microvasculature appears to follow endotoxemia, cutaneous thermal injury, and ischemia-reperfusion injury to the liver or intestine. Glutathione is an important endogenous intracellular oxygen radical scavenger. Plasma concentrations of oxidized glutathione (GSSG) reflect oxidant injury resulting from an overdose of certain oxidatively metabolized drugs. The purpose of this investigation was to evaluate plasma GSSG as an indicator of oxidant stress resulting from activation of the endogenous inflammatory response. An established model of neutrophil- and oxidant-related acute lung injury following intestinal ischemia and reperfusion in rats was used. Intestinal ischemia was induced by clip occlusion of the superior mesenteric artery (SMA) for 120 min. Reperfusion resulted from SMA clip removal. Following reperfusion for 0, 15, or 120 min, plasma GSSG levels in portal vein, inferior vena cava (IVC), and aorta were obtained. Plasma GSSG was undetectable in sham animals and those with intestinal ischemia alone. Following reperfusion, all plasma samples had significant elevations in GSSG. Aortic plasma GSSG after 15 min of reperfusion was significantly elevated compared to both portal vein and IVC plasma GSSG. These data suggest that oxidant stress after intestinal reperfusion is reflected by elevations in plasma GSSG. The step up in plasma GSSG across the pulmonary vascular bed, a site of known oxidant injury, suggests that plasma GSSG may be a useful marker of oxidant stress in vivo, particularly with regard to the pulmonary microvasculature. This simple in vivo approach to assessing oxidant stress related to inflammatory tissue injury may have the potential to be of significant use in the clinical setting.

Embryonal Rhabdomyosarcoma of the Ampulla of Vater With Long-Term Survival Following Pancreaticoduodenectomy

Rhabdomyosarcoma of the biliary tree is a rare cause of biliary tract obstruction in childhood. A 3-year-old child is reported here after presenting with obstructive jaundice secondary to an embryonal rhabdomyosarcoma of the ampulla of Vater. He underwent pancreaticoduodenectomy followed by adjuvant chemotherapy and irradiation. He is now well and free of disease 5 years following treatment. This child appears to be the first long-term survivor who has required pancreaticoduodenal resection for this lesion.

Histamine: A promoter of xanthine oxidase activity in intestinal ischemia/reperfusion

Xanthine oxidase (XO)-derived oxygen radicals are thought to play an important role in the intestinal injury resulting from ischemia and reperfusion. In vitro data shows enhanced XO activity in the presence of histamine. Histamine is known to be released during intestinal ischemia and reperfusion. The purpose of this study was to evaluate the relationship between histamine and XO in vivo in intestinal ischemia/reperfusion injury. Using an established model of gut ischemia and reperfusion, portal venous plasma was obtained and assayed for histamine levels, XO activity, and xanthine dehydrogenase (XD) activity following injury. Intestinal ischemia for 120 minutes resulted in a 200% increase in plasma histamine levels (263.4 +/- 36.9 nmol/mL control, v 548.7 +/- 35.1 nmol/mL experimental, P less than .05). Reperfusion for 15 minutes resulted in a further increase in plasma histamine (to 658.3 +/- 33.9 nmol/mL), compared with 120 minutes of ischemia alone. No significant change in plasma XO activity resulted after simple ischemia for 120 minutes. However, XO activity doubled within 15 minutes of reperfusion of the ischemic intestine (6.37 +/- 0.53 nmol O2- per milliliter per minute v 3.12 +/- 0.25 nmol O2- per milliliter per minute, P less than .05). Reperfusion for 60 minutes resulted in the maximal observed increase in plasma XO activity (9.49 +/- 0.67 nmol O2- per milliliter per minute). Analysis of XD activity demonstrated no significant decrease compared with controls until 120 minutes of ischemia and 60 minutes of reperfusion (1.62 +/- 0.49 nmol uric acid per milliliter per minute at 60 minutes of reperfusion, versus 5.02 +/- 0.52 nmol uric acid per milliliter per minute control, P less than .05).(ABSTRACT TRUNCATED AT 250 WORDS)

Cytoprotection by diclofenac sodium after intestinal ischemia/reperfusion injury.

Intestinal injury resulting from ischemia/reperfusion (I/R) is of fundamental importance in clinical pediatric surgery. I/R injury results from inadequate oxygen delivery as well as a secondary inflammatory response involving neutrophils and oxidants. This study was designed to evaluate a novel use for diclofenac sodium (DS), a nonsteroidal antiinflammatory agent, and to compare it with traditional antioxidants in this setting. Rats were subjected to intestinal ischemia followed by reperfusion. When killed, samples were obtained for measurement of intestinal myeloperoxidase (MPO), a measure of neutrophil sequestration, as well as for adenosine triphosphate (ATP) content, a marker of tissue injury. Animals exposed to I/R injury had significant neutrophil sequestration in the intestine by 120 minutes of ischemia, and this persisted after 60 minutes of reperfusion. DS pretreatment did not prevent neutrophil sequestration in the intestine. Analysis of intestinal ATP content demonstrated a decrease in intestinal ATP after 120 minutes of ischemia, and this did not change with 60 minutes of reperfusion. Pretreatment with DS significantly attenuated this intestinal ATP depletion. Furthermore, with 120 minutes of ischemia and 60 minutes of reperfusion, ATP preservation with DS pretreatment exceeded that obtained using the following conventional antioxidants: a xanthine-oxidase inhibitor (lodoxamide), deferoxamine, dimethysulfoxide, and superoxide dismutase plus catalase. DS has a significant cytoprotective effect for intestine subjected to I/R injury, exceeding that of conventional antioxidants. DS does not attenuate injury by preventing neutrophil influx into injured intestine.(ABSTRACT TRUNCATED AT 250 WORDS)