Expanding conceptualizations of harm reduction: results from a qualitative community-based participatory research study with people who inject drugs.

BACKGROUND: The perspectives of people who use drugs are critical in understanding why people choose to reduce harm in relation to drug use, what practices are considered or preferred in conceptualizations of harm reduction, and which environmental factors interfere with or support the use of harm reduction strategies. This study explores how people who inject drugs (PWID) think about harm reduction and considers the critical imperative of equity in health and social services delivery for this community. METHODS: This community-based participatory research study was conducted in a Canadian urban centre. Using a peer-based recruitment and interviewing strategy, semi-structured qualitative interviews were conducted by and with PWID. The Vidaview Life Story Board, an innovative tool where interviewers and participant co-construct a visual "life-scape" using a board, markers, and customized picture magnets, was used to facilitate the interviews. The topics explored included injection drug use and harm reduction histories, facilitators and barriers to using harm reduction strategies, and suggestions for improving services and supports. RESULTS: Twenty-three interviews with PWID (14 men and 9 women) were analysed, with a median age of 50. Results highlighted an expanded conceptualization of harm reduction from the perspectives of PWID, including motivations for adopting harm reduction strategies and a description of harm reduction practices that went beyond conventional health-focused concerns. The most common personal practices that PWID used included working toward moderation, employing various cognitive strategies, and engaging in community activities. The importance of social or peer support and improving self-efficacy was also evident. Further, there was a call for less rigid eligibility criteria and procedures in health and social services, and the need to more adequately address the stigmatization of drug users. CONCLUSIONS: These findings demonstrated that PWID incorporate many personal harm reduction practices in their daily lives to improve their well-being, and these practices highlight the importance of agency, self-care, and community building. Health and social services are needed to better support these practices because the many socio-structural barriers this community faces often interfere with harm reduction efforts. Finally, "one size does not fit all" when it comes to harm reduction, and more personalized or de-medicalized conceptualizations are recommended.

Ecological analyses of the associations between injury risk and socioeconomic status, geography and Aboriginal ethnicity in British Columbia, Canada.

BACKGROUND: The current study examines what factors contribute to higher injury risk among Aboriginal peoples, compared to the total British Columbia (BC) population. We explore socioeconomic, geographic, and cultural factors, and combinations of these factors, that contribute to increased injury risk for Aboriginal peoples. This follows from our previously reported findings of improvements in injury risk over time for both the total and Aboriginal populations. DATA AND METHODS: We use provincial population-based linked health care databases of hospital discharge records. We identify three population groups: total BC population, and Aboriginal populations living off-reserve, or on-reserve. For each group we calculate age and gender-standardized relative risks (SRR) of injury-related hospitalization, relative to the total population of BC, for two 5-year time periods (1999-2003, and 2004-2008). We use custom data from the 2001 and 2006 long-form Censuses that described income, education, employment, housing conditions, proportion of urban dwellers, proportion of rural dwellers, and prevalence of Aboriginal ethnicity. We use multivariable linear regression to examine the associations between the census characteristics and SRR of injury. RESULTS: The best-fitting model was an excellent fit (R(2) = 0.905, p < 0.001) among the three population groups within Health Service Delivery Areas of BC. We find indicators in all three categories (socioeconomic, geographic, and cultural) are associated with disparity in injury risk. While the socioeconomic indicators (income, education, housing, employment) were shown to be highly correlated, only living in housing that needs major repair and occupational hazardousness, along with rural residence and Aboriginal ethnicity, remained in the final model. Our data show that cultural density is not associated with injury risk for Aboriginal peoples, and that living off-reserve is associated with reduced injury by improving socioeconomic and geographic conditions (compared to living on-reserve). Finally, our analyses show that Aboriginal status itself is associated with injury risk. CONCLUSIONS: Our findings confirm previous research indicating that geographical differences differentiate injury risk, including for Aboriginal populations, and that socioeconomic determinants are associated with health risks. Our analyses showing that Aboriginal status itself contributes to injury risk is new, but we can only speculate about pathway, and whether the causes are direct or indirect.

Oxidants and the pathophysiology of burn and smoke inhalation injury.

A skin burn is a common traumatic injury that results in both local tissue damage and a systemic mediator-induced response. There is evidence of both local and systemic oxidant changes manifested by lipid peroxidation in animal burn models and also in burned man. Both increased xanthine oxidase and neutrophil activation appear to be the oxidant sources. Animal studies have also demonstrated decreased burn edema, and also decreased distant organ dysfunction with the use of antioxidants, suggesting a cause-and-effect relationship, which needs to be tested in man. Smoke inhalation injury, a chemical injury to the airways caused by incomplete products of combustion, is frequently seen in conjunction with a body burn. Lipid peroxidation, both in lung and in distant organs, is also seen with this injury. The combined body burn and smoke inhalation injury lead to a marked increase in mortality rate and also an increase in the degree of generalized oxidant release and lipid peroxidation. Although data in man are limited, the available information, along with that from animal research on burns and smoke inhalation, indicates oxidants may well play a key role, and antioxidants may be of clinical therapeutic use.

Comparison between lung and liver lipid peroxidation and mortality after zymosan peritonitis in the rat.

We compared the mortality rate and the lung and liver histologic injury with the degree of tissue lipid peroxidation after zymosan-induced peritonitis. Male Wistar rats were given .75 or 1 mg/g of zymosan intraperitoneally and monitored for 24 h. Tissue lipid peroxides were measured as conjugated dienes and malondialdehyde (MDA) as were the antioxidants, ascorbic acid and catalase. Mortality rates for the .75 and 1 mg/g groups were 15 and 50%, respectively. In lung, the degree of increase in conjugated dienes and MDA was significantly greater in nonsurvivors than survivors. Ascorbic acid and catalase levels were also significantly decreased to a greater degree in the sicker animals with ascorbic acid decreased to a greater degree in the higher dose and sicker animals. The level of MDA corresponded with the degree of histologic change. Catalase decreased to a greater degree in liver than lung. We conclude that the degree of lung and liver lipid peroxidation correlates with the degree of inflammation induced tissue injury and mortality.

Changes in lung and systemic oxidant and antioxidant activity after smoke inhalation.

We determined the oxidant activity in lung airways, parenchyma, and systemic tissues in response to smoke inhalation, comparing lipid peroxidation with physiologic and histologic change. Adult sheep were given a controlled amount of cooled smoke from burned cotton toweling, containing a uniform particle diameter of 3-4 microns. The mean peak carboxyhemoglobin was 45 +/- 4%. Animals were monitored unanesthetized for 24 h and killed. Severe respiratory failure was noted, as a result of airways mucosal ulceration, submucosal edema, and atelectasis, along with increased airways fluid, but minimal alveolar edema. Airway fluid malondialdehyde (MDA) content was threefold greater than plasma. However, airways mucosa and lung parenchymal tissue, lipid peroxidation, and oxidized glutathione were not increased, suggesting the only direct oxidant activity was present only at the airways surface. Other factors besides oxidants are likely to be involved in the lung injury. However, a marked systemic oxidant stress was noted as evidenced by a significant increase in liver tissue MDA and decrease in reduced glutathione and catalase activity. The tissue oxidant stress also corresponded with a 75% increase in systemic oxygen consumption and an increase in soft tissue vascular permeability. We conclude that: 1) the only direct lung oxidant stress after smoke was noted in airways fluid, while lung tissue lipid peroxidation was not seen despite severe airways injury and atelectasis, and 2) major systemic physiologic changes, as evidenced by increased systemic oxygen demands and systemic microvascular permeability are seen with smoke exposure in addition to evidence of systemic tissue oxidant stress. The likely source of the oxidant activity was a smoke-induced systemic inflammation.

Energy charge potential and glutathione levels as predictors of outcome following burn injury complicated by endotoxemia.

We studied the effect of water-soluble antioxidants geared at restoring glutathione levels on oxygen consumption, cell energetics as measured by energy charge potential (ECP), glutathione levels, and mortality, in response to a 20% total body surface area (TBSA) third degree burn injury combined with endotoxemia, five days after burn in a rat model. The 20% TBSA third degree burn injury was not fatal for the six day study period. Oxygen consumption as well as red blood cell ECP remained unchanged from control values. Liver ECP was significantly reduced; however, liver glutathione was significantly increased. The 20% TBSA burn injury combined with endotoxemia produced a 60% mortality rate. Twenty-four hour survivors (40%) demonstrated a significant decrease in oxygen consumption, red blood cell ECP, and liver ECP. Liver glutathione was significantly decreased compared with burn but was not significantly decreased compared with control. Nonsurvivors of the burn injury combined with endotoxin (60%) demonstrated a significant reduction in liver glutathione levels compared with survivors. Oxygen consumption and ECP could not be measured in the nonsurvivors due to the rapid loss of ATP in the moribund state that occurred by 4 h postinjury. Antioxidants produced 100% survival, attenuated in the fall in liver ECP, and restored red blood cell ECP and liver glutathione levels to normal values. We conclude that a modest burn injury combined with endotoxemia produces a liver glutathione debt, oxygen debt, an energy deficit, and 60% mortality. The mechanism of injury is oxidant related as antioxidants prevented mortality restored liver glutathione levels, and prevented or attenuated the decrease in ECP. A decrease in ECP and glutathione levels appear to be more sensitive indicators of outcome than the presence of an oxygen debt. The survivors, in both burn plus endotoxin groups treated with or without antioxidants was comparable, indicating a critical value for oxygen consumption exists before death occurs.

Comparison of plasma reduced glutathione and oxidized glutathione with lung and liver tissue oxidant and antioxidant activity during acute inflammation.

We determined whether plasma levels of reduced glutathione (GSH) and oxidized glutathione (GSSG) accurately reflect the tissue GSH and GSSG levels in lung and liver during a progressive acute inflammation-induced increased oxidant activity. We also determined whether plasma GSH also reflected other antioxidant defenses. Male Wistar rats (n = 38) were given intraperitoneal zymosan (.75 mg/g body weight) producing an acute progressive peritonitis and generalized inflammation. Animals were resuscitated then killed at 4 or 24 h. Plasma and tissue levels of GSH, GSSG, vitamin C, alpha-tocopherol, and catalase were measured. Conjugated dienes and malondialdehyde were used as tissue markers of lipid peroxidation. We found lung and liver tissue GSH to be decreased significantly at 4 h while GSSG was increased. Lipid peroxidation was also present in the lung. At 24 h, GSH remained decreased in liver and GSSG remained increased in lung along with the lipid peroxides conjugated dienes and malondialdehyde. In addition, overall antioxidant defenses were decreased in both lung and liver. Plasma GSH remained decreased at 24 h corresponding with the decrease in liver GSH as well as the decrease in other plasma and tissue antioxidants. However, plasma GSSG levels were not significantly increased, at any time point, indicating plasma GSSG does not accurately reflect tissue oxidant activity.

Topical ibuprofen decreases early postburn edema.

We determined the effect of topically applied ibuprofen on formation of second-degree burn edema and prostanoid production, a possible causative factor. Six adult sheep were given second-degree burns on both flanks with water at 80 degrees C while they were under general anesthesia. Lymph (QL), draining the flank areas, was used to monitor edema formation and prostanoid production. A 5% ibuprofen cream was applied at 2 and 5 hours after the burn and full-thickness biopsy specimens of burned hide were obtained at 8 hours for determination of water content. The QL increased sixfold in nontreated and 2.5 times in treated burn tissue. The lymph/plasma (L/P) protein ratio increased from 0.4 to 0.58 in both sides. Lymph TxB2 was increased from baseline of 200 pg/ml to 500 +/- 100 and 310 +/- 90 pg/ml in untreated and treated sides, respectively. Lymph 6-keto-PGF1 alpha increased from a baseline of 50 +/- 10 to 150 +/- 40 and 90 +/- 80 pg/ml in untreated and treated sides. The difference between PG content of lymph in treated and untreated sides was significant. Plasma prostanoids, except for a transient early rise, remained at preburn baseline. Lymph ibuprofen content on the treated side rose to 1.9 +/- 0.8 mcg/ml with no detectable plasma level. Water content of hide increased from a control value of 74 +/- 2% to 84 +/- 2% in untreated burn, while the value in the treated side was 76 +/- 4%, a significant difference between the two sides. We conclude that topically applied ibuprofen decreases both local edema and prostanoid production in burn tissue without altering systemic production.

The effect of complete burn wound excision and closure on postburn oxygen consumption.

We determined the effect of complete excision and closure of the burn wound on the postburn increase in oxygen consumption. Twelve sheep were given a 15% of total body surface full-thickness burn and were monitored for 7 days. By the third day, a 50% increase in O2 consumption, VO2, was noted, as was a significant increase in cardiac index and decrease in mixed venous PO2, compared to baseline. The hypermetabolic process persisted for the 7-day pre-excision period. On the seventh postburn day all sheep were anesthetized for 2 hours with halothane and placed on positive pressure ventilation, and then one half of these sheep underwent excision and closure. During anesthesia, VO2 decreased to 76 +/- 15 ml/min/M2, a value significantly lower than even the preburn awake baseline of 122 +/- 14 ml/min/M2 and the 7-day postburn value of 180 +/- 18 ml/min/M2. Quantitative cultures, before excision, revealed the wounds to be noninfected (less than 10(5) organisms per gram). In six animals, the burns were totally excised to fascia and closed with full-thickness defatted hide from other sheep obtained at the same time under sterile conditions. In these animals, the VO2 returned to preburn baseline by 24 hours postexcision and remained there for the 3-day postexcision study period. In the other six burned sheep, the 15% full-thickness burns remained. The hypermetabolic state returned to the 7-day postburn level on return to the awake state and persisted for the remainder of the study. We conclude that complete excision and wound closure can reverse the postburn increase in O2 consumption.

Effect of partial burn excision and closure on postburn oxygen consumption.

We studied the effect of partial excision and wound closure on the postburn hypermetabolic state. A 25% of total body surface burn was produced in seven sheep. Oxygen consumption (VO2) was significantly increased to 215 +/- 44 ml/min/M2 by day 3 compared with baseline of 125 +/- 21 ml/min/M2. The calculated increase was the result of the increased cardiac index as the average oxygen (AvO2) difference remained relatively constant. Body temperature was not significantly increased. Plasma and burn lymph thromboxane B2 were significantly increased. On day 7, 60% of the burn was completely excised to fascia and covered with a full-thickness graft from a donor animal. The VO2 decreased to below preburn levels during the period of anesthesia but returned completely to the preexcision hypermetabolic state by 2 hours after anesthesia and remained at this level for the remaining 2-day postexcision period. Quantitative cultures of burn hide at day 7 postburn and of the remaining 10% of total body surface burn at 2 days after excision revealed values less than 10(5) bacteria/gram eschar. No positive blood cultures were evident. We conclude that postburn hypermetabolism, once developed, may be perpetuated by a burn of lesser size. Partial excision, therefore, does not appear to significantly decrease the hypermetabolic state if a substantial inflammatory wound remains. Infection is not necessary to perpetuate the increased VO2.

Inhibition of thromboxane synthetase accentuates hemodynamic instability and burn edema in the anesthetized sheep model.

Thromboxane A2 production is increased early after burn. We studied the effect of inhibiting thromboxane synthetase, using dazmegrel, on postburn hemodynamic stability and edema formation, the latter monitored by burn tissue lymph flow. Dazmegrel (3.4 mg/kg) was given to six anesthetized sheep, and a 40% of total-body-surface third-degree burn was produced. Lactated Ringer's solution was infused at a rate to restore filling pressures during a 12-hour study period. Data were compared to burn alone (n = 8), anesthesia alone (n = 6), and dazmegrel alone (n = 5) groups. The latter two groups showed no physiologic changes. Dazmegrel pretreatment prevented increased thromboxane A2, measured as thromboxane B2, but resulted in a significant increase in plasma prostacyclin, measured as 6-keto-PGF1 alpha. In addition, a marked vasodilatation and decrease in systemic vascular resistance were noted, as well as a 30% increase in fluid requirements and an increase in lymph flow compared with burn alone. The increase in prostacyclin more than likely accentuated the burn-induced permeability change. Of interest was that oxygen consumption was better maintained with dazmegrel postburn, even with the relative hypovolemia, indicating that postburn vasoconstriction impairs adequate O2 delivery to tissues and that thromboxane synthetase inhibition attenuates this process.

Effect of a body burn on endotoxin-induced lipid peroxidation: comparison with physiologic and histologic changes.

We determined the effect of a 15% total body surface (TBS), full-thickness burn on the physiologic, histologic, and oxidant-induced lipid peroxidation changes produced by endotoxin. The endotoxin-burn response was compared with that of endotoxin alone. Twenty-two adult sheep with chronic lung and flank lymph fistulas were studied. In 11 sheep a burn was produced under anesthesia and 3 days later they were given 2 micrograms/kg of endotoxin. Data were also compared with those of control sheep and those that were given burns alone. Circulating conjugated dienes increased with endotoxin alone but remained at baseline with endotoxin and burn injury. The lung lymph flow response was increased significantly in the endotoxin-burn group (sixfold) compared with that of endotoxin alone (fourfold). Histologic quantitation of lung neutrophil count was comparable in both groups 6 hours after injury, although mononuclear cells were much more evident in lungs in the endotoxin-burn group. Lipid peroxidation measured by malondialdehyde was significantly increased in the endotoxin group compared with the endotoxin-burn group, despite the greater increase in lymph flow and lung water in the burned group. Oxygen consumption (VO2) remained constant after endotoxin alone compared with baseline. However, VO2 increased twofold immediately after endotoxin in the endotoxin-burn group. This marked increase was followed by a significant decrease in VO2 from baseline. Flank soft-tissue nonburned increased lung lymph flow twofold to threefold with endotoxin and burn, indicating increased soft-tissue permeability, whereas it remained unchanged with endotoxin alone. Liver malondialdehyde increased from a control of 110 +/- 20 to 210 +/- 80 mmol/gm tissue with endotoxin alone and to 450 +/- 54 nmol/gm tissue with endotoxin and burn. We can conclude that burn injury accentuates both the pulmonary and systemic physiologic response to endotoxin, possibly as a result of mediators released from mononuclear cells already activated in the presence of the burn. The increased lung physiologic response does not appear to be caused by greater oxidant-induced lipid peroxidation, as was seen in the liver with the combined injury.

Early postburn lipid peroxidation: effect of ibuprofen and allopurinol.

We measured lipid peroxidation of plasma, lung, and liver in anaesthetized sheep after third-degree burns involving 30% of total body surface. Animals were resuscitated to baseline filling pressures with lactated Ringer's solution and killed 10 hours after burn. Six sheep were pretreated with ibuprofen (12.5 mg/kg) and five with allopurinol (50 mg/kg). We used conjugated dienes and malondialdehyde as measures of lipid peroxidation. Circulating conjugated dienes increased from a baseline of 0.48 +/- 0.06 to 0.64 +/- 0.05 after burn, while protein-rich burn tissue lymph flow increased up to eightfold. We also noted a significant increase in lung tissue malondialdehyde from 45 +/- 4 to 60 +/- 6 nmol/gm and liver malondialdehyde from 110 +/- 20 to 271 +/- 34 nmol/gm along with increased tissue neutrophil sequestration. Ibuprofen attenuated lung-tissue malondialdehyde but had no effect on lung inflammation, circulating lipid peroxides or burn edema, indicating that ibuprofen most likely decreased O2 radical release in lung tissue by the already-sequestered neutrophils. Allopurinol, possibly via xanthine oxidase inhibition, markedly attenuated burn QL and circulating lipid peroxides and prevented all pulmonary lipid peroxidation and inflammation, indicating that release of oxidant from burn tissue was in part responsible for local burn edema, as well as distant inflammation and oxidant release, the latter most likely from complement activation. Neither antioxidant decreased lipid peroxidation in the liver; this indicates that its mechanism of production was different from that seen in burn tissue, in plasma, or in the lung. An ischemic event resulting from a selective decrease in splanchnic blood flow may be the cause of the liver changes.

Moderate smoke inhalation produces decreased oxygen delivery, increased oxygen demands, and systemic but not lung parenchymal lipid peroxidation.

We studied the first 24-hour lung and systemic physiologic response to a moderate smoke inhalation injury. In addition, we monitored oxidant-induced lipid peroxidation (LP), using malondialdehyde and conjugated dienes. Sixteen adult sheep with lung and soft tissue lymph fistulas were given 20 breaths of smoke while under anesthesia. Eight sheep were given a tidal volume of 5 ml/kg smoke, confining the inflammatory injury to airways only. Eight sheep were given 10 ml/kg smoke after which focal alveolar collapse and a carboxyhemoglobin level of 28% +/- 5% were noted in addition to airways injury. No significant lung or systemic physiologic changes were noted in the 5 ml/kg smoke exposure. However, plasma levels of malondialdehyde increased significantly, indicating that LP had occurred. With the 10 ml/kg smoke exposure, a 50% early decrease in oxygen consumption was noted. At 12 hours, oxygen consumption was then significantly increased by 30% over baseline. Fluid requirements to maintain filling pressures were also significantly increased, comparable to that seen after a 20% total body surface burn. A change in soft tissue permeability was noted with a twofold increase in systemic lymph, which could in part explain the fluid requirements. Lung lymph flow increased by only twofold, and lung water was not increased, whereas arterial partial oxygen pressure decreased from a baseline of 95 +/- 4 mm Hg to 60 +/- 5 mm Hg. Systemic LP was evident when both plasma malondialdehyde and conjugated dienes increased significantly. Liver tissue malondialdehyde at postmortem examination was double the normal level. However, lung parenchymal malondialdehyde was not increased.(ABSTRACT TRUNCATED AT 250 WORDS)

Early burn excision attenuates the postburn lung and systemic response to endotoxin.

The lung and systemic physiologic response to endotoxin is markedly accentuated in the presence of a body burn. Our purpose was to determine whether early burn excision and closure would decrease this response. We compared the endotoxin (2 micrograms/kg)-induced response in 10 adult sheep with lung and soft-tissue lymph fistulas 3 days after a 15% total-body surface full-thickness burn that was excised immediately with that of sheep without burn excision and nonburned sheep. No infection was present in the burn wound. Early excision prevented the ongoing postburn lipid peroxidation and lung inflammation seen 3 days after burn before endotoxemia in animals with 15% total body surface burn wound not excised. Sheep that underwent excision demonstrated significantly less pulmonary hypertension and hypoxia after endotoxin than did either endotoxin-treated and intact burned sheep or endotoxin-treated nonburned sheep. Lung inflammatory changes as determined by neutrophil content of lung tissue and the increase in lung tissue malondialdehyde in the group that underwent burn excision after endotoxin were comparable to those seen with endotoxin alone, as was the lung lymph-flow response. Also, the systemic response was nearly identical to that seen with endotoxin alone with no increase in soft-tissue permeability as measured by lymph flow. Oxygen consumption (VO2) remained unchanged from baseline. In contrast, VO2 doubled in burn-intact animals initially after endotoxin, after which VO2 decreased to levels below baseline. An increase in soft-tissue vascular permeability was also noted. We can conclude that early burn excision and closure prevent the accentuated response to endotoxin that is seen when the burn wound is left intact, even if it is uninfected.

Initial effect of smoke inhalation injury on oxygen consumption (response to positive pressure ventilation).

BACKGROUND: Our purpose was to determine the effect of a smoke inhalation injury on initial oxygen demands measured as oxygen consumption. In addition, we wanted to determine the effect of positive pressure ventilation (PPV) on this process. METHODS: Adult sheep were insuffated with cotton toweling smoke to a carboxyhemoglobin level of 45% +/- 3% and then monitored unanesthetized for 24 hours. Oxygen delivery was maintained at a constant state. RESULTS: A significant increase in oxygen consumption (VO2), indicating increased metabolic demands, occurred during the first 2 hours after smoke with peak increase of 75% +/- 10% above baseline. A second increase occurred peaking at 18 hours with a 40% +/- 11% increase. Both increases were due to increased O2 extraction from hemoglobin rather than increased cardiac output. Use of PPV during the first 2 hours had no effect on VO2 but did correct impaired lung function manifested by an increased shunt fraction. Use of PPV during the later increased VO2 totally reversed the process but had less effect on improving lung function. CONCLUSIONS: We concluded that the initial increase in oxygen demands is likely due to an acute release of inflammatory mediators from the airway injury. The PPV response is to reexpand airways and alveoli, but it has no effect on the metabolic response. The late increase is likely due to increased work of breathing, which is removed by PPV. However, lung dysfunction from established airway edema at this stage is less reversible with PPV.

Fluid resuscitation with deferoxamine hetastarch complex attenuates the lung and systemic response to smoke inhalation.

BACKGROUND: We determined the effect of infusing the iron chelator deferoxamine complexed to hetastarch on the degree of lung dysfunction and systemic abnormalities produced by a severe smoke exposure. METHODS: Adult sheep were given a smoke exposure under anesthesia that produced a peak carboxyhemoglobin between 40% and 45%. Twenty-eight sheep were studied; eight were given smoke alone and resuscitated with sufficient lactated Ringer's solution to maintain baseline hemodynamics. Seven sheep were given a bolus plus 1 ml/kg/hr of a 10% deferoxamine-hetastarch solution for resuscitation; five were given hetastarch alone. The response was compared with eight controls during a period of 24 hours. RESULTS: Smoke alone and smoke with hetastarch resulted in a shunt fraction of greater than 25% and a 50% decrease in compliance, severe airway inflammation, mucosal slough, atelectasis, and some alveolar edema. Increased lipid peroxides measured as malondialdehyde were present in airway fluid. In addition, oxygen consumption increased by 100% early after injury, net 24-hour positive fluid balance was almost 3 L, and a significant increase occurred in liver lipid peroxidation. The group given deferoxamine had a significantly attenuated lung response, with only modest airway damage lung dysfunction, and minimal systemic changes including a net positive fluid balance of just over 1L and no liver lipid peroxidation. CONCLUSIONS: An iron chelator deferoxamine complexed to hetastarch, given after a severe smoke exposure, significantly attenuates the airway and the systemic inflammatory (oxidant) injury, indicating free iron release and subsequent increased oxidant activity to be a major etiologic factor.

Early pulmonary and hemodynamic effects of a chest wall burn (effect of ibuprofen).

The cardiopulmonary effects of a third-degree scald burn involving the anterolateral chest wall was compared with a burn of equal size (30% of total body surface) to the flanks in anesthetized sheep with lung lymph fistulas. The chest-burn group was characterized by immediate decreases in cardiac output (6.5 to 3.0 L/min), central venous pressure (5 mm Hg to 0 mm Hg), pulmonary wedge pressure (10 mm Hg to 6 mm Hg), and urine output 1.5 ml/kg/hr to less than 0.5 ml/kg/hr. The temperature of pulmonary artery blood increased from 38 to 42 degrees C and plasma prostacyclin increased from 20 to 200 pg/ml. These changes were significantly different from those seen in the body sheep with burns. Initial fluid requirements necessary to restore filling pressures were 50% greater in the sheep with chest burns than in the sheep with body burns. An early decrease in static lung compliance was also seen after chest burn that was not the result of increased lung edema. A progressive decrease in compliance, urine output, and stroke output was also seen in the later postburn period (6 to 7 hours), which was significantly improved by a chest wall escharotomy. Postmortem analysis in the chest-burn group revealed a significantly increased malondialdehyde content, a reflection of increased oxygen radical-induced lipid peroxidation relative to the body burn. Pretreatment of the chest burn with ibuprofen, 12.5 mg/kg, prevented the initial vasodilator and lung compliance changes so that early cardiopulmonary status was identical to that seen with a body burn alone. Ibuprofen also decreased the lung tissue malondialdehyde content. We conclude that a burn involving the chest wall results in cardiopulmonary abnormalities, not seen after a body burn of a comparable size, which appear to be due to hyperthermia and an increased release of prostacyclin and O2 radicals.

Tissue inflammation without bacteria produces increased oxygen consumption and distant organ lipid peroxidation.

An inflammatory focus was produced by implantation of gauze below the hide in the flanks of six sheep with flank lymph fistulas. Physiologic and metabolic parameters were monitored in the unanesthetized animals for 7 days, after which the gauze was removed and monitoring continued for another 5 days. Animals were then killed. Lung and liver tissue was inspected and analyzed for lipid peroxide content. Data were compared with those of six controls in which gauze was not implanted. We noted a transient significant increase (on day 1 only) in wound lymph, thromboxane B2, and 6-keto-PGF1 alpha from baseline values of 190 +/- 70 and 20 +/- 10 pg/ml to 1000 +/- 240 and 420 +/- 70 pg/ml, respectively. Plasma values were also significantly increased on day 1. Body temperature increased by 1 degree C and cardiac index increased by 30% during this period, whereas oxygen consumption, VO2, was not significantly increased. The VO2 and cardiac index increased by 50% over baseline, beginning on day 5, whereas systemic vascular resistance decreased. Body temperature was not increased. These changes corresponded with an increase in wound lymph monocyte count from 0% to 15% of total. The VO2 and cardiac index remained increased after gauze removal. No bacteria were found in the wound. Postmortem analysis revealed a marked monocyte-macrophage infiltration in both lung and liver. Lung water, represented as water content over dry weight, was normal. Lung and liver lipid peroxidation, measured by the by-product malondialdehyde content, increased 300% and 90% over control values, respectively. We conclude that a local, nonbacteria-induced wound inflammation increases VO2, with the increase not corresponding to increase in body temperature. Distant organ changes, namely, changes in lung and liver, were also evident 5 days after gauze removal.

Effect of ibuprofen on the pulmonary and systemic response to repeated doses of endotoxin.

We infused 10 doses of Escherichia coli endotoxin, 1 microgram/kg, during a 5-day period, into eight unanesthetized sheep with lung and systemic lymph fistulas. The animals were then monitored for an additional 5 days. We noted an attenuation of the lung microvascular permeability changes with the later endotoxin doses. However, a 50% increase in cardiac index and oxygen consumption and a leukocytosis were seen beginning with the ninth endotoxin injection; these persisted throughout the 15-day postendotoxin period, as did an increase in pulmonary artery pressure. The hyperdynamic state was present when plasma prostanoids were only modestly increased, and there was no evidence of increased lung or systemic vascular permeability. Postmortem lung findings, 5 days after endotoxin administration, showed a marked interstitial inflammatory response, with infiltration of macrophages, neutrophils, and some lymphocytes and an increase in interstitial fibrous tissue. Six sheep were then given ibuprofen, 12.5 mg/kg, intravenously before the ninth and tenth doses and on the subsequent day. Ibuprofen significantly attenuated the hyperdynamic state and the pulmonary hypertension. In addition, the lung inflammation and fibrous tissue deposition was markedly attenuated. We conclude that a systemic hyperdynamic state develops that corresponds in time with lung inflammation but not with increased permeability. The lung and systemic changes may be blocked by ibuprofen. The ibuprofen effect may be due to a response other than prostanoid production.