Relationship between hepatic blood flow and tissue lipid peroxidation in the early postburn period.

OBJECTIVES: To determine the effect of a body burn on effective or nutrient liver blood flow and the relationship between blood flow and oxidant-induced lipid peroxidation. DESIGN: Anesthetized sheep were given a 40% of total body surface, third-degree burn, after which animals were fluid resuscitated to return ventricular filling pressures and cardiac output to baseline values. Animals, for the 6-hr study period, were resuscitated with lactated Ringer's solution alone or lactated Ringer's solution plus 1500 mL of 5% hydroxyethyl starch or lactated Ringer's solution plus hydroxyethyl starch on which was complexed the iron chelator deferoxamine to prevent oxidant release. Effective liver blood flow was measured using the galactose infusion technique. Liver tissue lipid peroxidation was monitored using malondialdehyde content. RESULTS: We found that effective liver blood flow was decreased by 50% in the 4- to 5-hr postburn period, even when animals were resuscitated to baseline cardiac output values with lactated Ringer's solution. Tissue malondialdehyde content increased in the group treated with lactated Ringer's solution from a control value of 110 +/- 7 to 202 +/- 59 nmol/g of tissue. Resuscitation with hydroxyethyl starch restored postburn effective liver blood flow to control values, but malondialdehyde content was still increased two-fold. Resuscitation with hydroxyethyl starch and deferoxamine resulted in an increase in effective liver blood flow postburn to a value 80% above controls. In addition, lipid peroxidation was prevented. CONCLUSIONS: Effective liver blood flow is markedly decreased after burn injury, even with apparently adequate volume resuscitation, when using lactated Ringer's solution. Liver lipid peroxidation persists even when effective liver blood flow is maintained, indicating that the oxidant process is not solely related to blood flow. Infusion of the antioxidant deferoxamine during resuscitation not only prevents the lipid peroxidation, most likely by a nonblood-flow-related process, but also results in an increase in blood flow above normal rates, suggesting that postburn liver oxygen needs exceed normal values.     

Does early infusion of red blood cells after trauma and hemorrhage improve organ functions?

OBJECTIVE: Early management of trauma victims includes control of bleeding and rapid restoration of intravascular volume. However, it remains controversial whether infusion of blood products is superior to crystalloids alone. Therefore, it was the aim of the present study to determine whether resuscitation with red blood cells plus lactated Ringer's solution (RL) is more effective than RL alone in improving the cardiovascular and hepatocellular functions after trauma and severe hemorrhage. DESIGN: Prospective study. SETTING: Laboratory. SUBJECTS: Sprague-Dawley rats. INTERVENTIONS AND MEASUREMENTS: Male adult rats were anesthetized and underwent a laparotomy to induce tissue trauma before hemorrhage. The animals were then bled to and maintained at a mean arterial pressure of 40 mm Hg until 40% of the maximal bleed-out (MB) volume was returned in the form of RL, and were then resuscitated with either four times the volume of MB with RL or washed red blood cells (RBC) (-45% the volume of MB) in three times the volume of RL over 60 mins. Various in vivo heart performance variables, cardiac output, and hepatocellular function (ie, the maximum velocity and the overall efficiency of indocyanine green clearance) were determined at 4 hrs after resuscitation. Hemoglobin, systemic oxygen delivery, circulating blood volume, and plasma levels of interleukin-6 were also measured. MAIN RESULTS: At 4 hrs after RL resuscitation, heart performance, cardiac output and hepatocellular function were significantly depressed and plasma levels of interleukin-6 were significantly increased. Although infusion of RBC significantly increased mean arterial pressure, hemoglobin, and oxygen delivery compared with animals resuscitated with RL only, infusion of RBC did not further improve the depressed cardiovascular and hepatocellular functions under such conditions. CONCLUSION: Because infusion of RBC and RL resuscitation do not improve organ functions compared with RL resuscitation without RBC, it appears that pharmacologic agents in addition to fluid resuscitation are needed to restore cardiovascular and hepatocellular functions after trauma and hemorrhage.     

液体复苏对初进高海拔地区重度失血性休克犬氧合功能的影响

目的 探讨液体复苏对初进高海拔地区重度失血性休克犬氧合功能的影响.方法 13只成年杂种犬由海拔1 510 m地区用1 d时间被运至3 780 m的高海拔地区,随机分为3组.每只犬麻醉后经颈静脉放置漂浮导管进行氧合功能监测,经股动脉放血使平均动脉压(MAP)维持在(35±5)mm Hg(1 mm Hg=0.133 kPa).建立重度失血性休克模型.对照组:制模后不进行液体复苏;乳酸林格液(LR)组:制模1 h输1.5倍失血茸的LR;羟乙基淀粉(HES)组:制模后1 h输入等失血量的6%HES 贺斯);然后B组模型犬均输以5 ml·kg-1·h1LR作为维持量,在不同时间点观察氧合功能的变化.结果 对照组犬在制模后2 h全部死亡.休克1 h,两个液体复苏组氧消耗(VO2)、氧输送(DO2)、氧摄取率(O2ER)、动脉血氧饱和度(SaO2)均较放血前明显降低,而静脉血氧饱和度(SvO2)、肺泡一动脉血氧分压差(A-aDO2)较休克前明显升高(p均<0.05).复苏2 h,LR组VO2、DO2、O2ER、SaO2均较休克1 h显著升高,而A-aDO2则显著降低(P均<0.05);HES组VO:、DO2、O2ER均较休克1 h显著升高.而SvO2显著降低(P均<0.05).结论 对初进高海拔地区的重度失血性休克犬如果不进行有效的液体复苏,死亡率达100%;输入1.5倍失血量的LR后2 h氧合功能达到了预期的复苏指标;而输入等失血量的6%HES后2 h氧合功能没有达到预期的复苏指标.     

Bovine hemoglobin-based oxygen carrier (HBOC-201) for resuscitation of uncontrolled, exsanguinating liver injury in swine. Carolina Resuscitation Research Group

In the setting of rapidly exsanguinating hemorrhage, resuscitation with intravenous (i.v.) crystalloid solution may not sustain survival before availability of allogenic blood transfusion and surgery. This study tested the hypothesis that bovine hemoglobin-based oxygen carrier, HBOC-201, would improve resuscitation and extend early survival from exsanguinating hemorrhage. This study simulated the prehospital scenario of rapidly exsanguinating hemorrhage with prolonged prehospital time and lack of blood availability. Severe hemorrhagic shock was induced in swine by using multiple liver lacerations. At 9 min after the onset of bleeding, swine were randomized to receive approximately 10 mL/kg/min of i.v. lactated Ringer's solution (n = 10) or HBOC-201 (n = 7) to achieve a mean aortic pressure (MAP) of 60 mmHg. Thereafter, infusion rate was adjusted to maintain MAP at 60 mmHg for up to 2 h. All animals were initially successfully resuscitated. The results showed 2-h survival was 1 of 10 with lactated Ringer's and 7 of 7 with HBOC-201 (P = 0.0004). Nine lactated Ringer's swine had cardiovascular collapse at 36 +/- 10 min. Lactate at 30 min was 18 +/- 3 mmol/L with lactated Ringer's and 12 +/- 2 mmol/L with HBOC-201 (P < 0.05). Hematocrit was <1% in 9 of 10 lactated Ringer's and 6 of 7 HBOC-201 animals. These data indicate that HBOC-201 improved early survival and stabilized hemodynamic and metabolic parameters vs. lactated Ringer's in this swine model of liver injury with uncontrolled, lethal hemorrhage that simulates the prehospital care environment where allogenic blood is unavailable.     

L-arginine attenuates trauma-hemorrhage-induced liver injury

OBJECTIVES: Liver injury is common after trauma-hemorrhage for which the underlying mechanism is not clear. Although administration of the essential amino acid L-arginine has been reported to restore the depressed cardiovascular functions and cell-mediated immune responses after trauma-hemorrhage, it remains unknown whether L-arginine protects against liver injury under those conditions. DESIGN: A prospective, controlled animal study. SETTING: A university research laboratory. SUBJECTS: Male Sprague-Dawley rats. INTERVENTIONS: Rats underwent sham operation or laparotomy and were bled to and maintained at a mean arterial blood pressure of 40 mm Hg until 40% of the maximum shed blood volume was returned in the form of lactated Ringer's solution. Hemorrhaged rats were then resuscitated with lactated Ringer's solution, four times the maximum shed blood volume over 1 hr. During resuscitation, animals received either 300 mg/kg of L-arginine or saline (vehicle) intravenously. At 3 and 5 hrs after resuscitation, rats were killed, blood was obtained, and the liver was fixed for histology (hematoxylin & eosin staining). Plasma glutathione S-transferase (a marker of liver damage), L-arginine, citrulline, and ornithine concentrations were assessed. MEASUREMENTS AND MAIN RESULTS: The increased concentrations of plasma glutathione S-transferase observed in vehicle-treated hemorrhage animals were normalized with L-arginine treatment at 5 hrs after resuscitation. Moreover, the histology indicated that L-arginine prevented liver edema and neutrophil infiltration after trauma-hemorrhage. Plasma L-arginine and citrulline were increased in L-arginine-treated rats. CONCLUSIONS: Because citrulline is a by-product of nitric oxide generation by nitric oxide synthase from L-arginine, this amino acid may be a useful adjunct for preventing hepatic injury after trauma-hemorrhage via endothelial derived nitric oxide production.     

Resuscitation fluids for the treatment of hemorrhagic shock in dogs: effects on myocardial blood flow and oxygen transport.

BACKGROUND AND METHODS: The efficacy of using colloids vs. crystalloids in the treatment of hemorrhagic shock remains controversial. An important aspect in the treatment of hemorrhagic shock is the reestablishment of normal myocardial blood flow after fluid resuscitation. This study, therefore, was designed to investigate the effect of resuscitation with different plasma substitutes on myocardial blood flow and oxygen transport after acute hemorrhage in dogs. Forty-three dogs were anesthetized and bled into a heparinized Wiggers' reservoir to a mean arterial pressure of 35 mm Hg. The animals were maintained at this level of hypotension for 90 mins, whereupon the animals were infused with one of five randomly selected fluids: a) succinylated gelatin (Gelofusine); b) urea-linked gelatin (Haemaccel); c) 6% hetastarch (Hespan); d) lactated Ringer's solution; or e) shed blood. Myocardial blood flow was measured using the radiolabeled microsphere technique. RESULTS: Resuscitation with succinylated gelatin, urea-linked gelatin, and hetastarch resulted in significant hemodilution. However, infusion of these fluids resulted in a compensatory hyperemia that increased myocardial blood flow and maintained oxygen transport at preshock values. No hyperemia was observed with reinfusion of shed blood. Resuscitation with lactated Ringer's solution produced significant hemodilution without hyperemia and, consequently, a significant decrease in oxygen transport. CONCLUSIONS: These results suggest that in lieu of blood, the artificial colloids are more effective than crystalloids in restoring myocardial blood flow and oxygen transport after acute experimental hemorrhage in dogs.     

Effects on cerebral hemodynamics of resuscitation from endotoxic shock with hypertonic saline versus lactated Ringer's solution

This study was carried out to determine whether 7.5% hypertonic saline (HSS) and lactated Ringer's solution restore cerebral hemodynamics comparably when used for resuscitation from endotoxic shock. Endotoxic shock was produced in 13 dogs by the iv administration of 1.5 mg/kg Escherichia coli endotoxin. After 90 min of shock, seven animals were resuscitated with lactated Ringer's solution, 60 ml/kg iv, and six with 7.5% HSS, 6 ml/kg iv. Both solutions increased cardiac output and mean arterial pressure. With HSS, intracranial pressure was lower immediately after resuscitation (p less than .001) and one hour later (p less than .01). However, cerebral blood flow was not increased by either fluid and, due to hemodilution, cerebral oxygen transport decreased during resuscitation in both groups of animals. Thus, HSS restored systemic hemodynamics and maintained a lower intracranial pressure during resuscitation from endotoxic shock, but failed, as did lactated Ringer's solution, to restore cerebral blood flow and oxygen transport.     

Effect of experimental hemorrhagic shock on hepatic drug elimination.

OBJECTIVE: Exogenous substrates were used to measure hepatic function for the purposes of determining organ dysfunction and to evaluate the effect of experimental hemorrhagic shock with resuscitation on hepatic drug elimination. DESIGN: Prospective, controlled, non-randomized crossover trial. INTERVENTIONS: Eleven chronically instrumented immature swine were studied using a fixed-volume hemorrhage model (45 mL/kg blood removal over 15 mins) followed by resuscitation with lactated Ringer's solution at three times the volume of shed blood. One week before and immediately after hemorrhage and resuscitation, hepatic function markers (indocyanine green and antipyrine) were simultaneously administered intravenously. MEASUREMENTS: Physiologic data and blood samples were collected over 12 hrs after drug administration. Drug clearances, volumes of distribution, and half-lives were determined. MAIN RESULTS: For indocyanine green, there was no substantial change in pharmacokinetics from preshock to postshock, suggesting minimal change in hepatic blood flow. For antipyrine, clearance was decreased by 30% after shock and resuscitation (p = .05), suggesting that oxidative metabolism was acutely impaired. CONCLUSIONS: The information indicates that hepatic oxidative drug metabolism may be impaired early after hemorrhagic shock and that dosages of drugs in this class should be carefully examined when administered to patients who have sustained injury with hemorrhagic shock.     

Cerebral hemodynamics after hemorrhagic shock: effects of the type of resuscitation fluid

Cerebral blood flow (CBF), cerebral oxygen delivery, and intracranial pressure were measured in 12 dogs subjected to hemorrhagic shock and then resuscitated with lactated Ringer's solution or 6% hetastarch. Hemorrhagic shock was produced by the rapid removal of blood to achieve a mean arterial pressure (MAP) of 40 mm Hg with BP maintained at that level for 30 min. Six animals were resuscitated with lactated Ringer's solution, 60 ml/kg iv, and six with 6% hetastarch, 20 ml/kg iv. Both solutions effectively restored systemic hemodynamic stability, increasing cardiac output and MAP. Intracranial pressure was significantly (p less than .05) lower after resuscitation in the hetastarch group, but CBF, which had decreased during shock, was not normalized by either fluid, and cerebral oxygen transport fell further with resuscitation secondary to a hemodilutional reduction of hemoglobin. Although 6% hetastarch may improve systemic hemodynamics and maintain a low intracranial pressure during resuscitation, it fails, as does lactated Ringer's solution, to restore cerebral oxygen transport to prehemorrhagic shock levels.     

Splanchnic perfusion during delayed, hypotensive, or aggressive fluid resuscitation from uncontrolled hemorrhage

The purpose of this study was to determine the effect of three different fluid resuscitation strategies on splanchnic perfusion in a clinically relevant model of uncontrolled hemorrhage after liver trauma. Anesthetized swine were instrumented with a gastric near-infrared spectroscopy probe (GStO2), a jejunal tonometer (PrCO2), a portal vein catheter (SpvO2, lactate), and an ultrasonic blood flow probe on the superior mesenteric artery. The liver was lacerated to produce uncontrolled hemorrhage and a shock state characterized by a 40-60% decrease in cardiac output and a decrease in mean arterial pressure (MAP) to 42 +/- 1 mmHg. Animals were randomly assigned to either delayed resuscitation (n = 6); hypotensive resuscitation with lactated Ringer's infusion to MAP = 60 mmHg (n = 6); or aggressive resuscitation with LR to MAP >/= 75 mmHg (n = 6). For the remainder of the protocol, the treatment was identical. The data showed that blood loss (47 +/- 7 and 45 +/- 10 mL/kg) and total fluid requirements (118 +/- 73 and 171 +/- 85 mL/kg) were similar with either hypotensive or aggressive resuscitation. In contrast, with delayed resuscitation, both values were lower (27 +/- 2 mL/kg and 87 +/- 33 mL/kg, both P < 0.05). Despite aggressive resuscitation, SpvO2 and GstO2 were about 10% lower (both P < 0.05 within group) and PrCO2 was about 20 mmHg higher (P < 0.05 within group) than the corresponding values in the other two groups. Thus, delayed resuscitation minimized the blood loss but did not restore tissue oxygenation, whereas aggressive resuscitation was associated with maximal blood loss and splanchnic hypoperfusion. For this reason, it is reasonable to conclude that hypotensive resuscitation might be an effective strategy to maintain splanchnic perfusion after blunt abdominal trauma and uncontrolled hemorrhage.     

Monkey model of severe volume-controlled hemorrhagic shock with resuscitation to outcome.

Seventeen cynomolgus monkeys under N2O analgesia and sedation were subjected to severe volume-controlled hemorrhagic shock (shed blood volume of 21 or 27 ml/kg). In 12 monkeys, resuscitation was started after increasing periods of hemorrhagic shock from 30 min to 5 h. In five additional monkeys, volume-controlled hemorrhage was modified at hemorrhagic shock 30 min to control MAP at 30 mmHg: resuscitation was started at hemorrhagic shock of 2 h. A clinically relevant resuscitation protocol consisted of a field phase from 0 to 6 h (lactated Ringer's solution, spontaneous breathing), and a hospital intensive care phase from 6 h to 48 h (blood, lactated Ringer's solution to mean arterial pressure (MAP) greater than or equal to 70 mmHg, controlled ventilation, advanced life support). Fifteen of the 17 monkeys survived. After outcome evaluation at 4 or 7 days, the eight monkeys with "moderate insult" had only transient functional impairment. Of the nine with "severe insult," three showed signs of moderate transient non-oliguric renal failure. Eight of the 12 monkeys studied morphologically showed scattered liver cell damage. None of the monkeys developed pulmonary dysfunction or functional or morphologic evidence of cerebral damage. This study establishes a new hemorrhagic shock-resuscitation model simulating field-to-hospital life support. Severe hemorrhagic shock with MAP 30-40 mmHg for 90-120 min (without trauma or sepsis) can lead to complete functional recovery after transient malfunction of liver and kidneys.     

Effect of dobutamine on oxygen consumption and fluid and protein losses after endotoxemia

OBJECTIVE: To determine the effect of a dobutamine infusion on the relationship between oxygen consumption (VO2) and oxygen delivery (DO2) after endotoxin administration, as well as the rate of fluid and protein loss from permeability-injured tissue. METHODS: Unanesthetized adult sheep with lung and soft-tissue lymph fistulas were given 5 micrograms/kg Escherichia coli endotoxin alone, or E. coli endotoxin plus a continuous infusion of dobutamine (10 to 15 micrograms/kg.min) beginning at 3 hrs. Lymph flow reflected the vascular permeability and surface area perfused. Data were compared with dobutamine alone and with controls. Filling pressures were maintained at baseline. RESULTS: Dobutamine alone produced a 75% increase in DO2, a transient 10 +/- 4% increase in VO2, but no increase in lung or soft-tissue lymph flow. Beginning at 3 hrs after endotoxin alone, a significant increase in protein-rich lung and soft-tissue lymph flow was noted, but only a transient 14 +/- 5% increase in VO2. Plasma proteins were slightly decreased. With the addition of dobutamine at 3 hrs postendotoxin, DO2 increased by greater than 50% for the 3-hr infusion period, while VO2 increased for a 30-min period by 25 +/- 8%, which was not different than endotoxin alone. Lung and soft-tissue lymph flow did not increase further, but plasma proteins did decrease significantly compared with controls and with endotoxin alone. CONCLUSION: Increasing DO2 with dobutamine postendotoxin does not increase the surface area perfused or the edema process, at least in lung and soft tissue. Therefore, no microvessels in these tissues are reopened with dobutamine when normal filling pressures are present. Dobutamine administration does not increase VO2 more than the increase seen with endotoxin alone.     

Effect of increasing oxygen delivery postburn on oxygen consumption and oxidant-induced lipid peroxidation in the adult sheep

We studied the relationship between oxygen delivery (DO2) and oxygen consumption (VO2) in the early post-burn period. Unanesthetized sheep with a 15% total body surface (TBS) third-degree burn were resuscitated back to baseline VO2 and vascular pressures. DO2 was adjusted further by infusion and removal of whole blood. The response was compared to the same maneuver in nonburned sheep. We found that increasing DO2 after burns resulted in a 32% increase in VO2, while the same maneuver in controls produced no change in VO2. We then determined whether the increase in VO2, caused by volume loading, resulted in a further increase in postburn oxidant release and lipid peroxidation measured as conjugated dienes. Plasma conjugated dienes increased significantly and equally by 30% in burns maintained at baseline VO2 vs. the increased VO2. Therefore, the increased oxygen used is not simply resulting in further oxidant damage. VO2 was maintained equally in both burned animals and controls with a decrease in DO2 by increased oxygen extraction from Hgb. We conclude that standard burn resuscitation does not restore adequate DO2 for oxygen demands. The 30% increase in VO2 achieved by increasing DO2 does not lead to a further release of oxidants from burn tissue and is therefore potentially beneficial for cell function.     

延迟复苏对失血性休克犬循环氧动力学指标的影响

【目的】研究延迟补液对致死性失血性休克循环氧动力学指标的影响。【方法】Beagle犬14只,先期无菌手术行颈动、静脉置管,24h后从颈动脉放血造成失血性休克,总失血量为全身血容量的40％。随机分为延迟补液组（DR,n=8）和立即补液组（IR,n =6）。失血后第1个24小时DR组无治疗,IR组静脉输入3倍失血量的葡萄糖电解质溶液。失血后24h起两组犬均实施静脉补液。测定犬失血前和失血后2、4、8、24、48和72h非麻醉状态下的平均动脉压（MAP）,抽取动脉和混合静脉血测定动脉、混合静脉氧分压（PaO2、PcvO2）及血氧含量、计算氧供量（DO2）和氧耗量（VO2）,并统计失血后72h病死率。【结果】DR组MAP伤后4h降至最低,仅为失血前的38．4％。IR组MAP伤后4h起各时间点均显著高于DR组（P〈0．05）,并于失血后6h恢复至失血前水平。DR组72h死亡率为62．5％（5／8）,而IR组无一死亡。两组失血后PaO2、pH、DO2和VO2较失血前均显著降低,动脉二氧化碳分压（PaCO2）显著升高（均P〈0．05）。立即补液组上述指标迅速恢复,失血后4h起PaO2、PH、DO2和VO2显著高于延迟补液组,PaCO2低于延迟补液组（均P〈0．05）。失血后7Zh立即补液组除DO2和VO2外,PaO2、PaCO2和pH均恢复至失血前水平;而延迟补液组上述指标仍显著低于或高于0h水平（均P〈0．05）。【结论】失血性休克后延迟补液显著加重循环氧动力学障碍,增加休克动物的病死率。     

Systemic and regional oxygen uptake and delivery and lactate flux in endotoxic dogs infused with dopexamine

OBJECTIVE: To test whether dopexamine, a dopaminergic and beta 2-adrenergic receptor agonist, would: a) direct a greater share of cardiac output to gut than to muscle when used to increase systemic oxygen delivery (DO2) in endotoxic dogs; and b) enhance the ability of peripheral tissues to extract oxygen. DESIGN: Two groups of eight dogs infused for 1 hr with 2 mg/kg Escherichia coli endotoxin. One group was continually infused with dopexamine (12 micrograms/min.kg) and the other group was not (control group). After 2 hrs, oxygen extracting ability was challenged by changing inspired gas to 12% oxygen for 30 mins. SUBJECTS: Anesthetized, paralyzed, pump-ventilated mongrel dogs. INTERVENTIONS: Donor RBCs and dextran used during endotoxin infusion to maintain cardiac output while preserving hematocrit near 40%. MEASUREMENTS AND MAIN RESULTS: In the dopexamine-treated group, cardiac output, systemic DO2, and oxygen consumption (VO2) were higher than in the control group during the first 90 mins, but were not thereafter. Gut and muscle blood flow did not differ between groups, but the fraction of cardiac output going to each region tended to be less in the dopexamine-treated dogs. Arterial lactate values increased to about 6 mmol/L in all dogs. In both groups, limb muscle first produced lactate but then took up lactate after the first hour. The gut in controls converted from lactate uptake in the first hour to producing about 20 mumol/min.100 g, whereas the gut never produced lactate in the dopexamine-treated group. During hypoxia, systemic DO2 and VO2 decreased only in the dopexamine-treated group, even though oxygen extraction was only slightly above 40%. Oxygen extraction was not demonstrably improved by dopexamine treatment. CONCLUSIONS: Dopexamine temporarily increased systemic DO2 and VO2 in volume-expanded endotoxic dogs during normoxia and may have caused gut mucosa to be preferentially perfused and thus to be kept better oxygenated.     

Correlating the severity of paraquat poisoning with specific hemodynamic and oxygen metabolism variables

OBJECTIVE: To investigate the hemodynamics and oxygen metabolism of patients with varying degrees of severity of paraquat poisoning. DESIGN: Prospective, observational, clinical study. SETTING: Intensive care unit in a university hospital. PATIENTS: Forty-three consecutive patients with paraquat and/or diquat poisoning were classified into three groups by the severity index of paraquat poisoning (SIPP; hr/mg/L). INTERVENTIONS: Standard treatments included specific respiratory management, fluid resuscitation, and aggressive circulatory support. MEASUREMENTS AND MAIN RESULTS: Serum paraquat and diquat levels were measured at arrival, and SIPP was calculated. The cardiac index (CI), left ventricular stroke work index (LVSWI), systemic vascular resistance index (SVRI), oxygen delivery index (DO2I), oxygen consumption index (VO2I), and oxygen extraction ratio (O2ER) were measured at 6, 12, 24, 36, 48, 72, and 96 hrs postadmission. A significant inverse correlation between SIPP and survival time was found in 31 fatal cases (r = .85; p < .001). In the SIPP 10-50 group, CI, DO2I, VO2I, and O2ER were maintained at higher levels than in the SIPP group of <10 (p < .05), whereas SVRI decreased significantly (p < .05). In the SIPP group of >50, CI, LVSWI, SVRI, DO2I, and VO2I decreased, whereas O2ER had a tendency to increase progressively. There was a significant correlation between SVRI and SIPP, O2ER and SIPP, and O2ER and SVRI 24 hrs after admission, respectively (p < .001). CONCLUSIONS: Paraquat poisoning is characterized by high oxygen consumption with high oxygen extraction, with the degree of derangement based on the severity index. The development of a marked imbalance between increased oxygen demand and decreased oxygen supply because of myocardial depression might be a possible cause of death in circulatory failure.     

The relationship between oxygen delivery and oxygen consumption during fluid resuscitation of burn-related shock

Although burn-related shock resuscitation based on invasive hemodynamic monitoring has been reported at an increased rate, little is known about appropriate hemodynamic end points. Shock resuscitation based on oxygen transport criteria has been widely used for patients with trauma and patients who undergo surgery, and supranormal values of oxygen delivery (DO2) have been reported in association with an improved survival rate. This improved survival rate has been attributed to a shifting of the critical threshold of DO2 to higher values in these patients. In patients with thermal injuries, the effects of the manipulation of hemodynamics to optimize oxygen transport have not been proven. It is still unclear whether these patients exhibit delivery-dependent oxygen consumption (VO2) during the shock phase. The goal of this study was to evaluate the existence of oxygen supply dependency and to determine critical levels of DO2 in patients with burns. In a prospective study that included 16 patients with serious thermal injuries, we studied the effects of volume loading on DO2 and VO2. A transpulmonary double dilution technique was used for hemodynamic monitoring, and resuscitation end points included a normalization of preload and cardiac output parameters within 24 hours of the thermal injury. Fluid loading with crystalloids and colloids, according to our resuscitation protocol, was used to augment cardiac output and DO2. Of the 16 patients with a mean of 46% total body surface area burned (range, 22%-80%), 8 patients survived and 8 patients died. With the use of progressive fluid loading, cardiac index was restored within 24 hours of admission in all of the patients. Successful resuscitation was associated with increased levels of DO2 and VO2 and with declining serum lactate levels. VO2 appeared to be dependent on DO2 during the resuscitation period (r = 0.596), and the correlation was significantly stronger in the patients who survived (r = 0.744) than in the patients who died (r = 0.368; P < .05). A critical threshold of oxygen supply could not be identified. We concluded that increasing DO2 by fluid resuscitation increases VO2 during hypovolemic shock after a severe burn injury.     

Lung fluid dynamics and supply dependency of oxygen uptake during experimental endotoxic shock and volume resuscitation

BACKGROUND AND METHODS: We studied the effect of volume resuscitation on lung fluid balance and systemic oxygen extraction during septic shock in eight anesthetized dogs. Sepsis was induced using a 2-hr continuous infusion of Escherichia coli endotoxin at 0.25 micrograms/min.kg. Relationships between oxygen uptake (VO2) and oxygen supply (DO2) were performed acutely during stepwise controlled decrements in cardiac output by progressive inflation of an intracardiac balloon. At each stage, DO2 and corresponding VO2 were measured independently and the individual critical DO2 level was referred to as the point below which the relationship held. The slope of such a constructed relationship was defined as the maximal oxygen extraction ratio. Lung fluid balance was assessed by measurements of extravascular lung water. All values were studied at baseline, after endotoxin insult, and after reversing hypotension by a 10% dextran infusion. RESULTS: Endotoxin infusion led to a shock state that associated hypotension (from 135 to 63 mm Hg) with increases in blood lactate (from 0.53 to 3.9 mmol/L). The mean critical DO2 and maximal oxygen extraction ratio were significantly altered from 7.9 to 17.8 mL/min.kg and from 0.81 to 0.38, respectively. After reversing hypotension by 28 mL/kg colloid infusion, the critical DO2 (11.4 mL/min.kg) and maximal oxygen extraction ratio (0.48) were significantly improved. However, restoration of normal values required a state of fluid overload by further dextran infusion (8 mL/kg). At the end of the fluid challenge, extravascular lung water significantly increased from 6.4 to 17.4 mL/kg. CONCLUSIONS: These data suggest that volume loading may reverse endotoxin-induced peripheral perfusion abnormalities. However, substantial pulmonary edema may occur, possibly jeopardizing the beneficial effects of fluid expansion.     

Systemic and muscle oxygen uptake/delivery after dopexamine infusion in endotoxic dogs.

BACKGROUND AND METHODS: This study was designed to test whether dopexamine, a dopaminergic and beta 2-adrenergic agonist, would a) increase systemic oxygen delivery (DO2) in endotoxic dogs, and b) interfere with the ability of resting skeletal muscle to extract oxygen. There were three treatment groups (n = 6 in each group): control, endotoxin alone (E) 4 mg/kg iv, and endotoxin + dopexamine (E + D) 12 micrograms/kg.min. Data were analyzed between and within groups by split-plot analysis of variance with significance of identified differences tested post hoc by Duncan's multiple range test. Donor RBC and dextran were used after endotoxin to maintain adequate perfusion pressures, with Hct kept near 40%. Blood flow to left hindlimb muscles was decreased in controlled steps of 15 min each after stabilization. RESULTS: In E group, cardiac output (Qt), mean arterial pressure (MAP), systemic DO2, and oxygen uptake (VO2) decreased despite blood volume expansion. In E + D group with similar volume expansion, dopexamine maintained Qt, systemic DO2, and VO2 near the control levels, although MAP and systemic vascular resistance were reduced. In comparison with control subjects, endotoxin increased critical DO2 in the isolated limb muscles from 4.6 to 7. mL/kg.min and decreased critical oxygen extraction from 81% to 68%. The pressure/flow relationship in the limb became flattened, indicating loss of vascular reactivity. In the E + D group, there was no further change in the pressure/flow curve nor in the critical oxygen extraction level. CONCLUSIONS: Dopexamine provided hemodynamic support for endotoxic dogs, thereby increasing total DO2 and VO2, while not altering oxygen extraction in the muscle.     

Effects of albumin and Ringer's lactate on production of lung cytokines and hydrogen peroxide after resuscitated hemorrhage and endotoxemia in rats

RATIONALE AND HYPOTHESIS: Acute lung injury is a frequent complication of severe sepsis or blood loss and is often associated with an excessive inflammatory response requiring mechanical ventilation. We tested the hypothesis that the types of fluids used during early resuscitation have an important effect on the evolution of lung injury. METHODS: Rats were subjected to either hemorrhage or endotoxemia for 1 hr, followed by resuscitation to a controlled mean blood pressure with Ringer's lactate, 5% albumin, or 25% albumin for 1 hr. After resuscitation, blood cytokine levels were measured. The lung was then excised and ventilated with a tidal volume of 30 mL/kg for 2 hrs. RESULTS: The volume of fluids required was significantly smaller in the albumin-treated groups than in the Ringer's lactate groups. In the hemorrhagic shock model, plasma concentrations of tumor necrosis factor-alpha, interleukin-6, and macrophage inflammatory protein-2 were significantly lower and interleukin-10 was significantly higher in the albumin-treated groups compared with the Ringer's lactate-treated group. The levels of tumor necrosis factor-alpha and macrophage inflammatory protein-2 in bronchoalveolar lavage fluid were lower and interleukin-10 was higher in the albumin-treated groups than in the Ringer's lactate group. The decreased cytokine production was associated with a reduction of hydrogen peroxide formation with albumin resuscitation. The lung wet/dry ratio was lower in the 5% albumin (0.54 +/- 0.01) and 25% albumin (0.55 +/- 0.02) groups than in the Ringer's lactate group (0.62 +/- 0.02; both p <.05). These effects of albumin seen in the hemorrhagic shock model were not observed in the endotoxic shock model. CONCLUSIONS: We conclude that resuscitation with albumin may have utility in reducing ventilator-induced lung injury after hemorrhagic shock, but not after endotoxic shock. These findings suggest that the mechanisms leading to ventilator-induced lung injury after hemorrhage differ from those after endotoxemia.