Oxygen consumption is increased in the postanesthesia period after burn excision

We studied the intraoperative and postoperative effects of anesthesia and wound excision on oxygen delivery and oxygen consumption after burn injury. Twenty adult sheep were studied: six had halothane anesthesia alone and 14 had anesthesia and third-degree burns over 15% of the total body surface. Body temperatures were maintained within 1 degree C of baseline value during the operations. The burns on six sheep were totally excised and hide from donor sheep was grafted 3 hours after injury; in eight sheep, excision and grafting were done 5 days after injury. We found that 3 hours of anesthesia in controls decreased oxygen delivery (DO2) by 22% +/- 6% and oxygen consumption (VO2) by 30% +/- 7% from waking baseline values primarily because of a decrease in cardiac output as oxygen (O2) extraction from hemoglobin also decreased. However, no base deficit developed. DO2 and (VO2) transiently increased to 9% +/- 3% above baseline value on the sheeps' return to the waking state. Anesthesia and wound excision, which began 3 hours after the burns were formed, decreased DO2 and VO2 by 25% +/- 4% and 32% +/- 4%, respectively, despite baseline filling pressures. However, a base deficit of -3 +/- 1 mEq/L developed during the two-hour operations, which began with the administration of anesthesia alone. Oxygen consumption increased to 25% +/- 6% above the waking baseline value upon each subject's return to the waking state. In the sheep treated 5 days after burn injury, DO2 decreased by 35% +/- 6% and VO2 decreased by 42% +/- 6% below the value during the waking hypermetabolic state when the sheep were under anesthesia.(ABSTRACT TRUNCATED AT 250 WORDS)     

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.     

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.     

Effect of sequential early burn wound excision and closure on postburn oxygen consumption

OBJECTIVE: To determine the effect of early excision and closure of burns on postburn hypermetabolism, measured as oxygen consumption (VO2). METHODS: Twelve patients with deep burns of 30% to 50% of total body surface underwent sequential excisions and wound coverage, beginning 1 to 3 days after burn. The majority of the deep burn was removed by day 7, but with the addition of a donor site area of 20% to 25% of total body surface. RESULTS: No decrease in VO2 was noted in relation to the percent removal of burn tissue. In addition, a transient further increase in VO2 was noted early after excision, especially with surgical procedures performed after 5 days. This response could not be attributed to wound manipulation-induced bacteremias. CONCLUSION: We conclude that early surgical excision and closure of burns in excess of 30% to 50% of total body surface do not decrease postburn hypermetabolism in proportion to the area closed. It is possible that remaining open wounds in the form of donor sites and nonexcised burn are sufficient to perpetuate the hypermetabolic process, once established.     

Whole body oxygen consumption and critical oxygen delivery in response to prolonged and severe carbon monoxide poisoning

BACKGROUND: Carbon monoxide (CO) poisoning remains the leading cause of death by poisoning in the world. One of the major proposed mechanisms for CO toxicity is the binding of CO to cytochrome oxidase and interference with cellular oxygen utilization but evidence for this is inconclusive. AIM OF STUDY: This study examined the effects of prolonged CO exposure on the dynamics of whole body oxygen consumption (VO(2)) and oxygen delivery (DO(2)) in an attempt to observe if CO exposure results in a defect of oxygen utilization defect as determined by a reduction in VO(2) during the course of poisoning prior to reaching the point where VO(2) is directly dependent on DO(2). This critical level of DO(2) (DO(2)crit) produced by CO poisoning was compared to historical values produced by other insults, which decrease global body DO(2). METHODS: Five small dogs were ventilated for 2 h with 0.25% CO and room air followed by 0.5% CO until death. Cardiac index (Q), DO(2), VO(2), oxygen extraction ratio (OER), and systemic lactate were measured every 15 min until death. RESULTS: Carboxyhemoglobin (COHb) levels increased linearly over 2.5 h to values above 80% until death. VO(2) remained constant and not significantly different from baseline below a COHb of 80%. At COHb levels above 80%, VO(2) precipitously dropped. Similarly lactate levels were not significantly elevated from baseline until VO(2) dropped. DO(2) decreased by 78% (from 23+/-6 ml/kg/min to 5+/-4 ml/kg/min) over time despite an increase in Q by 58% until levels of COHb were above 80%. OER increased from 19+/-5% to 50+/-11% until death. The calculated DO(2)crit was 10.7+/-4 ml/min/kg, which is not significantly different from values ranging from 7 to 13 ml/min/kg reported in the literature due to other insults, which reduce DO(2). CONCLUSION: In this canine model of prolonged CO exposure, no gradual reduction in VO(2) or increase in systemic lactate prior to reaching DO(2)crit was noted. In addition, CO exposure does not appear to change the DO(2)crit. The combination of these findings does not support the theory that CO produces a whole body intracellular defect in oxygen utilization.     

重型乙型肝炎患者原位肝移植围手术期全身氧代谢的变化

目的 探讨重型乙型肝炎（乙肝）与其他肝病患者原位肝移植围术期全身氧代谢变化的特点。方法 12例重型乙肝患者为试验组。10例其他肝病患者为对照组。以咪唑安定、异丙酚、芬太尼、维库溴铵诱导全麻，术中吸入异氟醚维持麻醉。维库溴铵维持肌松，行改良背驼式原位肝移植术。左桡动脉穿刺测有创动脉压，右颈内静脉穿刺置入漂浮导管。分别于术前、无肝前10min、无肝期25min、新肝期30min和术毕监测动脉和混合静脉血氧分压（PaO2和Pv^-O2）、动脉和混合静脉血氧含量（CaO2和Pv^-O2）及动-静脉血氧含量差（CA-vO2）、氧供（DO2）、氧供指数（DO2I）、氧消耗（VO2）、氧耗指数（VO2I）、氧摄取指数（O2EI）和氧摄取率（O2ER）。结果 ①试验组：与术前相比，无肝前期Pv^-O2上升，Ca-vO2、O2EI、O2ER下降，DO2和VO2无明显变化；无肝期DO2、DO2I、VO2和VO2I均明显下降，DO2、VO2分别下降43％和21％，O2EI和O2ER均明显上升；新肝期PvO2上升，DO2和DO2I明显上升。VO2和VO2I回升至术前水平；术毕时DO2和DO2I依然高于术前水平。②对照组：无肝前期PvO2上升。DO2和VO2无明显变化，O2EI和O2ER下降；无肝期DO2、DO2I、VO2和VO2I均明显下降，DO2下降25％，VO2则下降12％；新肝期PvO2上升，Ca-vO2下降，DO2、DO2I明显上升，VO2和VO2I回升至术前水平；术毕时DO2和DO2I依然高于术前水平。结论肝移植围术期中，全身DO2变化大于VO2变化；重型乙肝患者的全身DO2和VO2变化较其他肝病患者剧烈。     

Effect of blood transfusion on oxygen consumption in pediatric septic shock

Treatment plans for pediatric septic shock advocate increasing oxygen consumption (VO2). Recent studies in septic shock indicate that improving oxygen delivery (DO2) by increasing blood flow will increase VO2. We prospectively examined the effect on VO2 of improving DO2 by increasing oxygen content (CO2) with blood transfusion in eight hemodynamically stable septic shock patients. Transfusion consisted of 8 to 10 ml/kg of packed RBC over 1 to 2 h. Hemodynamic and oxygen transport measurements were obtained before and after blood transfusion. Transfusion significantly (p less than .05) increased Hgb and Hct from 10.2 +/- 0.8 g/dl and 30 +/- 2% to 13.2 +/- 1.4 g/dl and 39 +/- 4%, respectively (mean +/- SD). DO2 significantly (p less than .05) increased after transfusion (599 +/- 65 to 818 +/- 189 ml/min.m2), but VO2 did not change (166 +/- 68 to 176 +/- 74 ml/min.m2; NS). In pediatric septic shock patients, increasing CO2 by blood transfusion may not increase VO2.     

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.     

Dopamine does not correct oxygen consumption/oxygen delivery relation abnormality during vasomotor shock induced by interleukin-1beta

We previously showed that interleukin 1beta (IL-1beta) induces vasomotor shock and impairs the oxygen consumption (VO2)/oxygen delivery (DO2) relation by increasing the slope of the supply-independent line in rabbits. In the present study, we investigated the inotropic effect of dopamine on the VO2/DO2 abnormality induced by IL-1beta. Twelve rabbits were divided into two groups (n = 6, each) and were given 10 microg/kg of IL-1beta or saline (control) intravenously. After baseline measurements were obtained, dopamine was infused continuously at a rate of 20 microg/kg/min throughout the study in both groups. All rabbits were subjected to stepwise cardiac tamponade to reduce the DO2 to <5 mL/min/kg by inflation of a handmade balloon placed into the pericardial sac. The VO2/DO2 relation was then analyzed by the dual-line method. Dopamine failed to correct the IL-1beta-induced decrease in mean arterial pressure to the baseline level. Dopamine significantly increased cardiac index in both groups, resulting in significant increases in DO2 (IL-1beta, 28.5 +/- 6.0 mL/min/kg from baseline 24.1 +/- 3.5 mL/min/kg; control, 27.7 +/- 2.9 mL/min/kg from baseline 22.9 +/- 2.9 mL/min/kg), but did not affect VO2 (IL-1beta, 10.0 +/- 0.5 mL/min/kg from baseline 9.9 +/- 0.7 mL/min/kg; control, 10.2 +/- 0.4 mL/min/kg from baseline 10.2 +/- 0.2 mL/min/kg). The IL-1beta group showed a significantly greater supply-independent line slope than that of controls (IL-1beta, y = 0.14x + 6.3; control, y = 0.06x + 8.6) during stepwise decreases in DO2. These results indicate that continuous infusion of dopamine at 20 microg/kg/min increases DO2 but does not correct the vasomotor disturbance or VO2/DO2 abnormality caused by IL-1beta.     

Oxygen transport in adult respiratory distress syndrome and other acute circulatory problems: relationship of oxygen delivery and oxygen consumption

OBJECTIVE: To evaluate the evidence that oxygen consumption (VO2) is pathologically dependent on oxygen delivery (DO2). DATA SOURCES: Studies published since 1972 with their relevant bibliographies and computerized search of MEDLINE. STUDY SELECTION: All clinical papers reporting the relationship of: VO2 to DO2 in the adult respiratory distress syndrome (ARDS), sepsis, other critically ill patients, and normal individuals; cardiac output determined by measured VO2 to calculated VO2 from the arterial-mixed venous oxygen difference; blood lactate to DO2; and selected basic science studies. DATA EXTRACTION: Study quality was assessed and all pertinent data were summarized. RESULTS OF DATA EXTRACTION: Normal individuals display physiologic dependence of VO2 at very low levels of DO2 (330 mL/min.m2). Pathologic dependence of VO2 on DO2 entails two concepts: a) VO2 varies directly with DO2 over a wide range of DO2 and b) of particular import, tissue oxygen extraction is compromised. This pathologic supply dependence was initially identified in patients with ARDS; subsequently, it has been demonstrated in patients with sepsis and in a variety of other critically ill individuals. There are substantial, but not uniform, data documenting this dependence of VO2 on DO2 in ARDS. In some studies, this relationship correlates best with increased lactate concentrations. However, increased blood lactate concentrations do not accurately track other evidence of tissue hypoxia. Some researchers have attributed the finding of this supply dependency to artifact, when VO2 is determined by the arterial-mixed venous oxygen difference. However, when these methods are compared, the correlation is excellent. Others have raised the concern that appreciable changes in VO2, even over short periods of time, may result in physiologic increases in DO2. However, when "control" groups have been contemporaneously compared with patients with ARDS using the same methodology, they have not shown supply dependency. Interwoven throughout the studies reviewed is overwhelming and uniform evidence that both mixed venous oxygen tension (PVO2) and mixed venous oxygen content (CVO2) correlate poorly with cardiac output, DO2, or VO2. The inconsistencies in identifying pathologic DO2 dependency may well reflect the unknown variables that exist in patients with ARDS, perhaps better labeled, multiple organ system failure. CONCLUSIONS: Pathologic dependence of VO2 on DO2, especially the inability to increase tissue oxygen extraction, is present in most patients with ARDS and many other critically ill individuals. PVO2 and CVO2 are both unreliable indicators of cardiac output, DO2, or VO2.     

Interleukin-1beta alters the oxygen delivery-oxygen consumption relationship in rabbits by increasing the slope of the supply-independent line

When systemic oxygen delivery (DO2) is reduced, oxygen consumption (VO2) is maintained until a critical level is reached (DO2crit). Sepsis is thought to shift DO2crit to the right and lengthen the supply-dependent portion. We tested the effect of interleukin (IL)-1beta, which is one of the key cytokines related to sepsis, on the DO2-VO2 relationship. Fifteen rabbits were subjected to stepwise cardiac tamponade to reduce DO2 to 10% by inflating a handmade balloon placed into the pericardial sac. Seven rabbits were given 10 microg/kg of IL-1beta intravenously (IL-1beta group) prior to the graded cardiac tamponade. The remainder received saline alone (control group). The DO2-VO2 relationship was analyzed by the dual-line method. IL-1beta significantly decreased mean arterial pressure (65 +/- 11 mmHg from baseline 85 +/- 7 mmHg) without altering cardiac output. The IL-1beta group showed significantly steeper supply-independent line slopes than did the control group (0.19 +/- 0.02 vs. 0.11 +/- 0.02, respectively), which resulted in a DO2crit shift to the left (IL-1beta group, 8.7 +/- 1.7 ml/kg x min vs. control, 11.7 +/- 0.7 ml/kg x min). The IL-1beta group also showed greater PO2 and plasma lactate levels in the portal vein than did the control group. These results indicate that IL-1beta impairs systemic oxygen uptake even before VO2 becomes supply-dependent, presumably due to maldistribution of the blood flow including the splanchnic circulation.     

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.     

The relationships among arterial oxygen flow rate, oxygen binding by hemoglobin, and oxygen utilization in chronic cardiac decompensation.

We have examined the interrelationships among CaO2, blood flow, oxygen binding by hemoglobin, and VO2 in cardiac patients with and without chronic cardiac decompensation. We have quantified the role that decreased oxygen-binding to hemoglobin may play in maintaining VO2 in the presence of low systemic blood flow rates. The volume rate of oxygen delivery to tissues was expressed as the OFIa, the product of CO2 and blood flow. OFIa varied from 738 to 262 ml/min/m2, whereas VO2 varied from 170 to 117 ml/min/m2. Thus, in the patients with lowest OFIa (63% below the highest OFIa), VO2 was only down 19%. VO2 was maintained because the extraction of oxygen rose from about 20% to 50% in close association with the decrease in OFIa. Oxygen binding to hemoglobin was lower in patients with the lowest OFIa--and therefore, at in vivo conditions of pH, PCO2, and temperature, P50 in vivo was higher. The resulting facilitation of oxygen release at the PO2 of tissue capillaries could explain about one third of the observed increment in oxygen extraction in patients with low OFIa. An alternative interpretation is that a high P50 in vivo minimizes the reduction in PVO2 needed to maintain VO2 when increased proportional extraction of O2 compensates for decreased OFIa.     

Blood transfusion and oxygen consumption in surgical sepsis

OBJECTIVE: To evaluate the use of serum lactic acid values to predict flow-dependent increases in oxygen consumption (VO2) in response to increasing oxygen delivery (DO2) after blood transfusion in surgical sepsis. DESIGN: Prospective study. SETTING: Tertiary care, trauma center. PATIENTS: Twenty-one patients, postsurgical or posttrauma, judged septic by defined criteria. INTERVENTIONS: Serum lactic acid concentrations, DO2, and VO2 were measured before and after transfusion therapy. MEASUREMENTS AND MAIN RESULTS: Overall, the DO2 increased from 532 +/- 146 to 634 +/- 225 (SD) mL/min.m2 (p less than .001), and the VO2 increased from 145 +/- 39 to 160 +/- 56 mL/min.m2 (p = .02). These changes occurred with an Hgb increase from 9.3 +/- 1.1 to 10.7 +/- 1.5 g/dL (p less than .001). The patients were grouped by their pretransfusion serum lactic acid values. In those patients with normal (less than 1.6 mmol/dL) serum lactic acid (n = 10), DO2 increased from 560 +/- 113 to 676 +/- 178 mL/min.m2 (p less than .02), and VO2 increased from 150 +/- 25 to 183 +/- 46 mL/min.m2 (p less than .02). However, in the increased serum lactic acid group (n = 17), VO2 was not significantly changed after transfusion (143 +/- 46 to 146 +/- 58 mL/min.m2) despite increased DO2 (515 +/- 163 to 609 +/- 251 mL/min.m2, p less than .01). CONCLUSIONS: Blood transfusion can be used to augment DO2 and VO2 in septic surgical patients. Increased serum lactic acid values do not predict patients who will respond. The absence of lactic acidosis should not be used in this patient population to justify withholding blood transfusions to improve flow-dependent VO2. Patients who have increased lactate concentrations may have a peripheral oxygen utilization defect that prevents improvement in VO2 with increasing DO2.     

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.     

口服补液对犬50%TBSA烧伤休克期循环氧动力学指标的影响

目的 研究口服补液对50%TBSA烧伤休克期循环氧动力学指标的影响,为提高烧伤休克口服补液的复苏效果提供依据.方法 成年雄性Beagle犬18只,先期无菌手术行颈动、静脉置管,24 h后用凝固汽油燃烧法造成50%体表面积Ⅲ度烧伤.随机分为不补液组(n=6)、口服补液组(n=6)和静脉补液组(n=6).伤后第一个24 h不补液组无治疗,口服补液组和静脉补液组根据Parkland公式分别从胃内或静脉输注葡萄糖-电解质溶液;伤后24 h起三组均实施延迟静脉补液.测定动物非麻醉状态下的平均动脉压(MAP)、红细胞压积(HCT)和血乳酸(LAC)含量,抽取动脉和混合静脉血测定动、静脉氧分压和血氧含量.计算氧供量(DO2)、氧耗量(VO2)和氧摄取(Oext),并统计3 d死亡率.结果 不补液组伤后8 h MAP比伤前降低77.1%,HCT和血乳酸分别升高48.5%和533.7%;DO2,VO2和Oext水平伤后进行性降低,24 h内动物全部死亡.两补液组上述指标逐渐恢复,伤后72 hMAP和HCT恢复至伤前(P＞0.05),但血乳酸水平仍显著高于伤前(P＜0.01).伤后24 h内同期比较,口服补液组MAP,DO2,VO2和Oext水平显著高于不补液组(P＜0.01),但低于静脉补液组;血乳酸低于不补液组,但高于静脉补液组(P＜0.01).伤后24 h起Do2与静脉补液组差异无统计学意义(P＞0.05),但VO2和Oext仍显著低于静脉补液组(P＜0.01).72 h死亡率:不补液组100%、口服补液组50%(3/6),而静脉补液组为零.结论 50%TBSA烧伤休克期采用口服补液能显著改善动物循环氧动力学指标,减轻高乳酸血症,降低动物的病死率.     

Oxygen delivery-dependent oxygen consumption in acute respiratory failure

OBJECTIVE: To investigate whether oxygen consumption (VO2) is dependent on oxygen delivery (DO2) in adult respiratory distress syndrome (ARDS) and non-ARDS acute respiratory failure. DESIGN: Intervention study of a consecutive sample of patients admitted to the ICU with the diagnosis of acute respiratory failure. SETTING: Tertiary care center. PATIENTS: Thirteen consecutive patients with a diagnosis of ARDS and 11 with a diagnosis of respiratory failure not due to ARDS. Patients were monitored with an oximetric pulmonary artery catheter and mechanically ventilated. INTERVENTIONS: DO2 was decreased by the application of positive end-expiratory pressure (PEEP) (20 cm H2O), and subsequently increased by an iv infusion of dobutamine (10 micrograms/kg.min). RESULTS: After the application of PEEP, DO2 decreased significantly in both groups. However, VO2 decreased significantly (p less than .01) only in the ARDS group. When dobutamine was infused, DO2 increased significantly (p less than .01) in both groups, but VO2 increased only in ARDS patients. DO2 correlated significantly with VO2 both in ARDS (r2 = .81, p less than .01) and in non-ARDS (r2 = .38, p less than .05) patients. The correlation coefficient was significantly higher for ARDS than for non-ARDS patients. Comparing the slopes of the regression lines, a stronger dependency of VO2 on DO2 was found in ARDS than in non-ARDS respiratory failure (p less than .001). The oxygen extraction ratio correlated with DO2 in non-ARDS patients (r2 = .49, p less than .05), but not in ARDS patients. CONCLUSIONS: VO2 is dependent on DO2 over a wide range of DO2 values in acute respiratory failure. This dependency phenomenon is much stronger in ARDS than in respiratory failure due to other causes. Due to the abnormal dependency of VO2 on DO2, changes in the oxygenation status may not be reflected by changes in mixed venous oxygen saturation in ARDS.     

Comparison of systemic oxygen delivery and uptake with NIR spectroscopy of brain during normovolemic hemodilution in the rabbit.

Incremental hyperoxic normovolemic hemodilution was utilized to progressively decrease oxygen delivery (DO2) in anesthetized rabbits. At decreasing DO2, we compared systemic responses related to the adequacy of DO2, i.e. mixed venous oxygen saturation (SvO2), oxygen consumption (VO2), and arterial lactate concentrations, to near infrared spectroscopy (NIRS) of the brain, a regional measure of intracellular oxygen availability. We sought concomitantly to define critical SvO2 and DO2, beyond which whole body VO2 begins to decline and arterial lactate concentrations increase. NIR Spectroscopy provided the means to test the hypothesis that systemic indicators of inadequate DO2 would not accurately reflect the oxygenation of a critical organ such as the brain. In thirteen rabbits anesthetized with fentanyl, paralyzed and artificially ventilated at an FIO2 of 0.60, hemodilution produced an early decrease in mixed venous oxygen saturation. When mixed venous oxygen saturation decreased below approximately 50%, arterial lactate concentrations began to increase significantly. Further decreases in oxygen delivery precipitated a decline in systemic VO2. Finally, NIRS revealed an increase in the reduction level of brain cytochrome a,a3 after systemic parameters of oxygen delivery had been altered. Analysis of the data indicated that falling SvO2 predicted inadequate DO2 to tissue during early hemodilution under narcotic/relaxant anesthesia and that the brain showed evidence of intracellular hypoxia only after systemic parameters such as SvO2 were affected markedly.     

Cell metabolism in patients undergoing major valvular heart surgery: relationship with intra and postoperative hemodynamics, oxygen transport, and oxygen utilization patterns

The relationships between cell metabolism and both hemodynamics and oxygen transport/utilization (VO2/DO2) pattern were evaluated intra and postoperatively in eight patients undergoing major valvular heart surgery with the aid of moderately hypothermic cardiopulmonary bypass (CPB). Quadriceps femoris specimens were obtained by the needle biopsy technique for muscle ATP, ADP, AMP, phosphocreatine (PCr), creatine and lactate determination at anesthesia induction, after CPB, as well as in the ICU 18 h after surgery. Moreover, hemodynamic variables, oxygen transport and utilization indices, and plasma lactate were measured at the same intervals and throughout the CPB period. After CPB, muscle ATP and PCr contents were reduced (p less than .05) as compared to those of both pre-CPB patients and healthy control subjects; muscle and plasma lactate levels were increased (p less than .05). Mean VO2 and DO2 values measured during CPB significantly decreased (p less than .05), but VO2 reduction was proportionally greater than that of DO2 (-62% vs. -41%). No correlation was found between VO2 and DO2 at that time, but a significant relationship (p less than .05) was found at the end of CPB. A further decrease in muscle ATP and PCr levels was measured in the ICU, as muscle and plasma lactate levels were still elevated. At that time, VO2 and DO2 were not significantly different from pre-CPB values, but were significantly (p less than .05) correlated with each other.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of Ibuprofen on interleukin-1beta-induced abnormalities in hemodynamics and oxygen metabolism in rabbits

We showed previously that the administration of interleukin (IL)-1beta induces circulatory shock and impairs the oxygen consumption (VO2)/oxygen delivery (DO2) relation by increasing the slope of the supply-independent line in rabbits. We tested the effect of ibuprofen, a specific inhibitor of the development of shock in this model, on the VO2/DO2 abnormality. Eighteen rabbits were divided randomly into three groups (n = 6 each) and intravenously given 10 microg/kg of IL-1beta alone or 10 microg/kg of IL-1beta followed by 10 mg/kg of ibuprofen or saline (control). All rabbits were subjected to stepwise cardiac tamponade by inflation of a handmade balloon placed into the pericardial sac to reduce DO2. The VO2/DO2 relation was then analyzed by the dual line method. The IL-1beta group had a significantly lower mean arterial pressure than that of the other groups before cardiac tamponade, and this reduction in mean arterial pressure was suppressed completely by treatment with ibuprofen. The cardiac index did not differ between groups. The slope of the supply-independent line was increased significantly by administration of IL-1beta, and this increase was attenuated significantly by treatment with ibuprofen (IL-1beta only: y = 0.14x + 6.1, ibuprofen: y = 0.06x + 8.5, control: y = 0.01x + 9.0). We conclude that ibuprofen reversed the IL-1beta-induced shock by restoring the systemic vascular resistance to normal and thereby normalized the VO2/DO2 relation in the supply-independent range of DO2.