Hypotensive resuscitation using a polymerized bovine hemoglobin-based oxygen-carrying solution (HBOC-201) leads to reversal of anaerobic metabolism.

BACKGROUND: Traditional resuscitation regimens have been recently challenged. This study evaluates hypotensive resuscitation with a hemoglobin-based oxygen-carrying (HBOC) solution after severe hemorrhage in a porcine model. We hypothesized that HBOC-201 restores tissue perfusion at a lower mean arterial pressure than standard resuscitation fluids. METHODS: Yorkshire swine (55-65 kg, n = 30), were rapidly hemorrhaged to a mean arterial pressure (MAP) of 30 mm Hg, maintained hypotensive for 45 minutes, and randomized into groups. Group I was resuscitated with an HBOC solution to a MAP of 60 mm Hg. Groups II and III were resuscitated to a MAP of 80 mm Hg with lactated Ringer's solution (LR) alone or LR (40 mL/kg) followed by shed blood, respectively. Group IV was resuscitated with shed blood alone to a MAP of 60 mm Hg. Group V received an HBOC solution to a MAP of 50 mm Hg. Hemodynamic variables, Swan-Ganz parameters, blood gas samples, and lactate levels were followed for 5 hours. Data were analyzed by analysis of variance/Duncan multiple range test. RESULTS: There were no significant differences in mortality between any groups. Groups I, IV, and V had lower (p < 0.05) cardiac output, pulmonary artery wedge pressure, and MAP than either group II or group III. Svo2 was significantly lower in the HBOC groups. There were no significant differences in arterial pH or lactate between groups I, III, and IV. Lactate levels, base excess, and arterial pH were significantly worse in the LR-alone and HBOC-50 groups. CONCLUSION: Hypotensive resuscitation with HBOC-201 at a MAP of 60 mm Hg after a controlled hemorrhage in swine provides sufficient tissue perfusion and oxygen delivery to reverse anaerobic metabolism on the basis of global physiologic markers despite continued hypotension, hypovolemia, and low cardiac output.     

Resuscitation with a hemoglobin-based oxygen carrier after traumatic brain injury

BACKGROUND: Traumatic brain injury (TBI) remains an exclusionary criterion in nearly every clinical trial involving hemoglobin-based oxygen carriers (HBOCs) for traumatic hemorrhage. Furthermore, most HBOCs are vasoactive, and use of pressors in the setting of hemorrhagic shock is generally contraindicated. The purpose of this investigation was to test the hypothesis that low-volume resuscitation with a vasoactive HBOC (hemoglobin glutamer-200 [bovine], HBOC-301; Oxyglobin, BioPure, Inc., Cambridge, MA) would improve outcomes after severe TBI and hemorrhagic shock. METHODS: In Part 1, anesthetized swine received TBI and hemorrhage (30 +/- 2 mL/kg, n = 15). After 30 minutes, lactated Ringer's (LR) solution (n = 5), HBOC (n = 5), or 10 mL/kg of LR + HBOC (n = 5) was titrated to restore systolic blood pressure to > or = 100 mm Hg and heart rate (HR) to < or = 100 beats/min. After 60 minutes, fluid was given to maintain mean arterial pressure (MAP) at > or = 70 mm Hg and heterologous whole blood (red blood cells [RBCs], 10 mL/kg) was transfused for hemoglobin at < or = 5 g/dL. After 90 minutes, mannitol (MAN, 1 g/kg) was given for intracranial pressure > or = 20 mm Hg, LR solution was given to maintain cerebral perfusion pressure at > or = 70 mm Hg, and RBCs were given for hemoglobin of < or = 5 g/dL. In Part 2, after similar TBI and resuscitation with either LR + MAN + RBCs (n = 3) or HBOC alone (n = 3), animals underwent attempted weaning, extubation, and monitoring for 72 hours. RESULTS: In Part 1, relative to resuscitation with LR + MAN + RBCs, LR + HBOC attenuated intracranial pressure (12 +/- 1 mm Hg vs. 33 +/- 6 mm Hg), improved cerebral perfusion pressure in the initial 4 hours (89 +/- 6 mm Hg vs. 60 +/- 3 mm Hg), and improved brain tissue PO2 (34.2 +/- 3.6 mm Hg vs. 16.1 +/- 1.6 mm Hg; all p < 0.05). Cerebrovascular reactivity and intracranial compliance were improved with LR + HBOC (p < 0.05) and fluid requirements were reduced (30 +/- 12 vs. 280 +/- 40 mL/kg; p < 0.05). Lactate and base excess corrected faster with LR + HBOC despite a 40% reduction in cardiac index. With HBOC alone and LR + HBOC, MAP and HR rapidly corrected and remained normal during observation; however, with HBOC alone, lactate clearance was slower and systemic oxygen extraction was transiently increased. In Part 2, resuscitation with HBOC alone allowed all animals to wean and extubate, whereas none in the LR + MAN + RBCs group was able to wean and extubate. At 72 hours, no HBOC animal had detectable neurologic deficits and all had normal hemodynamics. CONCLUSION: The use of HBOC-301 supplemented by a crystalloid bolus was clearly superior to the standard of care (LR + MAN + RBCs) after TBI. This may represent a new indication for HBOCs. Use of HBOC eliminated the need for RBC transfusions and mannitol. The inherent vasopressor effect of HBOCs, especially when used alone, may misguide initial resuscitation, leading to transient poor global tissue perfusion despite restoration of MAP and HR. This suggests that MAP and HR are inadequate endpoints with HBOC resuscitation. HBOC use alone after TBI permitted early extubation and excellent 72-hour outcomes.     

Early hemodynamic and renal effects of hemorrhagic shock resuscitation with lactated Ringer's solution, hydroxyethyl starch, and hypertonic saline with or without 6% dextran-70

BACKGROUND: Considering the renal effects of fluid resuscitation in hemorrhaged patients, the choice of fluid has been a source of controversy. In a model of hemorrhagic shock, we studied the early hemodynamic and renal effects of fluid resuscitation with lactated Ringer's (LR), 6% hydroxyethyl starch (HES), and 7.5% hypertonic saline (HS) with or without 6% dextran-70 (HSD). MATERIALS AND METHODS: Forty-eight dogs were anesthetized and submitted to splenectomy. An estimated 40% blood volume was removed to maintain mean arterial pressure (MAP) at 40 mm Hg for 30 min. The dogs were divided into four groups: LR, in a 3:1 ratio to removed blood volume; HS, 6 mL kg(-1); HSD, 6 mL kg(-1); and HES in a 1:1 ratio to removed blood volume. Hemodynamics and renal function were studied during shock and 5, 60, and 120 min after fluid replacement. RESULTS: Shock treatment increased MAP similarly in all groups. At 5 min, cardiac filling pressures and cardiac performance indexes were higher for LR and HES but, after 120 min, there were no differences among groups. Renal blood flow and glomerular filtration rate (GFR) were higher in LR at 60 min but GFR returned to baseline values in all groups at 120 min. Diuresis was higher for LR at 5 min and for LR and HES at 60 min. There were no differences among groups in renal variables 120 min after treatment. CONCLUSIONS: Despite the immediate differences in hemodynamic responses, the low-volume resuscitation fluids, HS and HSD, are equally effective to LR and HES in restoring renal performance 120 min after hemorrhagic shock treatment.     

Early colloid replacement therapy in a near-fatal model of hemorrhagic shock

Several controlled, experimental, hypotensive models of hemorrhagic shock have evaluated the effects of timing, rate, and types of fluid replacement. In a near-fatal experimental model we evaluated the hemodynamic and metabolic effects of two types of solutions for fluid resuscitation. In this study, 30 young Large-White pigs were randomly assigned to three groups: Group I (control, n= 10), not bled; Group II (hydroxyethyl starch, HES, n = 10), submitted to controlled hemorrhage to a mean arterial blood pressure (MAP) of 30 mmHg and blood lactate >10 mM/L, at which time resuscitation was initiated with 7 mL/kg of HES 130/0.4 6% followed by 33 mL/kg of lactated Ringer's solution (LR) and retransfusion; Group III (LR, n = 10), submitted to controlled hemorrhage to a MAP of 30 mmHg and blood lactate >10 mM/L, at which time resuscitation was initiated with 40 mL/kg of LR followed by retransfusion. The resuscitation with HES 130/0.4 proved to be superior to LR, expressed by hemodynamic and perfusion variables. Despite improvement in tissue perfusion, MAP did not totally return to baseline values. In conclusion, early colloid infusion resulted in prompt recovery of tissue perfusion when compared with infusion with an equal volume of crystalloid.     

Lactated Ringer's is superior to normal saline in the resuscitation of uncontrolled hemorrhagic shock

BACKGROUND: Normal saline (NS) and lactated Ringer's solution (LR) continue to be used interchangeably for the resuscitation of hemorrhagic shock in some institutions. We hypothesized that, aside from hyperchloremic acidosis, NS resuscitation would be similar to that of LR in a swine model of uncontrolled hemorrhage. METHODS: Twenty swine weighing a mean of 37 kg underwent invasive line placement, midline celiotomy, and splenectomy. After a 15-minute stabilization period, we recorded a baseline mean arterial pressure (MAP) and created a grade V liver injury. The animals bled freely for 30 minutes after which we measured blood loss. We blindly randomized the swine to receive NS (10 animals) versus LR (10 animals) to achieve and maintain the baseline MAP for 90 minutes postinjury. Laboratory values were obtained at baseline and upon completion of the 2-hour study period. RESULTS: Initial blood loss was 25 mL/kg in the NS group and 22 mL/kg in the LR group (p = 0.54). Animals required 256.3 +/- 145.4 mL/kg of fluid in the NS group as compared with 125.7 +/- 67.3 mL/kg in the LR group (p = 0.04). The urine output was higher in the NS group (46.6 +/- 39.5 mL/kg versus 18.9 +/- 12.9 mL/kg, p = 0.04). Upon study completion, the NS group had a significant hyperchloremia (119 +/- 1.9 mEq/L versus 105 +/- 2.9 mEq/L, p < 0.01) with acidosis (7.28 +/- 0.12 versus 7.45 +/- 0.06, p < 0.01) in comparison to the LR group. In addition, resuscitation with NS resulted in significantly lower fibrinogen levels (99 +/- 21 mg/dL versus 123 +/- 20 mg/dL, p = 0.02). The serum lactate was 4.7 +/- 2.2 in the LR group and 1.7 +/- 1.7 in the NS swine (p < 0.01) at the end of the study. CONCLUSIONS: Resuscitation of uncontrolled hemorrhagic shock with NS requires significantly greater volume and is associated with greater urine output, hyperchloremic acidosis, and dilutional coagulopathy as compared with LR. Resuscitation with LR results in an elevation of the lactate level that is not associated with acidosis. Lactated Ringer's solution is superior to NS for the resuscitation of uncontrolled hemorrhagic shock in swine.     

Resuscitation with a novel hemoglobin-based oxygen carrier in a Swine model of uncontrolled perioperative hemorrhage

BACKGROUND: Systemic and pulmonary hypertension, possibly related to nitric oxide scavenging by free hemoglobin (Hb), is often seen during resuscitation with hemoglobin-based oxygen carriers (HBOCs). Recently, a second-generation HBOC, rHb2.0 for Injection (rHb), has been developed using recombinant human Hb that has reduced reactivity with nitric oxide. The current study evaluates the efficacy of this novel compound for resuscitation in a swine model of uncontrolled perioperative hemorrhage. METHODS: After instrumentation, animals underwent splenectomy and rapid hemorrhage to a systolic blood pressure of 35 mm Hg and isoelectric electroencephalography. 15 minutes of shock was followed by resuscitation over 30 minutes. In phase I, 18 animals were randomized into three resuscitation groups: (1) lactated Ringer's (LR) equal to three times the shed blood, the negative control group; (2) heterologous blood (BL) equal to Hb 2 g/kg, the positive control group; and (3) rHb equal to 2 g/kg, the treatment group. In phase II, six animals underwent the same experiment with a first-generation HBOC, diaspirin cross-linked Hb (DCLHb) equal to 2 g/kg, an additional control group. On day 0 after 2 hours of observation, spontaneously breathing animals were returned to their cages. Surviving animals were redosed on days 1, 2, and 3 (rHb/DCLHb 1 g/kg; LR/BL-LR 500 mL). Survivors were killed on day 5 and organs harvested for histologic examination. Group comparisons were performed using Student's t test, repeated-measures analysis of variance, and chi2 test. Significance was set at 95% confidence intervals. RESULTS: After resuscitation, systemic mean arterial pressure (MAP) (baseline = 107 +/- 15 mm Hg) was 128 +/- 34 and 108 +/- 15 mm Hg in rHb and BL animals, respectively, and remained stable. In LR and DCLHb animals, after normalization, MAP declined to 67 +/- 13 and 84 +/- 34 mm Hg, respectively. The rHb group maintained higher MAP than the LR and BL groups (p < 0.05 vs. both). With resuscitation, mean pulmonary arterial pressure (PAP) (baseline = 25 +/- 5 mm Hg) increased in rHb (40 +/- 4 mm Hg), BL (34 +/- 3 mm Hg), and DCLHb (40 +/- 3 mm Hg) groups, but stayed elevated only in the DCLHb group (36 +/- 3 mm Hg). PAP in the rHb group was similar to the BL group (p > 0.05), and both rHb and BL groups showed a higher PAP than the LR group (p < 0.05 vs. both). PAP was highest in the DCLHb group (p < 0.05 vs. rHb). Cardiac output of rHb and BL groups was similar (p > 0.05) throughout the observation period. Arterial lactate increased to 5.6 +/- 2.5 mmol/L with shock and then normalized to < 2.0 mmol/L in the rHb, BL, and LR groups within 30 minutes of resuscitation. It remained elevated to > 3.5 mmol/L and showed a delayed increase in the DCLHb group (p < 0.05). Causes and number of deaths were as follows: rHb, zero of six; BL-transfusion reaction, one of six; LR-irreversible shock, four of six; and DCLHb-ventricular failure, six of six. There was no significant increase in plasma methemoglobin (rHb) and no difference in liver or cardiac enzymes (rHb vs. BL). No histologic abnormalities were seen in the rHb group except for cytoplasmic vacuolation, a process thought to be related to metabolism of the test article. CONCLUSION: rHb2.0 for Injection, a second-generation recombinant human HBOC, performs as well as heterologous blood for resuscitation after perioperative blood loss, does not cause sustained pulmonary hypertension, maintains adequate cardiac output and oxygen delivery, and is superior to either LR or DCLHb.     

Noninvasive muscle oxygenation to guide fluid resuscitation after traumatic shock

BACKGROUND: Three different protocols tested the hypothesis that hind limb muscle tissue O(2) saturation (StO(2)), measured noninvasively with near-infrared spectroscopy (NIRS), is as reliable as invasive systemic oxygenation indices to guide fluid resuscitation. METHODS: In series 1, swine (n=30) were hemorrhaged, then received either no fluid, a fixed volume of colloid (15 mL/kg), or shed blood plus lactated Ringer's (LR) titrated to MAP >60 mm Hg. In series 2, swine (n=16) received a penetrating femur injury, a 47% to 55% hemorrhage to determine a median lethal dose (LD(50)) then shed blood plus LR titrated to MAP >60 mm Hg. In series 3, swine (n=5) received the femur injury plus LD(50) hemorrhage, and were resuscitated with LR titrated to StO(2) >50%. RESULTS: In series 1, StO(2) tracked mixed venous O(2) saturation (SvO(2)), but discriminated between 3 survivor groups better than SvO(2), arterial lactate, or arterial base excess. In series 2, StO(2) tracked SvO(2) but discriminated between 2 survivor groups better than SvO(2), arterial lactate, or arterial base excess. In series 3, animals survived to extubation when resuscitated to an StO(2) target. CONCLUSIONS: Noninvasive muscle StO(2) determined by NIRS was more reliable than invasive oxygenation variables as an index of shock. Because muscle StO(2) can be easily monitored in emergency situations, it may represent an improved method to gauge the severity of shock or the adequacy of fluid resuscitation after trauma.     

Low-volume resuscitation with a polymerized bovine hemoglobin-based oxygen-carrying solution (HBOC-201) provides adequate tissue oxygenation for survival in a porcine model of controlled hemorrhage

BACKGROUND: We have shown in a previous work that HBOC-201 is able to reverse anaerobic metabolism at low volumes in a porcine model of controlled hemorrhage. On the basis of these results, we hypothesize that low-volume resuscitation with HBOC-201 in a porcine model of controlled hemorrhage provides adequate tissue oxygenation to limit end-organ damage and allow for survival of the animal. METHODS: Twenty-four Yorkshire swine (55-65 kg) were rapidly hemorrhaged to a mean arterial pressure (MAP) of 30 mm Hg, maintained hypotensive for 45 minutes, and then divided into four groups. The first group, Shed Blood (BL), was resuscitated with shed blood to baseline MAP. A second group, Shed Blood (60), underwent resuscitation for four hours at an MAP of 60 mm Hg with shed blood. The third group, LR + Blood, was resuscitated with lactated Ringer's (maximum, 40 mL/kg) followed by shed blood to baseline MAP. The final group, HBOC (60), underwent resuscitation for 4 hours at an MAP of 60 mm Hg with HBOC-201. Hemodynamic variables, urine output, blood gas analyses, lactate levels, and jejunal oximetry were followed throughout the experiment. Animals were allowed to survive and underwent necropsy on postinjury day 3. Histologic comparisons were made. Data were analyzed using analysis of variance/Duncan's multiple range test. RESULTS: All animals survived the hemorrhage/resuscitation. One animal in the LR + Blood group died on postinjury day 1. Heart rate, MAP, and arterial pH were similar between groups. Cardiac output was significantly lower throughout resuscitation in the HBOC (60) group. Jejunal oximetry was similar throughout the experiment in all groups, revealing a decline in Po2 during hemorrhage and return to baseline or near baseline during resuscitation. There was no evidence of renal dysfunction. Histologically, one animal in the LR + Blood group and four of six animals in the HBOC (60) group demonstrated mild hepatocellular damage. All other tissues examined were found to have no significant abnormalities. Elevations in serum aspartate aminotransferase levels were noted when comparing the HBOC (60) group to the Shed Blood (BL) and Shed Blood (60) groups on day 2. Significant decreases in hemoglobin levels were noted in the HBOC (60) group compared with all other groups beginning on day 2. CONCLUSION: Low-volume resuscitation with HBOC-201 provides adequate tissue oxygenation for survival in a porcine model of controlled hemorrhagic shock with no long-term organ dysfunction identified. Although some animals did show mild hepatocellular damage with elevations of aspartate aminotransferase at day 2, these findings did not appear to have clinical relevance, and the enzyme elevations were trending toward normal by the third postoperative day. Decreases in hemoglobin levels at the later time points were expected, given the half-life of the product.     

Combined hemorrhagic shock and head injury: effects of hypertonic saline (7.5%) resuscitation

Hypertonic saline resuscitation was compared to isotonic fluid resuscitation in a large animal model combining hemorrhagic shock with head injury. Sheep were subjected to a freeze injury of one cerebral hemisphere as well as 2 hours of hypotension at a mean arterial pressure (MAP) of 40 mm Hg. Resuscitation was then carried out (MAP = 80 mm Hg) for 1 hour with either lactated Ringer's (LR, n = 6) or 7.5% hypertonic saline (HS, n = 6). Hemodynamic parameters and intracranial pressure (ICP) were followed. At the end of resuscitation brain water content was determined in injured and uninjured hemispheres. No differences were detected in cardiovascular parameters; however, ICPs were lower in animals resuscitated with HS (4.2 +/- 1.5 mm Hg) compared to LR (15.2 +/- 2.2 mm Hg, p less than 0.05). Additionally, brain water content (ml H2O/gm dry weight) in uninjured brain hemispheres was lower after HS resuscitation (HS = 3.3 +/- 0.1; LR = 4.0 +/- 0.1; p less than 0.05). No differences were detected in the injured hemispheres. We conclude that hypertonic saline abolishes increases in ICP seen during resuscitation in a model combining hemorrhagic shock with brain injury by dehydrating areas where the blood-brain barrier is still intact. Hypertonic saline may prove useful in the early management of multiple trauma patients.     

Controlled resuscitation for uncontrolled hemorrhagic shock

OBJECTIVE: To test the hypothesis that controlled resuscitation can lead to improved survival in otherwise fatal uncontrolled hemorrhage. METHODS: Uncontrolled hemorrhage was induced in 86 rats with a 25-gauge needle puncture to the infrarenal aorta. Resuscitation 5 minutes after injury was continued for 2 hours with lactated Ringer's solution (LR), 7.3% hypertonic saline in 6% hetastarch (HH), or no fluid (NF). Fluids infused at 2 mL x kg(-1) x min(-1) were turned on or off to maintain a mean arterial pressure (MAP) of 40, 80, or 100 mm Hg in six groups: NF, LR 40, LR 80, LR 100, HH 40, and HH 80. Blood loss was measured before and after 1 hour of resuscitation. RESULTS: Survival was improved with fluids. Preresuscitation blood loss was similar in all groups. NF rats did not survive 4 hours. After 72 hours, LR 80 rats (80%) and HH 40 rats (67%) showed improved survival over NF rats (0%) (p < 0.05). Rebleeding increased with MAP. Attempts to restore normal MAP (LR 100) led to increased blood loss and mortality. CONCLUSION: Controlled resuscitation leads to increased survival compared with no fluids or standard resuscitation. Fluid type affects results. Controlled fluid use should be considered when surgical care is not readily available.     

不同液体复苏对失血性休克-内毒素二次打击大鼠急性肺损伤的影响

目的 比较不同液体复苏对失血性休克-内毒素二次打击大鼠急性肺损伤的影响.方法 60只雄性SD大鼠,体重250～280 g,随机分为5组(n=12):假手术组(S组)、失血性休克-内毒素组(SL组)、乳酸钠林格氏液组(LR组)、7.5%氯化钠组(HS组)和羟乙基淀粉(HES)130/0.4组(HES组).分为院前期(90 min)、院内复苏期(1 h)和复苏后观察期(3.5 h).院前期:SL组、LR组、HS组和HES组颈总动脉放血建立失血性休克模型(维持MAP 35～45 mm Hg 60 min)后,气管内注射内毒素2mg/kg,同时断尾,注射内毒素后即刻分别经30 min静脉输注3倍放血量的乳酸钠林格氏液、7.5%氯化钠4ml/kg和等放血量的6%HES 130/0.4;院内复苏期:结扎尾部断端止血,在1 h内回输全部放出的血液及等放血量的0.9%氯化钠;复苏后观察期3.5 h时采集动脉血样,进行血气分析,计算肺组织湿/干重量比(W/D)和肺通透指数(PPI),测定肺泡灌洗液(BALF)蛋白浓度和肺组织AQP-1 mRNA和AQP-5mRNA表达水平,光镜下观察肺组织病理学结果,记录大鼠存活情况.结果 与SL组和LR组比较,HS组和HES组MAP、pH值、PaO2和SaO2升高,血乳酸浓度、BE、W/D、PPI和BALF蛋白浓度降低,HS组肺组织AQP-1 mRNA表达上调,HES组肺组织AQP-1 mRNA和AQP-5 mRNA表达上调,大鼠存活率升高(P＜0.05或0.01);与HS组比较,HES组W/D降低,AQP-5 mRNA表达上调,大鼠存活率升高(P＜0.05),肺组织损伤程度减轻.结论 6%HES 130/0.4和7.5%氯化钠可减轻失血性休克-内毒素二次打击大鼠急性肺损伤,6%HES 130/0.4的效果更好,其机制与抑制AQP-1和(或)AQP-5表达下调有关;而乳酸钠林格氏液对其无效.     

Hypertonic saline resuscitation in a porcine model of severe hemorrhagic shock

The purpose of this study was to investigate the effect of 7.5% hypertonic saline solution (HTS) as the initial solution in resuscitation of a pig in shock. Twenty-two animals were bled 50% of their blood volume over 30 minutes and maintained in shock for 60 minutes. The 14 survivors were divided into two groups. The first group was given 20 mL/kg of lactated Ringer's solution (LR) over a ten-minute period, while the second group was given 10 mL/kg of HTS. Both groups were then given LR at 2 mL/kg/min until the mean arterial pressure reached 80 mm Hg. The HTS group achieved a more rapid rise in mean arterial pressure over the first ten minutes of resuscitation. During this period, the cardiac index increased significantly more in the HTS group when compared with the LR group. All animals in the HTS group developed an adequate urine output. Only two animals in the LR group developed an adequate urine output. Hypertonic saline solution markedly improved survival, and there were significant improvements in hemodynamics. This was accomplished with smaller volumes of resuscitation fluid and may prove useful under conditions where intravascular access is limited.     

The early systemic and gastrointestinal oxygenation effects of hemorrhagic shock resuscitation with hypertonic saline and hypertonic saline 6% dextran-70: a comparative study in dogs

The smaller volemic state from hypertonic (7.5%) saline (HS) solution administration in hemorrhagic shock can determine lesser systemic oxygen delivery and tissue oxygenation than conventional plasma expanders. In a model of hemorrhagic shock in dogs, we studied the systemic and gastrointestinal oxygenation effects of HS and hyperoncotic (6%) dextran-70 in combination with HS (HSD) solutions in comparison with lactated Ringer's (LR) and (6%) hydroxyethyl starch (HES) solutions. Forty-eight mongrel dogs were anesthetized, mechanically ventilated, and subjected to splenectomy. A gastric air tonometer was placed in the stomach for intramucosal gastric CO(2) (Pgco(2)) determination and for the calculation of intramucosal pH (pHi): The dogs were hemorrhaged (42% of blood volume) to hold mean arterial blood pressure at 40-50 mm Hg over 30 min and were then resuscitated with LR (n = 12) in a 3:1 relation to removed blood volume; HS (n = 12), 6 mL/kg; HSD (n = 12), 6 mL/kg; and HES (mean molecular weight, 200 kDa; degree of substitution, 0.5) (n = 12) in a 1:1 relation to the removed blood volume. Hemodynamic, systemic, and gastric oxygenation variables were measured at baseline, after 30 min of hemorrhage, and 5, 60, and 120 min after intravascular fluid resuscitation. After fluid resuscitation, HS showed significantly lower arterial pH and mixed venous Po(2) and higher systemic oxygen uptake index and systemic oxygenation extraction than LR and HES (P < 0.05), whereas HSD showed significantly lower arterial pH than LR and HES (P < 0.05). Only HS and HSD did not return arterial pH and pHi to control levels (P < 0.05). In conclusion, all solutions improved systemic and gastrointestinal oxygenation after hemorrhagic shock in dogs. However, the HS solution showed the worst response in comparison to LR and HES solutions in relation to systemic oxygenation, whereas HSD showed intermediate values. HS and HSD solutions did not return regional oxygenation to control values.     

Hydroxyethylstarch 10% is superior to Ringer’s solution for preloading before spinal anesthesia for Cesarean section

PURPOSE: To compare the preloading effect of 500 ml hydroxyethylstarch (HES) 10% with 1 L Lactated Ringer's solution (LR). METHODS: In 40 healthy women undergoing elective Cesarean section HES, 500 ml (n = 20), or LR, IL (n = 20), was administered during 10 min before spinal anesthesia. The incidence of hypotension, (systolic blood pressure < 80% of baseline and < 100 mm Hg), and the amount of ephedrine used to treat it were compared. Also, the incidence of nausea and/or vomiting were recorded. Neonatal outcome was assessed using Apgar scores and umbilical venous and arterial blood gases. RESULTS: The incidence of hypotension was higher in the LR than in HES group (80% vs 40%). Mean minimum systolic blood pressure was lower in the LR than in the HES group (86.1 +/- 12.7 mm Hg vs 99.6 +/- 9.7 mm Hg P < 0.05). Systolic blood pressure < 90 mmHg occurred in two of 20 patients (10%) who received HES vs 11 of 20 patients (55%) who received LR (P < 0.05). More doses of ephedrine were required to treat hypotension in the LRthan in the HES group (35.3 +/- 18.4 mg vs 10.6 +/- 8.6 mg; P < 0.05). The incidence of nausea and/or vomiting was lower in the HES than in the crystalloid group. Neonatal outcome was good and similar in both groups. CONCLUSION: Preloading patients undergoing elective Cesarean section with 500 ml HES 10%, decreases the incidence and severity of spinal-induced hypotension more than preloading with 1 L of LR solution.     

Hemodynamic and metabolic effects of resuscitation in an uncontrolled hemorrhage model of severe rat liver injury

Purpose: The benefits of fluid resuscitation have become controversial for noncompressible uncontrolled hemorrhage. The effect of delayed access to definitive care is an additional confounding variable. Rural and military environments often entail delayed access to surgical care, and current recommendations are for ongoing fluid resuscitation to a normal blood pressure during transport. This approach has been proposed to increase survival time, at the expense of increased blood loss. This study was designed to evaluate the hemodynamic and metabolic response to resuscitation in a rat model of severe liver injury and uncontrolled hemorrhage over 4 hours.MethodsAll animals (N = 21, 275 ± 15 g), underwent a reproducible excision of the median hepatic lobe. The animals received either no resuscitation (NR) or 40°C lactated Ringer’s solution at 1 ml/min, starting at 2.5 minutes after the injury (LR). The end point of resuscitation was a return to the immediate preinjury mean arterial pressure (MAP). Total blood loss, MAP, survival time, fluid volume infused, serum lactate, arterial blood gasses, intra-abdominal pressure, and hematocrit were measured preinjury and at 4 hours or death.ResultsBlood loss was greater (p < 0.01) in the LR group (37.8 ± 13.5 ml/kg) than in the NR group (15.9 ± 5.9). Final Pao₂ was lower (p < 0.01) in the LR group (55.0 ± 21.5 mm Hg) than in the NR group (92.2 ± 17). No differences were noted between groups in the amount of hepatic median lobe excised (60% ± 7%), overall survival time (86.3 ± 66.0 min), MAP nadir (35.2 ± 0.7 mm Hg at 1.9 ± 0.7 min postinjury), final pH (7.04 ± 0.14), final base excess (−16.5 ± 4.5 mmol/l), final intra-abdominal pressure (2.2 ± 1.4 mm Hg), and final serum lactate (6.8 ± 4.0 mmol/l).ConclusionsIn this model of uncontrolled hemorrhage from a solid organ, fluid resuscitation provided no survival or metabolic advantage, serving only to increase blood loss and decrease Pao₂. Vigorous resuscitation may not provide benefit when significant injury and prolonged transport times are combined.     

Fluid resuscitation improves hemodynamics without increased bleeding in a model of uncontrolled hemorrhage induced by an iliac artery tear in dogs

BACKGROUND: Fluid resuscitation administered before hemorrhage control for trauma victims sustaining penetrating abdominal injury is controversial. Our objective was to evaluate intra-abdominal blood loss and hemodynamic and metabolic effects of no fluid resuscitation, small-volume 7.5% sodium chloride/6% dextran-70 (HSD), or large-volume lactated Ringer's (LR) solution during intra-abdominal vascular injury and uncontrolled hemorrhage. METHODS: In pentobarbital-anesthetized dogs (n = 26, 17 +/- 0.3 kg), a suture was placed through the common iliac artery to produce a 3-mm tear when the exteriorized suture lines were pulled after incision closure. Dogs were randomized to three groups, according to the treatment used after 20 minutes of uncontrolled hemorrhage: controls, no fluid resuscitation (CT group) (n = 6); the HSD group (4 mL/kg over 4 minutes, n = 6); and the LR group (32 mL/kg over 15 minutes, n = 6). After 40 minutes of uncontrolled bleeding, animals were killed, and intra-abdominal blood loss was measured. RESULTS: Eight dogs died from severe hemorrhagic shock before randomization and were excluded. After 20 minutes, animals presented lower blood pressure (approximately 35 mm Hg), low cardiac output (approximately 1.0 L/min/m(2)), and metabolic acidosis (pH approximately 7.23, base excess approximately -9 mmol/L). After HSD and LR solution, arterial pressure presented a transient increase, but remained below baseline. Two animals died before the end of the experiment, both in the LR group. Cardiac index was partially improved in the LR and HSD groups, whereas the CT group sustained a low-flow state. There were no significant differences between groups regarding intra-abdominal blood loss (CT group, 47.8 +/- 5.9 mL/kg; HSD group, 41.7 +/- 2.3 mL/kg; and LR group, 49.4 +/- 0.7 mL/kg). CONCLUSION: Fluid resuscitation with either large-volume LR solution or small-volume HSD, during uncontrolled hemorrhage from intra-abdominal vascular injury, produced hemodynamic and metabolic benefits, without additional blood loss, whereas no fluid resuscitation was associated with sustained low cardiac output and hypotension.     

Blood loss after fluid resuscitation with isotonic or hypertonic saline for the initial treatment of uncontrolled hemorrhage induced by spleen rupture

BACKGROUND: It has been suggested that fluid resuscitation for the prehospital management of hypotensive trauma victims increases bleeding. In a model of uncontrolled hemorrhage induced by complete splenic laceration with a hilar vascular injury, we hypothesized that small-volume hypertonic saline or large-volume lactated Ringer's solution may provide sustained hemodynamic benefits despite promoting increases in intra-abdominal bleeding. METHODS: Forty anesthetized, spontaneously breathing dogs (18 +/- 1 kg) underwent laparotomy. A suture line was placed around the spleen to produce a splenic rupture with hilar vascular injury by pulling the exteriorized lines after incision closure. Intra-abdominal blood loss was measured directly, immediately after the animal was killed. Dogs were randomly assigned to four groups (n = 10 per group): Untreated controls were killed 20 (CT20) or 40 (CT40) minutes after splenic rupture to measure blood loss directly. Treatment groups received (20 minutes after spleen rupture) lactated Ringer's (LR), 33 mL/kg over 15 minutes, or 7.5% NaCl/6% dextran 70 (HSD), 4 mL/kg over 4 minutes. Blood loss was measured 40 minutes after spleen rupture. RESULTS: Mean arterial pressure dropped from an average value of 103 +/- 3 mm Hg to 67 +/- 5 mm Hg during the first 20 minutes and was partially restored afterward in all groups, with no significant differences between them. No resuscitation was associated with low cardiac output, whereas HSD restored and LR overshot baseline cardiac output. Intra-abdominal blood loss was 30 +/- 4, 38 +/- 4, 43 +/- 5, and 42 +/- 5 mL/kg for groups CT20, CT40, HSD, and LR, respectively, with no statistical significance between groups. CONCLUSION: No-fluid resuscitation in uncontrolled hemorrhage from splenic rupture resulted in a low-flow state, whereas resuscitation with small volumes of HSD or large volumes of LR produced hemodynamic benefits without significant increases in bleeding.     

Initial resuscitation volume in uncontrolled hemorrhage: effects on organ function

Conventional resuscitation of hypovolemia due to hemorrhage has consisted of aggressive fluid administration. Recent studies have suggested that surgical control of bleeding before fluid resuscitation might improve early survival. The effects of limited resuscitation on organ function have not been assessed in these studies. We developed a model of moderate intraperitoneal hemorrhage designed to evaluate long-term end-organ function after various resuscitation protocols. Male Sprague-Dawley rats underwent ketamine anesthesia, followed by placement of femoral artery and vein lines. Intraperitoneal hemorrhage was induced by division of distal branches of the ileocolic artery and vein. After 5 minutes of bleeding, the animals were randomized to one of three resuscitation groups: Group 1 received no fluid resuscitation before surgical control of the hemorrhage; Group 2 received 0.5 mL of lactated Ringer's solution (LR) every 5 minutes for a mean arterial pressure (MAP) of less than 80 mm Hg; Group 3 received 2.0 mL of LR every 5 minutes for a MAP of less than 80 mm Hg. In all three groups, after 20 minutes, the bleeding was surgically controlled. All rats were then resuscitated with LR to a MAP of 80 mm Hg. The intravascular lines were removed, and the rats were allowed to recover from anesthesia and were returned to animal holding. On the 7th day, survivors were sacrificed, and their blood was assayed for hematocrit and serum levels of bilirubin, alanine aminotransferase, urea nitrogen, and creatinine. Kidneys, lungs, and liver were harvested for microscopic examination. Survival was lower in Group 2 than in the other groups (90%, 60%, and 100%, respectively; P = 0.04), but all deaths occurred within 3 hours of hemorrhage and were due to either hypovolemia or anesthetic complications. No histologic abnormalities were identified in the livers of the animals that survived, but pulmonary atelectasis and mild-to-moderate renal tubular necrosis were identified uniformly. No histologic differences could be discerned between the groups. Hematocrit and indices of liver and renal function were similar in all groups, and no animal developed organ dysfunction. In this model of moderate uncontrolled intraperitoneal hemorrhage, the volume of fluid resuscitation, or the absence of resuscitation, had an inconsistent effect of 7-day survival and did not influence function or histologic appearance of the liver, lungs, or kidneys 7 days after hemorrhage.     

The synergistic effects of pentoxifylline on systemic and regional perfusion after hemorrhage and hypertonic resuscitation

Small volumes of hypertonic saline solution ([HS] 7.5% NaCl) produce systemic and microcirculatory benefits in hemorrhaged animals. Pentoxifylline (PTX) has beneficial effects when administrated after hemorrhagic shock. We tested the hypothesis that the combination of HS and PTX in the initial treatment of hemorrhagic shock provides synergistic hemodynamic benefits. Twenty-four dogs were bled to a target arterial blood pressure of 40 mm Hg and randomized into 3 groups: lactated Ringer's solution (33 mL/kg; n = 6); HS (7.5% NaCl 4 mL/kg; n = 9); and HS+PTX (7.5% NaCl 4 mL/kg + PTX 15 mg/kg; n = 9). Systemic hemodynamics were measured by Swan-Ganz and arterial catheters. Gastric mucosal-arterial Pco2 gradient (D(g-a)Pco2; gas tonometry), portal vein blood flow (ultrasonic flowprobe), and systemic and regional O2-derived variables were also evaluated. HS induced a partial increase in mean arterial blood pressure, cardiac output, and portal vein blood flow. In the HS+PTX group, we observed a significant, but transitory, increase in systemic oxygen delivery (180 +/- 17 versus 141 +/- 13 mL/min) in comparison to HS alone. PTX infusion during hypertonic resuscitation promoted a significant reduction in D(g-a)Pco2 (41.8 +/- 4.8 to 25.7 +/- 3.9 mm Hg) when compared with isolated HS infusion (48.2 +/- 6.4 to 39.4 +/- 5.5 mm Hg). We conclude that PTX as an adjunct drug during hypertonic resuscitation improves cardiovascular performance and gastric mucosal oxygenation.