Alteration of alpha-spectrin ubiquitination after hemorrhagic shock

BACKGROUND

RBC deformability after trauma and hemorrhagic shock (T/HS) leads to the microcirculatory dysfunction and clinical manifestations of organ failure. However, the cellular mechanism of this phenomenon remains unknown. Spectrins are important for the shape and physical properties of erythrocytes, such as deformability and resistance to mechanical stress. Previous studies have shown that erythrocyte alpha-spectrin is ubiquitinated. Studies of sickled cells and aged erythrocytes, 2 conditions known to have decreased RBC deformability, have shown decreased alpha-spectrin ubiquitination, which may contribute to the inability of these cells to change shape. It was hypothesized that decreased alpha-spectrin ubiquitination could participate in the mechanism(s) whereby T/HS erythrocytes become less deformable.

METHODS

The level of alpha-spectrin ubiquitination in erythrocytes isolated from T/HS rats was determined and compared with erythrocytes from control sham-shocked (T/SS) animals. After T/SS (n = 4) or T/HS (n = 7), alpha- and beta-spectrin subunits were isolated using a low ionic-strength buffer at 37 degrees C for 30 minutes. The relative amount of ubiquitinated alpha-spectrin was evaluated by Western blotting using a monoclonal antibody to ubiquitin.

RESULTS

The relative level of alpha-spectrin ubiquitination (normalized to total alpha-spectrin in the same preparation) was found to be significantly decreased after T/HS (.319 +/- .03) compared with T/SS control erythrocytes (.485 +/- .06, P < .05). To evaluate the content and relative amounts of the other membrane proteins, the profiles of T/HS and T/SS erythrocytes were compared by sodium dodecyl sulphate-polyacrylamide gel electrophoresis. This did not reveal any significant quantitative differences between T/SS and T/HS spectrin or other membrane proteins.

CONCLUSIONS

The finding of decreased alpha-spectrin ubiquitination after T/HS suggests that this mechanism could contribute to increased rigidity of the erythrocyte membrane.

Endotoxemia down-regulates bone marrow lymphopoiesis but stimulates myelopoiesis: the effect of G6PD deficiency

Bone marrow (BM) dysfunction is an important component of immunomodulation. This study investigated alterations in cell content, apoptotic responses, and cell proliferation in BM, blood, and spleen in endotoxemic mice (LPS from Escherichia coli). As the decreased antioxidant status associated with glucose-6-phosphate dehydrogenase (G6PD) deficiency has been shown to modulate the innate immune response, we also tested whether a G6PD mutation (80% decrease in cellular enzyme activity) alters BM responses during endotoxemia. LPS decreased BM myeloid (CD45(+)CD11b(+)) and B lymphoid (CD45(+)CD19(+)CD11b(-)) cell content compared with controls. In contrast, LPS increased CD11b(+) myeloid but decreased T and B cell counts in the circulation. Endotoxemia inhibited spontaneous, heat shock, and H(2)O(2)-induced apoptosis as well as proliferative activity in BM lymphoid cells. In contrast, BM myeloid cell apoptosis was not altered, and their proliferative activity was increased during endotoxemia. Following LPS, splenic myeloid cell content was increased, and T and B cell content was unchanged; furthermore, splenocytes showed increased apoptosis compared with controls. BM cell content, including lymphoid and myeloid cells, was greater in G6PD mutant than wild-type (WT) mice, and LPS decreased BM cell counts to a greater degree in mutant than WT mice. Endotoxemia caused widespread inhibition of BM cytokine and chemokine production; however, IL-6 production was increased compared with controls. LPS-induced IL-6 production was decreased in G6PD mutant animals compared with WT. This study indicates that endotoxin inversely affects BM myeloid and lymphoid cell production. LPS-induced down-regulation of B cell production contributes to the generalized lymphopenia and lymphocyte dysfunction observed following nonspecific immune challenges.

RESISTANCE OF THE FEMALE, AS OPPOSED TO THE MALE, INTESTINE TO I/R-MEDIATED INJURY IS ASSOCIATED WITH INCREASED RESISTANCE TO GUT-INDUCED DISTANT ORGAN INJURY

We tested the hypothesis that the female intestine is more resistant to gut I/R injury than the male intestine by comparing the effects of the isolated pure gut I/R superior mesenteric artery occlusion (SMAO) model on gut morphology and whether SMAO-induced distant organ injury (lung, bone marrow [BM], neutrophils, and red blood cells [RBCs]) would differ between male and proestrus female rats. At 6 or 24 h after SMAO or sham SMAO, gut injury, lung permeability, pulmonary neutrophil sequestration, RBC deformability, and BM RBC and white blood cell progenitor growth were measured, as was the ability of the plasma from these rats to activate naive rat neutrophils. At both 6 and 24 h after SMAO, the female rats had significantly less intestinal injury and reduced gut-induced lung injury, BM suppression, RBC dysfunction, and neutrophil activation than male rats subjected to SMAO. These results indicate that the resistance of proestrus female rats to gut injury and gut-induced distant organ injury is greater than that observed in male rats.

Hormonally active women tolerate shock-trauma better than do men: a prospective study of over 4000 trauma patients

OBJECTIVE

To test the hypothesis that comparably injured women, especially those in the hormonally active age groups, would manifest a better preserved hemodynamic response and tissue perfusion after major trauma than do men.

SUMMARY BACKGROUND DATA

The notion that premenopausal women are more resistant than men to shock and trauma has been shown in numerous preclinical models. However, human studies on the effects of gender on outcome after shock-trauma are less clear, and none has examined the effect of gender on the immediate postinjury response to major trauma.

METHODS

Prospective series of all patients at a Level I trauma center from January 2000 to December 2005. Study patients were all patients arriving to the trauma area of the emergency department and having a serum lactate drawn within 30 minutes of arrival. Demographic data, injury severity indices, blood utilization, and lactate levels were recorded. Lactate was used as a marker of the hemodynamic response to injury, because it has been shown to be an excellent and accurate indicator of inadequate tissue perfusion.

RESULTS

: A total of 5192 patients were eligible for the study of which 4106 fulfilled the study requirements and were enrolled. Initial serum lactate levels were significantly lower in premenopausal (age 14-44) and perimenopausal (age 45-54) women than in men of the same age groups (P < 0.001), even though the Injury Severity Score of the women was significantly higher than that of the men (24 vs. 18; P < 0.1). When patients were stratified into major injury groups as well as groups receiving blood transfusions, the premenopausal women were also found to have lower initial serum lactate levels and receive less blood, while having a greater magnitude of injury as reflected in their Injury Severity Score.

CONCLUSION

The data firmly establishes a proof of principle that hormonally active human women have a better physiologic response to similar degrees of shock and trauma than do their male counterparts. These gender-based differences should be taken into account in designing studies evaluating the response to shock-trauma.

Augmented erythrocyte band-3 phosphorylation in septic mice

Infection-induced RBC dysfunction has been shown to play a role in the modulation of host response to injury and infection. The underlying biochemical mechanisms are not known. This study investigated alterations in RBC band-3 phosphorylation status and its relationship to anion exchange activity in vitro as well as under in vivo septic conditions induced by cecal ligation and puncture (CLP) in mice. Pervanadate treatment in vitro increased band-3 tyrosine phosphorylation that was accompanied by decreased RBC deformability and anion exchange activity. Following sepsis, band-3 tyrosine phosphorylation in whole RBC ghosts as well as in cytoskeleton-bound or soluble RBC protein fractions were elevated as compared to controls. Although anion exchange activity was similar in RBCs from septic and control animals, band-3 interaction with eosin-5-maleimide (EMA), which binds to band-3 lysine moieties, was increased in cells from septic animals as compared to controls, indicating that sepsis altered band 3 organization within the RBC membrane. Since glucose-6-phosphate dehydrogenase is a major antioxidant enzyme in RBC, in order to assess the potential role of oxidative stress in band-3 tyrosine phosphorylation, sepsis-induced RBC responses were also compared between WT and (G6PD) mutant animals (20% of normal G6PD activity). Band-3 membrane content and EMA staining were elevated in G6PD mutant mice compared to WT under control non-septic conditions. Following sepsis, G6PD mutant animals showed lessened responses in band-3 tyrosine phosphorylation and EMA staining compared to WT. RBC anion exchange activity was similar between mutant and WT animals under all tested conditions. In summary, these studies indicate that sepsis results in elevated band-3 tyrosine phosphorylation and alters band-3 membrane organization without grossly affecting RBC anion exchange activity. The observations also suggest that factors other than oxidative stress are responsible for the sepsis-induced increase in RBC band-3 tyrosine phosphorylation.

Amiloride combined with small-volume resuscitation with hypertonic saline is superior in ameliorating trauma-hemorrhagic shock-induced lung injury in rats to the administration of either agent alone

OBJECTIVE

Recognition of the limitations of standard crystalloid resuscitation has led to exploration for alternative resuscitation strategies that might better prevent the development of trauma-hemorrhage-induced organ dysfunction and systemic inflammation. Thus, the goal of this study was to compare the effects of two resuscitation strategies alone and in combination with that of standard resuscitation with Ringer's lactate. These two strategies were intravenous injection of amiloride, an inhibitor of Na/H exchange and epithelial Na channels, and resuscitation with hypertonic saline.

DESIGN

Prospective animal study with concurrent control.

SETTING

Small animal laboratory.

SUBJECTS

Adult male Sprague-Dawley rats.

INTERVENTIONS

Rats injected with amiloride or its vehicle were subjected to trauma-hemorrhagic shock (T/HS) or trauma sham-shock (T/SS) and resuscitated with Ringer's lactate or hypertonic saline. The T/HS model consisted of a laparotomy plus 90 mins of shock (mean arterial pressure 30 mm Hg). Three hours after the end of the shock or sham-shock period, lung permeability, lung histology, pulmonary neutrophil sequestration, neutrophil CD11b expression, gut injury, and red blood cell rigidification were assessed.

MEASUREMENTS AND MAIN RESULTS

Both amiloride and hypertonic saline reduced T/HS-induced pulmonary permeability and neutrophil sequestration, and coadministration of these two agents was more efficacious than administration of the individual agents. In contrast, whereas gut injury was attenuated by both amiloride and hypertonic saline, combined administration of amiloride and hypertonic saline failed to further protect the gut. Additionally, hypertonic saline reduced both neutrophil CD11b expression and red blood cell rigidification, whereas amiloride was without effect.

CONCLUSIONS

Combined administration of amiloride and small-volume resuscitation with hypertonic saline may be a strategy worthy of further evaluation in the therapy of shock-induced distant organ injury.

Mesenteric lymph duct ligation decreases red blood cell alterations caused by acute pancreatitis

BACKGROUND

Both experimental and clinical studies have shown that acute pancreatitis (AP) causes a significant decrease in red blood cell (RBC) deformability. The mechanisms by which AP induces RBC injury are unknown. The purpose of this study was to test the hypothesis that factors carried in the mesenteric lymph after an attack of AP significantly contribute to the RBC injury observed in AP.

METHODS

RBC deformability was determined by means of laser-assisted ektacytometry in mesenteric lymph duct-ligated and non-ligated rats subjected to AP and in sham-operated animals.

RESULTS

AP was associated with significant alterations of RBC deformability indices, namely the elongation index and half maximal RBC elongation. Pancreatitis-induced RBC deformability changes were partially prevented by mesenteric lymph duct ligation.

CONCLUSIONS

Mesenteric lymph in AP contains factors that cause RBC damage, which is manifested by decreased deformability. Interruption of the lymph flow from the injured gut into the bloodstream decreases these RBC alterations.

Small Volume Resuscitation With Hypertonic Saline Is More Effective in Ameliorating Trauma-Hemorrhagic Shock-Induced Lung Injury, Neutrophil Activation and Red Blood Cell Dysfunction than Pancreatic Protease Inhibition

BACKGROUND

Recognition of the limitations of standard crystalloid resuscitation has led to the search for alternative resuscitation strategies that might better limit the development of trauma-hemorrhage-induced organ dysfunction and systemic inflammation. Thus, the goal of this study was to compare the effects of two resuscitation strategies alone, and in combination, with those of standard resuscitation with Ringers lactate (RL). The two strategies were small volume resuscitation with hypertonic saline (HTS) and intraluminal inhibition of pancreatic proteases with the serine protease inhibitor nafamostat.

METHODS

Male rats were subjected to trauma-hemorrhagic shock (T/HS) or trauma sham-shock (T/SS) and resuscitated with RL, HTS, nafamostat, or the combination of HTS and nafamostat. The T/HS model consisted of a laparotomy plus 90 minutes of shock (MAP 30 mm Hg). Three hours after the end of the shock or sham-shock period, lung permeability, pulmonary neutrophil sequestration, neutrophil activation, red blood cell deformability, and gut injury were assessed.

RESULTS

Both HTS and nafamostat reduced T/HS-induced pulmonary permeability and neutrophil sequestration, as well as neutrophil activation as compared with resuscitation with RL. However, HTS was more effective than nafamostat in reducing T/HS-induced acute lung injury and neutrophil activation. Additionally, HTS, but not nafamostat, reduced T/HS-induced RBC rigidification. Lastly, gut injury after T/HS was reduced to the greatest extent by the combination of HTS plus nafamostat.

CONCLUSION

Small volume resuscitation with HTS is more effective than RL and nafamostat in limiting T/HS-induced acute lung injury, neutrophil activation and red blood cell injury.

Albumin protects against gut-induced lung injury in vitro and in vivo

OBJECTIVE

Since albumin has the ability to detoxify, we assessed whether low-dose albumin could protect against trauma/hemorrhagic shock (T/HS)-induced endothelial cell, lung, gut, and red blood cell (RBC) injury in vivo and endothelial cell injury in vitro.

SUMMARY BACKGROUND DATA

T/HS cause ischemic insult to the gut, resulting in the release of biologically active factors into the mesenteric lymph, which then cause injury to multiple distant organs.

METHODS

In vitro experiments tested the ability of albumin to reduce the cytotoxicity of mesenteric lymph from male rats subjected to T/HS (laparotomy + MAP 30 mm Hg for 90 minutes) for human umbilical vein endothelial cell (HUVEC). In subsequent in vivo experiments, the ability of albumin given as part of the resuscitation regimen to protect against T/HS-induced injury was tested by comparing the magnitude of injury in T/HS rats receiving human albumin (shed blood + 0.12, 0.24, or 0.36 g/kg) or lactated Ringer's solution (shed blood + 2 x volume of shed blood as LR) with that observed in rats subjected to trauma/sham shock. Rats were killed after a 3-hour recovery period and had lung permeability evaluated by bronchoalveolar lavage and myeloperoxidase assays, intestinal microvillous injury by histology, and RBC deformability using ektacytometry.

RESULTS

Both bovine and human albumin prevented T/HS lymph-induced HUVEC cytotoxicity in vitro, even when added 30 minutes after the lymph (viability 15 +/- 4% to 88 +/- 3%, P < 0.01). In vivo RBC deformability was better preserved by blood plus albumin than blood plus lactated Ringer's solution (P < 0.01). Likewise, albumin administration reduced T/HS-induced lung permeability and neutrophil sequestration in a dose-dependent fashion, with 0.36 g/kg of albumin effecting total lung protection (P < 0.01). In contrast, albumin treatment did not prevent T/HS-induced gut injury.

CONCLUSIONS

Low-dose albumin protects against gut lymph-induced lung, HUVEC, and RBC injury by neutralizing T/HS lymph toxicity.

Alterations of red blood cell shape in patients with severe trauma

BACKGROUND

Trauma is accompanied by a decrease in red blood cell (RBC) deformability, which may manifest itself earlier than secondary septic complications. The mechanisms of this phenomenon are not clear. The aim of this study is to determine when the alterations of RBC shape appear in trauma patients.

METHODS

RBC shape was examined by scanning electron microscopy in 43 patients with multisystem trauma. Blood samples were taken at admission and every 24 hours afterward for 4 to 10 days. The patients were divided into two groups: the survivors and those who died of septic complications. The control group consisted of 10 healthy volunteers.

RESULTS

A significant decrease in the percentage of discoid erythrocytes, compared with the volunteers, was observed in both groups of patients at admission (77.6 +/- 11.9 and 66.7 +/- 5.8 vs. 96.0 +/- 2.9%, p < 0.01). The percentage of irreversibly changed RBC (spherostomatocytes, spherocytes) was lower in survivors (12.9 +/- 2.0% vs. 20.3 +/- 9.4%, p < 0.01). This phenomenon remained constant until the end of the study. The survivors only showed a tendency toward the improvement of RBC shape.

CONCLUSION

RBC shape alterations appear within the first hours after trauma and persist for at least 7 to 10 days. These changes are more severe in patients with secondary septic complications.

Red blood cell damage after trauma-hemorrhage is modulated by gender

BACKGROUND

Previous studies have shown that trauma-hemorrhagic shock (T/HS) causes significant alterations in red blood cell (RBC) deformability and shape. Gender is becoming well recognized as a modulating factor in the pathophysiologic response to trauma. We hypothesize that female subjects are more resistant to adverse effects of T/HS on RBC deformability and shape than male subjects because of estrogen protection.

METHODS

Elongation index, a measure of RBC deformability, was examined in six male rats and four groups of female rats at different stages of the estrous cycle (six animals per group) before and 6 hours after T/HS by laser ektacytometry. RBC shape was determined by scanning electron microscopy. Lipid peroxidation was evaluated by measurement of malonyldialdehyde in plasma 6 hours after T/HS.

RESULTS

Male rats had a significant decrease in RBC elongation index after T/HS as compared with preshock values. RBC deformability of the proestrous (PES) and estrous female rats did not decrease after T/HS. Postshock RBC deformability values in metestrous and diestrous female rats did not differ from male rats. Male rats and metestrous and diestrous females had a significant increase in the percentage of abnormally shaped RBCs immediately after shock and during the postresuscitation period. In PES and ES female rats, RBC shape distribution did not significantly change after T/HS. Plasma malonyldialdehyde levels at 6 hours post-T/HS were higher in the male rats than in PES female rats.

CONCLUSION

These data show that high levels of estrogen in female rats are protective against shock-induced RBC damage and suggest that this effect is associated with a decrease in lipid peroxidation.

Female Sex Hormones Protect Red Blood Cells from Damage after Trauma-Hemorrhagic Shock

BACKGROUND

Trauma/hemorrhagic shock (T/HS) is known to cause changes in red blood cell (RBC) deformability and resting shape. Our previous studies have shown that proestrus female rats are more protected from shock-induced RBC damage than diestrus females or males. However, it is unclear whether female or male sex hormones can influence the severity of these alterations.

METHODS

Red blood cell deformability and shape were examined in proestrus female rats, and oophorectomized female rats, as well as in castrated and non-castrated male rats (5-10 animals per group) subjected to T/HS. Red blood cell deformability was measured by laser ektacytometry whereas erythrocyte shape was evaluated by scanning electron microscopy.

RESULTS

Proestrus female rats subjected to T/HS did not show either significant RBC deformability changes (decrease in elongation index) or shape alterations (increase in the percentage of reversibly and irreversibly changed cells). Oophorectomized rats demonstrated more severe RBC changes than did non-oophorectomized rats. The degree of RBC damage was the same in castrated and non-castrated males, which was significantly worse than in proestrus females.

CONCLUSIONS

Removal of female sex hormones increases the severity of T/HS-induced RBC changes, indicating that female sex hormones protect against RBC damage. In contrast, male sex hormones do not appear to modulate T/HS RBC dysfunction.

Red blood cell dysfunction in septic glucose-6-phosphate dehydrogenase-deficient mice

Glucose-6-phosphate dehydrogenase (G-6-PDH) deficiency is the most common known human genetic polymorphism. This study tested the hypothesis that G-6-PDH deficiency worsens sepsis-induced erythrocyte dysfunction. Sepsis (24 h) was induced by cecal ligation and puncture in wild-type (WT) and G-6-PDH-deficient (G-6-PDH activity 15% of WT) mice. Erythrocyte responses were tested in whole blood as well as in subpopulations of circulating erythrocytes. Whereas erythrocyte deformability was similar in unchallenged deficient and WT animals, sepsis decreased erythrocyte deformability that was more pronounced in deficient than WT animals. Sepsis also resulted in anemia and hemolysis in deficient compared with WT animals. Mean corpuscular hemoglobin content and erythrocyte deformability decreased in younger erythrocyte subpopulations from septic deficient compared with WT animals. Sepsis decreased the reduced-to-oxidized glutathione ratio in erythrocytes from both deficient and WT animals; however, plasma glutathione increased more in deficient than in WT animals. Erythrocyte content of band 3 associated with the cytoskeleton was elevated in deficient compared with WT erythrocytes. The antioxidant N-acetyl-l-cysteine in vivo alleviated the sepsis-induced decrease in erythrocyte deformability in deficient animals compared with sham-operated control animals. This study demonstrates that a mild degree of G-6-PDH deficiency (comparable to the human class III G-6-PDH deficiencies) worsens erythrocyte dysfunction during sepsis. Increased erythrocyte rigidity and tendency for hemolysis together with alterations in band 3-spectrin interactions may contribute to the immunomodulatory effects of G-6-PDH deficiency observed after major trauma and infections in humans.

Burn-induced red blood cell deformability and shape changes are modulated by sex hormones

BACKGROUND

Burns are known to cause changes in red blood cell (RBC) deformability and resting shape. However, it is unclear whether sex and sex hormones can influence the severity of these alterations.

METHODS

Red blood cell deformability and shape were examined in proestrus and diestrus female rats, ovariectomized female rats, as well as castrated and non-castrated male rats (6 animals per group) subjected to scald burn. Red blood cell deformability was measured by laser ektacytometry and erythrocyte shape was evaluated by scanning electron microscopy.

RESULTS

Burn-induced RBC deformability changes (decrease in elongation index) and shape alterations (increase in the percentage of reversibly and irreversibly changed cells) were less severe in proestrus females than in diestrus females or males. Ovariectomized rats demonstrated more severe RBC changes than non-ovariectomized ones. The degree of RBC damage was the same in castrated and non-castrated males.

CONCLUSIONS

Removal of female sex hormones increases the severity of burn-induced RBC, indicating that female sex hormones protect against burn-induced RBC dysfunction. In contrast, male sex hormones do not appear to modulate burn-induced RBC dysfunction.

Appearance of an erythrocyte population with decreased deformability and hemoglobin content following sepsis

With the use of the cecal ligation and puncture model in mice, this study tested whether sepsis-induced decreased erythrocyte deformability is restricted to a subpopulation of cells. Erythrocyte subpopulations were isolated by centrifugal elutriation. Lineweaver-Burk conversion of deformability-response curves to shear stress was used to determine the shear stress at half-maximal cell elongation (K(EI)) and maximal cell elongation (EI(max)). Sepsis decreased erythrocyte deformability in whole blood. K(EI) values were elevated (2.7 vs. 2.1 Pa) and EI(max) values decreased (0.56 vs. 0.50) in sepsis compared with sham mice. K(EI) values for cells eluted at 7 ml/min (smallest and oldest cells) were similar; however, K(EI) values for cells eluted at 8 ml/min were greater in septic than sham animals (2.50 vs. 2.10). Younger and larger subpopulations of erythrocytes (eluted at 9, 10, and 11 ml/min) also showed a tendency of decreased deformability in sepsis. Mean corpuscular hemoglobin content was decreased in cells eluted at 7 and 8 ml/min in sepsis (4.5 and 10.2 pg) compared to sham (7.4 and 11.4 pg) mice. This study indicates that an erythrocyte subpopulation that represents 20% of circulating cells shows the most pronounced decrease in cell deformability during sepsis. Increased rigidity together with decreased corpuscular hemoglobin content in these cells may contribute to microcirculatory dysfunction and immune modulation during sepsis.

Effect of trauma-hemorrhagic shock on red blood cell deformability and shape

Previous work in our laboratory has demonstrated a decrease in red blood cell (RBC) deformability in sepsis. This has not been studied following hemorrhagic shock. We tested the hypotheses that hemorrhagic shock, associated with soft tissue trauma, leads to decreased RBC deformability and that this is related to alterations in the resting shape of the RBC. Elongation index (EI), a measure of RBC deformability, was determined over a range of shear stresses from 0.3 to 30 Pa in 26 male rats before and at various times after 90 min of hemorrhagic shock. RBC resting shape was determined by scanning electron microscopy. The data demonstrate that EI decreased significantly at the end of shock (before resuscitation), and remained below normal throughout the 6-h postshock period. Eight of the 26 animals decompensated during shock, requiring return of a portion of the shed blood to maintain a mean arterial pressure of 30-40 mmHg. Four of eight decompensated animals died before the end of the study period, compared with none of the compensated rats. The decompensated rats had significantly lower EI at 0.3 Pa by the end of the shock period (0.050 +/- 0.009) than the compensated shock group (0.058 +/- 0.006; P < 0.05). RBC shape alterations were first demonstrated at the end of the shock period and persisted throughout the 6-h postshock resuscitation period. These data indicate that trauma and hemorrhagic shock cause RBC shape alterations and a significant decrease in RBC deformability, which becomes manifested during the shock period and persists for at least 6 h postshock. Additionally, a direct relationship appears to exist between the magnitude of the physiologic insult and the degree of RBC damage.

Mesenteric lymph duct ligation prevents shock-induced RBC deformability and shape changes

OBJECTIVES

The exact mechanisms that lead to RBC deformability and shape changes after trauma/hemorrhagic shock remain unknown. We hypothesize that RBC injury is caused in part by gut injury and is mediated by gut-derived factors carried in the intestinal lymph.

MATERIALS AND METHODS

RBC deformability was measured by a laser-assisted ektacytometer before and after trauma/hemorrhagic shock (T/HS) in 6 rats whose mesenteric lymph duct had been ligated and in 10 rats subjected to T/HS without duct ligation. In this assay a decrease in the elongation index is a marker of decreased RBC deformability. RBC shape was examined by scanning electron microscopy.

RESULTS

In the T/HS rats, the RBC elongation index decreased after T/HS from a preshock value of 0.064 +/- 0.011 to 0.052 +/- 0.009 (P < 0.01) and remained low (0.049 +/- 0.010) even at 3 h after resuscitation. In contrast, the elongation index did not decrease after T/HS in the lymph duct-ligated rats (0.062 +/- 0.004 vs. 0.056 +/- 0.005, P = NS). Likewise, the T/HS rats, but not the duct-ligated T/HS rats, had a significant increase in the percentage of abnormally shaped RBCs when studied by electron microscopy.

CONCLUSIONS

Interruption of lymph flow from the gut into the bloodstream by lymph duct ligation prevents T/HS-induced RBC damage. Because decreased RBC deformability contributes to impaired perfusion of the microcirculation, preservation of RBC deformability may decrease the incidence of T/HS-induced organ dysfunction.

Influence of storage on red blood cell rheological properties

BACKGROUND

It is known that the age of transfused blood is a risk factor for the development of multiple organ failure in surgical patients. However, the character of hemorrheological changes in stored blood as well as the time when they appear remains disputable. We assumed that blood storage was accompanied by a progressive decrease of RBC deformability and rheological disorders. The degree of rheological disturbances should be directly proportional to the number of RBC with altered geometry.

MATERIALS AND METHODS

Nine packages of RBC kept in adenine saline solution were examined from the 5th to the 42nd day of storage. RBC deformability index (DI) was determined by micropore filtration technique. RBC shape was estimated by means of scanning electron microscopy. Blood clotting time was measured by Sonoclot coagulation analyzer.

RESULTS

Significant alterations of RBC shape started at the second week of storage and progressed during the rest of the storage period. RBC shape changes were accompanied by progressive decrease in DI and increase in hemolysis and acidosis. The correlation index between the percentage of abnormally shaped RBC and DI was -0.81 (P = 0.0258). Blood clotting progressively decreased after 2 weeks of storage, probably due to the exhaustion of some procoagulant plasma factors.

CONCLUSIONS

Serious hemorrheological disorders, including the decrease in RBC deformability secondary to shape abnormalities, acidosis, and the decrease of blood clotting, start already at the second week of storage and progress up to the end of the storage period. Transfusion of packed RBC older than 7 days may contribute to hemorrheological disorders in critically ill patients.

Morphologic changes of red blood cells during hemorrhagic shock replicate changes of aging

Blood loss leads to the reduction in vitality of red blood cells (RBCs). However, the changes in morphology at different stages of hemorrhagic shock have not been studied. Thus, the aim of this study was to identify and quantitate the sequence of morphological changes in RBCs during hemorrhage. This study was performed on 15 adult inbred dogs. Blood samples were taken before hemorrhage, when the mean arterial pressure reached 40 mm Hg (initial stage of shock), and at a mean arterial pressure level of 20 mm Hg (decompensated stage of shock). The volume of blood removed averaged 33.6+/-8.9 and 55.1+/-6.9 mL/kg, respectively. Evaluation of RBC morphology was performed by computerized light microscopic morphometry and scanning electron microscopy. At the early stage of hemorrhage the number of "young-appearing" RBCs with large visible surface areas (41-50 microm2) increased from 17.7%+/-3.1% to 26.6%+/-3.5% (P < 0.05). Concomitantly, the number of "old-appearing" RBCs with small visible surface area (20-30 microm2) significantly decreased from 5.3%+/-2.7% to 2.7%+/-2.3% (P < 0.01). At the stage of decompensated blood loss, the opposite phenomenon was observed. The number of "old-appearing" RBCs increased to 8.2%+/-1.1% (P < 0.01), whereas the number of "young-appearing" RBCs decreased to 12.3%+/-4.2% (P< 0.01). The changes in visible surface area of RBCs was accompanied by significant alterations in their shape. The percentage of abnormal shaped RBCs increased from 8.9%+/-1.1% before the hemorrhage to 36.4%+/-5.8% at the stage of decompensated hemorragic shock (P < 0.01). Thus, during the late decompensated stage of hemorrhagic shock, RBCs assume shape and surface area changes that are similar to those seen in aging. These changes in RBC size and shape may be due to the effects of shock-induced oxidative stress.

Hemorrhage exacerbates bacterial translocation at low levels of intra-abdominal pressure

BACKGROUND

It has been shown previously that the adverse cardiopulmonary sequelae of increased intra-abdominal pressure (IAP) are worsened by hemorrhage and resuscitation. Bacterial translocation (BT) to the mesenteric lymph nodes (MLNs), liver, and spleen has also been shown to occur with increased IAP.

OBJECTIVE

To investigate the hypothesis that BT associated with elevated IAP would be significantly increased after hemorrhage and resuscitation.

MATERIALS AND METHODS

Anesthetized adult male rats had femoral artery and vein catheters placed, and an intra-abdominal catheter placed to measure IAP. Group 1 underwent surgery only and served as controls. Group 2 had IAP raised to 10 mm Hg by infused lactated Ringer's solution for 40 minutes. Group 3 had a 25% hemorrhage, followed by resuscitation by infused lactated Ringer's solution and shed blood. Group 4 first had a 25% hemorrhage, resuscitated using infused lactated Ringer's solution and shed blood, and then had IAP raised to 10 mm Hg by infused lactated Ringer's solution for 40 minutes. All groups were killed after 2 hours, and had MLNs, liver, and spleen harvested for quantitative cultures.

RESULTS

Hemorrhage and resuscitation alone did not increase BT to the MLNs, liver, or spleen. An increase in IAP to 10 mm Hg resulted in a significant level of BT to the MLNs and liver on MacConkey II agar (P<.05), and a significant increase in the level of BT only to the liver on trypticase soy agar with 5% sheep's blood (P<.05). Hemorrhage and resuscitation did increase the level of BT to the liver and spleen when IAP was increased to 10 mm Hg (P<.05).

CONCLUSIONS

In this model, hemorrhage and resuscitation alone did not increase BT to the MLNs, liver, or spleen. However, hemorrhage and resuscitation increased BT to the liver and spleen when IAP was increased to 10 mm Hg. This supports the concept that prior hemorrhage and resuscitation exacerbates the effects of increased IAP.

Effect of hemorrhage on superior mesenteric artery flow during increased intra-abdominal pressures

BACKGROUND

Elevations in intra-abdominal pressure (IAP) adversely affect organ function. Prior hemorrhage and resuscitation exacerbates the cardiac and pulmonary effects of IAP. We have recently shown that superior mesenteric artery flow (SMAF) is reduced with increasing IAP. This study was designed to determine whether and how hemorrhage and resuscitation affects SMAF with increasing IAP.

METHODS

Ten pigs were divided into two groups after placement of a Doppler flow probe around the proximal SMA and insertion of a pulmonary artery (PA) catheter. Group 1 underwent intraperitoneal infusion of fluid to increase IAP to 10, 20, 30, and 40 mm Hg followed by a 20-minute equilibration period at each IAP. Group 2 was hemorrhaged 20% of circulating volume followed by standard resuscitation. After equilibration, this group had IAP increased in the same manner as group 1. Cardiac output (CO), PA pressures, and SMAF were recorded 1 hour after laparotomy and after equilibration at each IAP. Comparisons were made using repeated measures of analysis of variance, Student's t test, and linear regression analysis.

RESULTS

In group 2, a reduction in SMAF was noted at 30 and 40 mm Hg of IAP when compared with baseline (p = 0.009). This reduction was not seen in group 1. There was also a significant (p = 0.001) reduction in CO between baseline and all levels of increased IAP in group 2. This decrease was again not seen in group 1. The correlation between CO and SMAF in group 2 was r = 0.74, r2 = 0.55, p = 0.0001. There was no significant correlation between CO and SMAF in group 1.

CONCLUSION

SMAF and CO are reduced with increasing IAP to a greater degree when preceded by hemorrhage and resuscitation. Although there is a strong correlation between the reductions in CO and SMAF, the reduction in SMAF is greater than the reduction in CO. This finding suggests that optimizing cardiac function alone during periods of even moderate levels of increased IAP may be inadequate to normalize SMAF. This lends further support for early abdominal decompression in the treatment of trauma patients with increased IAP.

Intestinal permeability correlates with severity of injury in trauma patients

BACKGROUND

Increased intestinal permeability (IP) and the release of toxic intraluminal materials have been implicated in the systemic inflammatory response syndrome (SIRS) and multiple organ failure (MOF) observed in patients after severe trauma. Previous studies of intestinal permeability have failed to demonstrate a correlation between early measurements of IP and indicators of injury severity. This study examines the relationship between standard measures of injury severity and the early (day 1) and delayed (day 4) changes in IP. Associations between IP and the development of SIRS, MOF, and infectious complications were also studied.

METHODS

The metabolically inactive markers lactulose (L) and mannitol (M) were used to measure IP in 29 consecutive patients who sustained injuries that required admission to the surgical intensive care unit and in 10 healthy control subjects. Measurements were made within 24 hours of admission and on hospital day 4. Severity of injury was assessed by A Severity Characterization of Trauma (ASCOT), Trauma and Injury Severity Score (TRISS), Injury Severity Score (ISS), Revised Trauma Score (RTS), and Acute Physiology and Chronic Health Evaluation (APACHE) II score. Postinjury infections and parameters of SIRS and MOF were recorded.

RESULTS

The IP of healthy volunteers (L/M, 0.025 +/- 0.008) was within the normal range (L/M < or = 0.03), whereas the average IP in injured patients was increased both within 24 hours (L/M, 0.139 +/- 0.172) and on the fourth hospital day (L/M, 0.346 +/- 0.699). No significant correlation between severity of injury and increased IP was seen within 24 hours of injury. A significant correlation was seen on hospital day 4, however, with all severity indices measured (ASCOT: r = 0.93, R2 = 0.87, p < 0.001; TRISS: r = 0.93, R2 = 0.87, p < 0.001; ISS: r = 0.84, R2 = 0.70, p < 0.001; RTS: r = 0.68, R2 = 0.47, p = 0.002; APACHE II score: r = 0.51, R2 = 0.26, p = 0.04). Patients with markedly increased IP (L/M > or = 0.100) experienced a significant increase in the development of SIRS (83 vs. 44%; p = 0.03) and subsequent infectious complications (58 vs. 13%; p = 0.01) and showed close correlation with the multiple organ dysfunction scores (r = 0.87, R2 = 0.76, p < 0.001).

CONCLUSION

These observations demonstrate that the increased IP observed after trauma correlates with severity of injury only after 72 to 96 hours and not within the initial 24 hours of injury. A large increase in IP is associated with the development of SIRS, multiple organ dysfunction, and an increased incidence of infectious complications.

The relationship of packed cell transfusion to red blood cell deformability in systemic inflammatory response syndrome patients

RBC deformability (RBCD) is decreased in critically ill patients. This is thought to impede the passage of the RBC through the microcirculation. The cell transit analyzer (CTA) provides an evaluation of RBCD. RBCD was examined in 16 patients admitted to the surgical intensive care unit. CTA analysis was conducted within 24 h of admission to the surgical intensive care unit or as soon as possible thereafter, and then repeated every 72 h. Counts per second (C/s) was the parameter used as an index of RBCD. Patients were classified as Septic/SIRS or nonseptic at the time of each blood collection by standard clinical criteria. There were 34 total specimens, 22 septic/SIRS and 12 nonseptic. The C/s for the SIRS samples (41.7 +/- 3.4 was significantly (p < .05) lower than that of the non-SIRS samples (54.3 +/- 5.3). Seventeen of the Septic/SIRS samples were obtained following blood transfusion. Pearson's test calculated for the C/s and the total number of packed RBC transfusions showed a positive correlation (r = .594) that was statistically significant (p < .02). CTA was also performed on 10 U of banked packed RBC in vitro. Deformability was maintained at a constant level until the very end of the storage period, at which time there was a statistically significant decrease in C/s (p < .0001). These data suggest that packed RBC transfusion is associated with a significant improvement in the abnormally low RBCD seen in critically ill patients. This may be due to replacement of previously rigidified cells by cells with a more normal RBCD.

Hemorrhage lowers the threshold for intra-abdominal hypertension-induced pulmonary dysfunction

BACKGROUND

Intra-abdominal hypertension has been associated with pulmonary and cardiac dysfunctions. We have noted in the clinical scenario of hemorrhagic shock and resuscitation that avoidance of even moderate levels of increased intra-abdominal pressure, using prophylactic decompression, improves outcomes when compared with patients who were decompressed when intra-abdominal pressures went over 20 cm H2O. We hypothesized that prior hemorrhage and resuscitation exacerbates the cardiopulmonary dysfunction associated with intra-abdominal hypertension.

METHODS

Ten anesthetized pigs underwent placement of arterial and pulmonary artery catheters and a Silastic intra-abdominal catheter for measuring and manipulating intra-abdominal pressure. Group 1 animals (n = 5) were subjected to increasing intra-abdominal pressures at 10 mm Hg increments up to a level of 40 mm Hg. Group 2 animals (n = 5) were exposed to a severe hemorrhage and resuscitation before the increasing intra-abdominal pressure protocol.

RESULTS

Compared with baseline, hemorrhage and resuscitation caused a significant deterioration in cardiac output at intra-abdominal pressures of 10 mm Hg and above. Oxygenation was reduced at 30 and 40 mm Hg. These changes were not seen in group 1 animals. A significant difference was found between groups 1 and 2 in VT, PaCO2, and PaCO2/FIO2 ratio at an intra-abdominal pressure of 20 mm Hg. This difference was not seen at lower or higher pressures.

CONCLUSIONS

Prior hemorrhage and resuscitation caused an earlier decline in cardiopulmonary function in the setting of increased intra-abdominal pressure. These data suggest that, when interpreting intra-abdominal pressures, the clinical scenario must be considered. Prior hemorrhage and resuscitation produce the adverse consequences of intra-abdominal hypertension at lower pressures than when intra-abdominal hypertension is the only insult.

Laparoscopic cholecystectomy in the inner-city hospital

Laparoscopic cholecystectomy (LCCY) has become the treatment of choice for patients undergoing elective CCY. Inner-city hospitals treat a large number of patients with advanced or acute disease, and the ability to perform LCCY in this patient population is unclear. The records of the first 107 patients undergoing LCCY were reviewed. There were 96 women and 11 men with a mean age of 42 years (range 14-86 years). Twenty-seven (42%) of the patients were admitted through the emergency room and were operated upon urgently, whereas 35 (58%) underwent elective LCCY. More than two-thirds of the patients were either uninsured or covered by Medicaid. In the urgent group, 38% had gallstone pancreatitis, 41% had abnormal LFTs, and 26% had a WBC > 13,000. A total of 70% of these patients were discharged within 48 hours after LCCY. The conversion rate was 9% and was similar between urgent and elective LCCY. In summary, acute biliary tract pathology accounted for one-half of the patients undergoing LCCY in our hospital. In conclusion, LCCY can be performed in this group of patients with low morbidity, especially if the need for liberal conversion to open CCY is recognized.

Correlation between red blood cell deformability and changes in hemodynamic function

BACKGROUND

In sepsis red blood cells (RBCs) have been shown to be less deformable (i.e., more rigid) and have been implicated in decreasing nutrient blood supply and possibly leading to organ dysfunction. However, no studies have demonstrated an association between organ dysfunction and rigid RBCs. This study examined cardiovascular physiologic and histologic changes in two different models to determine whether a relationship may exist between RBC deformability and organ function.

METHODS

In the following two experiments, cardiac index (CI) was continuously measured, whereas both deformability index and histology were examined at the end of the experimental periods. The first experiment studied nonanesthetized, hydrated rats after a cecal ligation and puncture (CLP), a slow-developing means of inducing RBC rigidity. In a second experiment animals were anesthetized and received a 20% total blood volume transfusion of either diamide-treated (rigid) RBCs or normal RBCs.

RESULTS

CLP-treated animals' CI gradually decreased during 18 hours (232 +/- 60 ml/min/kg to 123 +/- 90 ml/min/kg; p = 0.05), with an increase in systemic vascular resistance (1459 +/- 517 dyne.sec/cm5.m2 to 2337 +/- 1213 dyne.sec/cm5.m2; p = 0.02). Diamide-treated animals had a rapid decrease in CI (86 +/- 7.0 ml/min/kg to 58 +/- 13 ml/min/kg; p = 0.05) and increase in SVR (2269 +/- 373 dyne.sec/cm5.m2 to 3897 +/- 988 dyne.sec/cm5.m2; p = 0.05) from baseline to 120 minutes after treatment respectively. The DI was significantly lower in both CLP and diamide groups (p < 0.03) when compared with control animals. Histologic evidence of subendocardial necrosis was shown in both the CLP- and Diamide-treated animals.

CONCLUSIONS

These data suggest an association with RBC deformability and organ function in both septic and nonseptic animal models.

Decreased red blood cell deformability and impaired oxygen utilization during human sepsis

Sepsis is characterized by decreased microcirculatory flow and increased peripheral shunting. Previous studies have shown red blood cell deformability (RCD) is decreased during sepsis. The purpose of this study was to evaluate the effect of changes in RCD on hemodynamics and oxygen utilization during sepsis. RCD, arteriovenous oxygen difference (DA-VO2), mixed venous oxygen saturation (MVO2), intrapulmonary shunt (QS/QT), cardiac index, and systemic vascular resistance were measured in 10 trauma patients, all of whom had or developed clinical sepsis. Data are expressed as mean +/- SD. Patients with normal RCD (> 0.75) were compared with those with low RCD (< 0.75). Patients with low RCD had a significantly higher incidence of sepsis (100% vs. 20%, P < 0.05, Student's t test or Fisher's Exact Test), lower DA-VO2 (2.4 +/- 0.9 vs. 4.8 +/- 1.5 P < 0.05, Student's t test or Fisher's Exact Test), and higher MVO2 (79 +/- 8 vs. 65 +/- 11 P < 0.05, Student's t test) or Fisher's Exact Test) than those patients with normal RCD. There was a direct correlation between RCD and DA-VO2 (r = 0.852, P < 0.001). MVO2 correlated inversely with changes in RCD (r = 0.813, P < 0.001). No significant correlation existed between RCD and cardiac index or systemic vascular resistance. Patients with low RCD demonstrated impaired oxygen utilization; changes in RCD correlated closely with changes in DA-VO2 and MVO2. These data suggest that decreased RCD may have an etiologic role in the impaired oxygen utilization that occurs during sepsis.

The role of laparoscopy in abdominal trauma

Thirty-nine hemodynamically stable trauma patients were evaluated prospectively by laparoscopy before planned celiotomy. Laparoscopy was performed using a forward-viewing laparoscope connected to two high-resolution video monitors. The mechanism of injury was blunt trauma in eight, stab wounds (SWs) in 16, and gunshot wounds (GSWs) in 15. Laparoscopy correctly identified the presence of an intraperitoneal injury in 26 patients. Six other patients had retroperitoneal injuries, five of which were seen on laparoscopy. The remaining seven patients had no demonstrable intraperitoneal or retroperitoneal injuries, did not undergo celiotomy, and were observed without morbidity. In comparison with findings at surgery, laparoscopy identified injuries to the liver in eight of ten, to the diaphragm in three of three, to the colon in two of three, to the stomach in three of three, to the kidney in one of one, to the spleen in none of three, and to the small bowel in none of four patients. Visualization of the spleen was achieved in only one patient. The extent of the hemoperitoneum was underestimated from the laparoscopic examination in all nine patients with greater than 750 mL of peritoneal blood, four of whom had undetected active bleeding. Laparoscopy was performed easily in all patients and there were no complications associated with its use. In conclusion, the absence of an intra-abdominal injury was correctly identified with laparoscopy in 11 patients and laparoscopy may decrease the need for celiotomy in selected patients. However, the inability to "run the small bowel," visualize the spleen, and evaluate hemorrhage limits the utility of laparoscopy in determining which patients with laparoscopically visualized injuries will require celiotomy.

Red cell deformability is an early indicator of infection

Red blood cells (RBC) have been shown to become less deformable during infection. The RBC deformability index (DI) was measured within 24 hours of admission in 37 patients who had suffered trauma and every 48 to 72 hours thereafter while they were in the surgical intensive care unit to assess whether DI could be used as an early indicator of infection after injury. Infection was defined as a temperature of 101 degrees F or more and a white blood cell count of more than 12,000/cm3 associated with a positive culture. Eighteen patients developed an infection, and 19 patients did not. On day 1, both groups showed a significant decrease in DI, compared to controls (0.33 +/- 0.18 and 0.34 +/- 0.25 for patients with infection and patients with no infection vs 1.52 +/- 0.12 for control volunteers; p less than 0.05). In the group with no infection, the DI improved in 16 of 19 patients after injury; the DI in patients with infection continued to decrease in 17 of 18 patients. The decrease in DI occurred 4 +/- 2 days (range, 2 to 8 days) before the diagnosis of infection. No significant differences were apparent in the absolute white blood cell count between the group with infection and the group with no infection at any time after injury. Differences in maximal temperature were noted on day 3 and beyond; however, 30% of patients with no infection had a temperature of more than 101 degrees F for 7 days. These data show that trauma results in a significant decrease in RBC deformability and that serial changes in DI appeared to predict which patients would develop an infection and which patients would recover uneventfully. RBC deformability may be helpful in early detection of infection in patients who have suffered trauma.

Oxygen free radicals: effect on red cell deformability in sepsis

OBJECTIVE

To examine the effect of alpha-tocopherol, a free radical scavenger, on RBC deformability, mixed venous hemoglobin saturation (SvO2), arterial-venous oxygen content difference (C[a-v]O2), pHv, and survival during sepsis.

DESIGN

Randomized controlled study.

INTERVENTIONS

Sprague-Dawley rats were randomized to three groups: sham, cecal ligation and puncture, or alpha-tocopherol/cecal ligation and puncture (pretreatment with alpha-tocopherol before cecal ligation and puncture).

MEASUREMENTS AND MAIN RESULTS

The cecal ligation and puncture group had a significantly (p less than .05) higher SvO2 and lower C (a-v)O2, pHv, and survival rate when compared with alpha-tocopherol/cecal ligation and puncture and sham groups. No difference in pHa existed between groups.

CONCLUSIONS

The alpha-tocopherol treatment improves survival in sepsis. RBC deformability during sepsis is prevented by alpha-tocopherol, suggesting that free radicals may cause the decrease in RBC deformability. This study provides indirect evidence that decreased RBC deformability may play a role in the physiologic peripheral shunting and decreased microcirculatory flow that occurs during sepsis.

Effect of oxygen-free radical scavengers on survival in sepsis

Sepsis remains a leading cause of death in the surgical intensive care unit (SICU) patient following major surgery or trauma. Recent work has demonstrated that oxygen-free radicals (OFR) generated during sepsis contribute to the pathogenesis of this syndrome. The purpose of this study was to evaluate the effect of various new free radical scavengers on survival in sepsis. A total of 85 male Sprague-Dawley rats were placed into one of the following treatment groups.

CONTROL

cecal ligation and puncture (CLP); PRE-AT: pretreatment with alpha-tocopherol (AT) 10 mg/100 gm SC x 3 days, and 5 mg/100 gm IV prior to CLP; AT: 20 mg/100 gm at time of CLP and 4 hours following CLP; U74006F: (21-aminosteroid which inhibits lipid peroxidation) 3 mg/kg IV at the time of and 4 hours following CLP; U78517F: (alpha-tocopherol analogue) 3 mg/kg at the time of and 4 hours following CLP. Survival was determined at various time points up to 72 hours. Pretreatment with AT resulted in improved survival, whereas the novel OFR scavengers U78517F and U74006F significantly improved survival and were efficacious without pretreatment. It was concluded that OFR scavengers can improve survival in sepsis.

A comparison of intravenous access sites for bolus injections during shock and resuscitation after emergency room thoracotomy with and without aortic crossclamping

Thoracotomy with aortic crossclamping is used to resuscitate trauma victims. Pharmacologic boluses are often given via intravenous lines of central, brachial, or femoral origin. This study was undertaken to determine the efficacy of intravenous access site on delivery of a bolus injection to the heart with thoracotomy and aortic crossclamping during shock and resuscitation. Six dogs were anesthetized, intubated, and underwent brachial and femoral venotomy and Swan-Ganz insertion (central). Baseline measurements of central, brachial, and femoral transit times for 10 cc cold saline were obtained via Swan-Ganz thermistor. Each animal then underwent thoracotomy, aortic crossclamping alone, hemorrhage to blood pressure (BP) 50 mm Hg for 30 minutes with aorta unclamped and then aorta crossclamped and resuscitation with lactated Ringer's Solution with aorta unclamped and then crossclamped. Femoral-Brachial Index (FBI) was determined by dividing femoral transit time by brachial transit time at each observation. The data suggest that femoral access significantly prolongs bolus transit time when compared with central or brachial access during aortic crossclamping in the euvolemic, shock, or aggressively resuscitated model. Brachial access is therefore the preferred route for bolus injection delivery in the emergency room thoracotomy with or without aortic crossclamping because it provides expedient bolus delivery equal to central access and superior to femoral access.

Organ distribution of radiolabeled enteric Escherichia coli during and after hemorrhagic shock

Translocation of intestinal bacteria to the blood during hemorrhagic shock (HS) has been confirmed in rats and humans. The current study was designed to trace the path of translocated intestinal bacteria in a murine HS model. Thirty-one rats were gavaged with 1,000,000 counts of viable 14C oleic acid-labeled Escherichia coli. Forty-eight hours later the animals were bled to 30 mmHg until either 80% of their maximal shed blood was returned or 5 hours of shock had elapsed and they were resuscitated with Ringer's lactate as previously described. Control animals were cannulated but not shocked. Eight rats immediately after shock and resuscitation, 6 rats 24 hours after shock, 3 rats 48 hours after shock, and 4 animals that died in shock had their heart, lung, liver, spleen, kidney, and serum harvested, cultured, and radioactive content measured. Translocated enteric bacteria are found primarily in the lung immediately after shock with redistribution to the liver and kidney 24 hours later. Animals surviving to 48 hours were capable of eliminating the majority of the bacteria from their major organ systems. Positive cultures for E. coli were also found in the blood, lung, liver, and kidney. We speculate that the inflammatory response stimulated by the bacteria in these organs may contribute to the multiple-organ failure syndrome seen after HS.

Kupffer cell-hepatocyte interactions and the changes in 1-14C-arachidonate incorporation in response to endotoxin in vitro

The present experiments were undertaken to elucidate the effect of either the hepatocyte (HC) or hepatocyte supernatant on prelabeled endotoxin (LPS)-stimulated Kupffer cell (KC) arachidonic acid utilization. HC, KC, or their coculture were incubated for 18 hours with labeled 1-14C- arachidonic acid followed by a 24 hour incubation with 10 micrograms/ml LPS. LPS had no effect on the percent distribution of labeled arachidonate into the HC phospholipid or neutral lipid. KC showed a decreased percent neutral lipid labeled arachidonic acid distribution with generally no effect on the phospholipid. However, KC:HC cocultures or the addition of HC supernatant to KC exposed to LPS dramatically reversed the labeled arachidonate distribution into the KC with an increased incorporation into neutral lipid. Labeled PGE2 and PGD2 were increased in the KC following incubation with HC supernatant while only labeled PGE2 levels were elevated in the cocultures. The changes in the distribution of cell's labeled arachidonate required the addition of LPS. These results suggest that the HC can promote changes in the lipid fraction during sepsis by elaborating a substance that can modulate labeled arachidonate distribution in the KC lipids as well as stimulate prostaglandin production.

Hepatocyte modulation of Kupffer cell prostaglandin E2 production in vitro

It is likely that dynamic interactions between hepatocytes and Kupffer cells contribute to the responses of these cell types both under normal conditions and during sepsis. In this study, we examined the influences of hepatocytes on the concentration of the inflammatory mediator PGE2 in Kupffer cell cultures. Evidence to suggest that cultured rat hepatocytes both metabolize PGE2 and produce a substance that promotes LPS-stimulated Kupffer cell PGE2 biosynthesis include the following: 1) PGE2 levels in Kupffer cell: hepatocyte coculture were lower than the levels in Kupffer cell cultures early after LPS stimulation; 2) 36 h after LPS, coculture PGE2 levels exceeded the levels in Kupffer cell cultures despite the demonstrated capacity for hepatocytes to metabolize PGE2; 3) a transferable, non-dialyzable, and heat-unstable factor in hepatocyte supernatant promoted PGE2 production when added to Kupffer cells with LPS or after LPS; 4) there was no increased PGE2 synthesis when the hepatocyte supernatant was added without LPS or if hepatocyte supernatant was preincubated with the Kupffer cells for 6 or 18 h before LPS administration; 5) there was an inability of the hepatocyte factor to promote PGE2 production in response to other macrophage-activating agents, including calcium ionophore A23187 or phorphol myristate acetate; and 6) there was no increased cell replication or protein synthesis in the Kupffer cell cultures following hepatocyte supernatant incubation. The increased Kupffer cell PGE2 production by the hepatocyte supernatant was not due to contamination of the hepatocyte supernatant by endotoxin or PGE2. These in vitro results raise the possibility that hepatocytes have the capacity to modulate local PGE2 levels by two distinct mechanisms. Hepatocytes can metabolize PGE2 as well as release factor(s) which promote LPS-induced PGE2 production by Kupffer cells.

Organ distribution of gut-derived bacteria caused by bowel manipulation or ischemia

Translocation of carbon-14-labeled Escherichia coli from the gut was studied at the specified times in the following groups of rats: Group 1, 5 hours after ligation of the superior mesenteric artery; Group 2, 5 hours after laparotomy and exposure of the superior mesenteric artery with gentle removal and replacement of the intestines; and Group 3, 5 hours after handling but no surgical manipulation. Both living and dead bacteria were administered by means of gavage, and the effect of viability, intestinal ischemia without reperfusion, and bowel manipulation on the translocation of enteric bacteria was assessed. We demonstrated that (1) even gentle bowel manipulation causes bacteremia as great as that associated with ligation of the superior mesenteric artery; (2) dead E. coli are absorbed into the blood in the presence of bowel manipulation or ischemia but less effectively than are live E. coli; (3) live bacteria are found in highest concentration in the lung and in descending order in the liver, kidney, heart, and spleen; (4) dead bacteria absorbed from the gut are found in highest concentration in the kidney and the liver. Lesser amounts are found in the lung, spleen, and heart.

The incidence of decreased red blood cell deformability in sepsis and the association with oxygen free radical damage and multiple-system organ failure

We studied the incidence of decreased red blood cell deformability (RBCD) in sepsis and the association between decreased RBCD and oxygen free radical generation (as measured by malonyldialdehyde) and the occurrence of multiple-system organ failure (MSOF). Patients were divided into three groups: septic (n = 28), nonseptic (n = 15), and control (n = 5). Serial measurements of deformability index, malonyldialdehyde, and MSOF were made. The deformability index for the septic group (0.23 +/- 0.17) was significantly less than that for the nonseptic (1.12 +/- 0.48) and control (1.11 +/- 0.25) groups. The malonyldialdehyde levels for the septic group (4.5 +/- 1.0 nmol/mL) were significantly greater than those for the nonseptic (2.7 +/- 0.9 nmol/mL) and control (2.6 +/- 0.8 nmol/mL) groups. The MSOF index for the septic group (10.1 +/- 2.5) was significantly greater than that for the nonseptic (7.6 +/- 1.7) and control (6.0 +/- 0.0) groups. An inverse correlation existed between malonyldialdehyde and deformability index ( = .501, less than .001, n = 40) and between deformability index and MSOF index (= .350, less than .05, n = 61). We conclude that RBCD is decreased during human sepsis; free radicals generated during sepsis may play a role in the decrease in RBCD. Decreased RBCD may contribute to the MSOF that occurs during sepsis.

Does the bacteremia observed in hemorrhagic shock have clinical significance? A study in germ-free animals

We have recently reported the rapid appearance of bacteria and endotoxin in the blood of rats and of trauma patients in the course of 30 minutes to 2 hours of hemorrhagic shock. The current study was designed to determine the effect of this bacteremia and endotoxemia on survival. Thirty-three conventional (C:group 1) and 36 germ-free (GF:group 2) Sprague Dawley rats were subjected to our previously described model of treated hemorrhagic shock. Survival in the GF group was significantly better than the C group at 24, 48, and 72 hours after shock. Endotoxin levels were elevated in 88% of C group during shock and in 28% of GF group. The gut of the GF animal contains endotoxin (26 ng/gm of stool) as does the sterile food supply (393 ng/gm of rat chow).

Endotoxemia and bacteremia during hemorrhagic shock. The link between trauma and sepsis?

Previous investigations of a treated model of hemorrhagic shock in the rat indicated the frequent occurrence of bacteremia that appeared to derive from the gut. This paper determines the incidence of bacteremia and endotoxemia during the acute shock period and compares this with similar observations in humans in varying degrees of shock. Studies in 26 rats indicated that bacteremia and endotoxemia was present in 50% and 87%, respectively, by the end of 2 hours at a mean arterial pressure of 30 mmHg. Observations in 50 patients admitted to the trauma unit showed that positive bacterial blood cultures were present in 56% when the admission systolic blood pressure was 80 mmHg or less (p less than 0.01 compared with either of the other groups). Endotoxemia was noticed in two such patients. Direct access of bacteria and endotoxin to the blood stream may occur during hemorrhagic or traumatic shock and is the probable cause of subsequent sepsis in traumatized patients when no other source is apparent.

Intra-abdominal infection following combined spleen-colon trauma

The reality of late overwhelming post-splenectomy sepsis in adults as well as children has led to more frequent attempts at splenic salvage following splenic trauma. Less attention has been paid to early septic postoperative complications in the splenectomized patient. Associated colon injury has been believed to be a relative contraindication to splenic conservation. If splenectomy enhances the chance of early postoperative infection, then associated colon injury should be an indication for splenic salvage One hundred sixty one patients who had either splenic trauma (58), colon trauma (90), or combined spleen-colon trauma (13) were studied. All patients with splenic trauma had a splenectomy. There was a significantly higher incidence of intra-abdominal sepsis requiring reoperation in the spleen-colon patients (46.7%) than in either of the other groups (spleen = 5.7%, colon = 8.9%, P less than .002 for both comparisons). It is concluded that splenectomy enhances infection in the early postoperative period. When possible, combined spleen-colon trauma should be an indication rather than a contraindication for splenic salvage.

Temporal relationship of hepatocellular dysfunction and ischemia in sepsis

To determine whether hepatic dysfunction in sepsis results from hypoperfusion or direct cellular injury, Sprague-Dawley rats underwent either cecal ligation and puncture or sham operation. After either two or six hours, effective hepatic blood flow was measured using the galactose clearance method. Hepatocytes were isolated and intracellular sodium and potassium and glucose production were measured. Hepatic blood flow in septic rats decreased as early as two hours after sepsis when compared with sham-operated rats (3.8 +/- 1.4 vs 8.7 +/- 3.1 mL/min/100 g body weight). Intracellular sodium and potassium levels and glucose production in septic rats were not significantly different when compared with controls at two hours. After six hours, hepatic blood flow remained depressed and intracellular sodium level was increased compared with sham-operated rats (41.7 +/- 10.4 vs 31.4 +/- 5.9 mmol/L [41.7 +/- 10.4 vs 31.4 +/- 5.9 mEq/L]) and potassium decreased compared with controls (90.7 +/- 7.9 vs 111.5 +/- 6.7 mmol/L [90.7 +/- 7.9 vs 111.5 +/- 6.7 mEq/L]). Glucose production was decreased in septic rats after six hours when compared with controls (4.7 +/- 1.5 vs 15.4 +/- 6.4 mumol/g hepatocytes). These data suggest that hepatic blood flow is decreased before alterations in intracellular sodium and potassium as well as glucose production.

Detection of sepsis in the postoperative patient

It becomes evident, therefore, that there is no one indicator, either clinical or laboratory, sufficient to diagnose infection in the postoperative patient. Only a skillful clinician using the multiple modalities available and combining them with a careful history and physical examination and a high index of suspicion will be able to diagnose and treat infection in a timely manner and so avoid the physical, emotional, and fiscal costs of a late or missed diagnosis.

The gut as source of sepsis after hemorrhagic shock

In a model of severe hemorrhagic shock in rats, blood culture findings became positive within 2 to 4 hours of shock. The organisms cultured were primarily gram-negative. To test the hypothesis that the gut was the source of the bacteria, E. coli labeled with carbon-14 oleic acid were fed to rats undergoing hemorrhagic shock. Their plasma was then assayed for carbon-14 activity. Seven of the 14 shocked animals demonstrated increased plasma carbon-14 activity during or after shock. The mortality rate was 100 percent 80 hours postshock, and all animals had E. coli on subsequent blood culture. The seven rats without increased plasma carbon-14 activity had a survival rate of 83 percent postshock. Sham-shocked animals did not exhibit plasma carbon-14 levels greater than the background levels. These data suggest that bacterial translocation occurs during hemorrhagic shock and that the gut is the source of the bacteremia seen during hemorrhagic shock.

Red blood cell deformability in human and experimental sepsis

Red blood cell (RBC) "deformability" is necessary for maintenance of normal microcirculation. To determine whether RBC deformability was affected in human or murine sepsis, a deformability index was determined in a human study and a murine model. Deformability was decreased postoperatively in patients with sepsis (0.49 +/- 0.12) compared with patients without sepsis (1.62 +/- 0.13) and normal control volunteers (1.51 +/- 0.17). Deformability was decreased in rats that had undergone cecal ligation and puncture (0.37 +/- 0.06) compared with that of sham-operated rats (0.76 +/- 0.12), as well as in endotoxemic rats (0.38 +/- 0.4) compared with control rats (0.82 +/- 0.11). These data suggest that RBC deformability decreases in both human and murine sepsis. This effect could be an important factor in the disordered oxygen utilization noted in human sepsis, and its correction could lead to better tissue oxygenation and preserved organ function.

Occurrence of bacteremia during and after hemorrhagic shock

In recent research, hemorrhagic shock and septic shock have been studied as two separate entities. We have developed a treated model of hemorrhagic shock in which unrestrained and unanesthetized rats are bled to a mean arterial pressure of 30 torr until 80% of the maximum shed volume must be returned. Rats are maintained preshock and treated post shock with a 20% glucose-electrolyte solution. Survival of these animals is 62% at 24 hours post shock and all animals are dead at 72 hours post shock. Blood cultures obtained during shock become positive at 2 hours into the shock period and are significant compared to controls at 3 to 5 hours of shock (p less than 0.0001). Blood cultures obtained after the period of shock are significantly positive at 24 and 48 hours post shock (p less than 0.05) compared to controls. Intrashock cultures are monomicrobial; the majority of post-shock cultures are polymicrobial. All cultured organisms are normal rat enteric flora. Histologic changes of renal failure are also demonstrated post shock. We suggest that bacterial invasion, possibly from the gut, plays a role in the sepsis seen in patients following severe hemorrhagic shock. Sepsis may precede rather than follow the immune incompetence which accompanies shock.

Unsuspected perforation in bleeding duodenal ulcers

A combination of bleeding and perforation rarely occurs simultaneously in peptic ulcer disease. The charts of 127 patients undergoing surgery for either complication were reviewed (bleeding, 91; perforation, 36). Nine of 91 (9.9%) patients in the bleeding group were found at operation to have a unsuspected perforated duodenal ulcer. The operative mortality in the patients with the combined complications (44%, 4/9) was significantly higher than that in patients with bleeding alone (8/82, 9.8, P less than 0.001) or those with perforation alone (4/36, 11.00, P less than 0.025). The mean age of nonsurvivors was significantly higher than that of the survivors (74 +/- 8.01 vs 50.4 +/- 5.65 years, P less than 0.005). The duration of symptoms until operation was longer in patients who died (63 +/- 12.7 hours) than in survivors (40.2 +/- 6.02 hours, P = NS). All patients who died, and three of five survivors, had preoperative fever (greater than 99.0 F), leukocytosis (greater than 12,000/mm3), and persistent tachycardia despite adequate hydration and blood replacement. Perforation in bleeding peptic ulcers is not an uncommon finding, and was present in 9.9 per cent of patients. The presenting symptom of bleeding may obscure signs of perforation, delay surgery, and contribute to the higher mortality rate. The presence of fever, leukocytosis, and tachycardia despite adequate fluid and blood replacement warrants a suspicion of perforation in patients with bleeding peptic ulcer.