Role of heme modulation in inhibition of Atheris, Atractaspis, Causus, Cerastes, Echis, and Macrovipera hemotoxic venom activity

Venomous snake bite and subsequent coagulopathy is a significant source of morbidity and mortality worldwide. The gold standard to treat coagulopathy caused by these venoms is the administration of antivenom; however, despite this therapy, coagulopathy still occurs and recurs. Of interest, our laboratory has demonstrated in vitro and in vivo that coagulopathy-inducing venom exposed to carbon monoxide (CO) is inhibited, potentially by an attached heme. The present investigation sought to determine if venoms derived from snakes of the African genera Atheris, Atractaspis, Causus, Cerastes, Echis, and Macrovipera that have no or limited antivenoms available could be inhibited with CO or with the metheme-inducing agent, O-phenylhydroxylamine (PHA). Assessing changes in coagulation kinetics of human plasma with thrombelastography, venoms were exposed in isolation to CO or PHA. Eight species were found to have procoagulant activity consistent with the generation of human thrombin, while one was likely fibrinogenolytic. All venoms were significantly inhibited by CO/PHA with species-specific variation noted. These data demonstrate indirectly that the heme is likely bound to these disparate venoms as an intermediary modulatory molecule. In conclusion, future investigation is warranted to determine if heme could serve as a potential therapeutic target to be modulated during treatment of envenomation by hemotoxic enzymes.

Effects of iron and carbon monoxide on Lachesis muta muta venom-mediated degradation of plasmatic coagulation

Hypofibrinogenemia is an important clinical consequence following envenomation by Lachesis muta muta, usually attenuated or prevented by administration of antivenom. The venom of L. m. muta contains both a metalloproteinase fibrinogenase and a serine protease thrombin-like enzyme, and exposure of fibrinogen to iron (Fe) and carbon monoxide (CO) has been demonstrated to decrease its catalysis by such enzymes. Using thrombelastographic analytical techniques, it was determined that this venom displayed weak procoagulant effects combined with fibrinogenolytic effects, and pretreatment of plasma with Fe and CO markedly attenuated venom-mediated effects. Additional experiments involving heparin exposure and varying calcium concentrations demonstrated that modification of fibrinogen with Fe and CO in human plasma rendered fibrinogen not recognizable to the fibrinogenolytic metalloproteinase but did not prevent polymerization by the thrombin-like serine protease. Lastly, when venom was exposed to CO in isolation and then placed in plasma, the fibrinogenase was inhibited but the thrombin-like enzyme was not inhibited. In sum, utilizing relatively facile modifications, we demonstrated with thrombelastography that Fe and/or CO addition can protect human plasmatic coagulation from fibrinogenase activity but not the effects of the thrombin-like activity of L. m. muta venom.

Iron and carbon monoxide prevent degradation of plasmatic coagulation by thrombin-like activity in rattlesnake venom

Thousands suffer poisonous snake bite, often from defibrinogenating species annually. Three rattlesnake species in particular, the timber rattlesnake, Eastern diamondback rattlesnake, and Southern Pacific rattlesnake, cause clinically relevant hypofibrinogenemia via thrombin-like activity in their venom. It has been demonstrated that iron (Fe) and carbon monoxide (CO) change the ultrastructure of plasma thrombi and improve coagulation kinetics. Thus, the present investigation sought to determine if pretreatment of plasma with Fe and CO could attenuate venom-mediated catalysis of fibrinogen via thrombin-like activity. Human plasma was pretreated with ferric chloride (0-10 μM) and CO-releasing molecule-2 (0-100 μM) prior to exposure to 2.5-10 μg/ml of venom obtained from the aforementioned three species of rattlesnake. Coagulation kinetics were determined with thrombelastography. All three snake venoms degraded plasmatic coagulation kinetics to a significant extent, especially diminishing the speed of clot growth and strength. Pretreatment of plasma with Fe and CO completely abrogated the effects of all three venoms on coagulation kinetics. Further in vitro investigation of other pit viper venoms that possess thrombin-like activity is indicated to see if there is significant conservation of venom enzymatic target recognition of specific amino acid sequences such that Fe and CO can reliably attenuate venom-mediated catalysis of fibrinogen. These data also serve as a rationale for future preclinical investigation.

Effects of aprotinin on plasma coagulation kinetics determined by thrombelastography: role of Factor XI

BACKGROUND

Aprotinin is commonly administered in settings involving cardiopulmonary bypass and liver transplantation to decrease peri-operative bleeding. Thrombelastography has been utilized to monitor coagulation in these settings, and aprotinin delays clot initiation, presumably by inhibiting kallikrein; however, aprotinin also inhibits Factor XI (FXI), a contact system protein. Thus, it was hypothesized that celite-activated thrombelastography coagulation kin-etics would be decreased via aprotinin-mediated FXI inhibition.

METHODS

Citrated normal plasma and prekallikrein-deficient (<1% normal activity) plasma were exposed to 0, 200, 400 or 800 kallikrein inhibitory units (KIU)/ml (n = 6 per condition). Samples were recalcified and celite-activated in a thrombelastograph, with clot initiation (R, s) determined. To confirm contact system specificity, additional prekallikrein-deficient samples with 0 or 800 KIU/ml aprotinin were activated with tissue factor (n = 4 per condition).

RESULTS

Exposure of celite-activated, normal plasma to aprotinin 0, 200, 400 or 800 KIU/ml resulted in R values of 167 +/- 14, 253 +/- 10, 293 +/- 22 and 349 +/- 21 s, respectively, which were significantly different from one another (P < 0.05). Exposure of celite-activated, prekallikrein-deficient plasma to aprotinin 0, 200, 400 or 800 KIU/ml resulted in R values of 366 +/- 15, 630 +/- 64, 698 +/- 46 and 850 +/- 47 s, respectively, which were significantly different from one another (P < 0.05). There were no significant differences in R values between tissue factor-activated, prekallikrein-deficient plasma samples with 0 or 800 KIU/ml aprotinin.

CONCLUSIONS

These data support a role for the inhibition of FXI as the mechanism for aprotinin-mediated delayed contact system clot initiation determined by thrombelastography.

Effects of PentaLyte and Voluven hemodilution on plasma coagulation kinetics in the rabbit: role of thrombin-fibrinogen and factor XIII-fibrin polymer interactions

BACKGROUND

Hydroxyethyl starch (HES) administration has resulted in decreased hemostasis and fibrinogen (FI)-thrombin-(FIIa)-Factor XIII (FXIII) interactions. I proposed to determine the hemostatic effect of hemodilution with PentaLyte (6% HES, mean molecular weight 220 kDa) and Voluven (6% HES, 130 kDa).

METHODS

Rabbits were intravenously administered 20 ml/kg PentaLyte or Voluven (n = 8 per fluid) over 10 min. Plasma was obtained prior to, 1 min and 1 h after hemodilution. Thrombelastography was performed, with clot initiation (R, sec), clot propagation (alpha, degrees), and clot strength (shear elastic modulus, G, dynes/cm2) determined over 20 min. Celite-activated samples had either no additions or addition of FI, FIIa or activated FXIII (FXIIIa) to restore protein content to pre-diluted values.

RESULTS AND CONCLUSIONS

While there were no significant differences between the groups, R significantly decreased 1 h after hemodilution compared with values observed before and 1 min after hemodilution, whereas alpha and G significantly decreased 1 min after hemodilution and then significantly, but only partially, increased 1 h after hemodilution compared with pre-dilution values. Addition of FI, FIIa and FXIIIa significantly decreased R in both groups. alpha and G 1 min after hemodilution were significantly enhanced by FI, FIIa, FXIIIa in both groups; however, 1 h after hemodilution, rabbits administered PentaLyte had alpha and G enhanced only by FI and FXIIIa addition, whereas animals administered Voluven had alpha and G significantly enhanced by FI addition. PentaLyte and Voluven hemodilution initially diminishes FIIa-FI and FXIIIa-fibrin, but within an hour primarily inhibit FXIIIa-fibrin interactions in the rabbit.

Colloids decrease clot propagation and strength: role of factor XIII-fibrin polymer and thrombin-fibrinogen interactions

Colloid-mediated hypocoagulability is clinically important, but the mechanisms responsible for coagulopathy have been incompletely defined. Thus, my goal was to elucidate how colloids decrease plasma coagulation function. Plasma was diluted 0% or 40% with 0.9% NaCl, three different hydroxyethyl starches (HES, mean molecular weight 450, 220 or 130 kDa), or 5% human albumin. Samples (n=6 per condition) were activated with celite, and diluted samples had either no additions or addition of fibrinogen (FI), thrombin (FIIa) or activated Factor XIII (FXIIIa) to restore protein function to prediluted values. Thrombelastographic variables measured included clot propagation (angle, alpha), and clot strength (amplitude, A; or shear elastic modulus, G). Dilution with 0.9% NaCl significantly decreased alpha, A and G-values compared to undiluted samples. Supplementation with FI, but not FIIa or FXIIIa, resulted in 0.9% NaCl-diluted thrombelastographic variable values not different from those of undiluted samples. FI supplementation of HES 450, HES 220, HES 130 and albumin-diluted samples only partially restored alpha, A and G-values compared to undiluted samples. FIIa addition only improved clot propagation and strength in albumin-diluted samples. FXIIIa supplementation improved propagation in samples diluted with HES 450, HES 220 and albumin, and clot strength improved in HES 450 and albumin-diluted plasma. Considered as a whole, these data support compromise of FIIa-FI and FXIIIa--fibrin polymer interactions as the mechanisms by which colloids compromise plasma coagulation. Investigation to determine if clinical enhancement of FXIII activity and/or FI concentration (e.g. fresh-frozen plasma, cryoprecipitate) can attenuate colloid-mediated decreases in hemostasis is warranted.

Effects of coagulation factor deficiency on plasma coagulation kinetics determined via thrombelastography: critical roles of fibrinogen and factors II, VII, X and XII

BACKGROUND

Thrombelastography (TEG) is used to assess coagulopathy. However, a comprehensive characterization of the effects of specific coagulation factor deficiencies and mode of activation on TEG data does not exist.

METHODS

Thrombelastography was performed for 15 min with control plasma and plasmas deficient (<1% activity) in Factors II, V, VII, VIII, IX, X, XI, XII, or XIII activated with celite (0.28 mg ml(-1)) or tissue factor (TF, 0.1%) (n = 6 per condition). Additional fibrinogen concentration activity (75-345 mg dl(-1)) and Factor II, VII, X and XII activity-response relationships (1%, 6.25%, 12.5%, 25%, 50% and 100% activity) were obtained (n = 8 per condition). Thrombelastography parameters included reaction time (R), angle (alpha), and clot strength (A, amplitude; G, elastic modulus).

RESULTS

Celite activation of FXII-deficient plasma, TF activation of FVII-deficient and FX-deficient plasma, and celite or TF activation of FII-deficient plasma resulted in an almost undetectable clot. Compared to control values, celite activation of plasmas deficient in FXI, FIX and FVIII resulted in prolonged R and decreased alpha values, whereas TF activation resulted in decreased alpha values. Celite and TF activation of FV-deficient plasma resulted in prolonged R and decreased alpha values, whereas FXIII-deficient plasma had decreased alpha, A and G-values compared to control values.

CONCLUSIONS

The fundamental finding of this study is that coagulation factor deficiencies affect TEG parameters in both a factor-dependent and activation-dependent fashion. Utilizing both celite and TF activation improves the diagnostic power of TEG. Based on such TEG data, more targeted administration of blood products could potentially help improve perioperative hemostatic outcomes.

Hemostatic analysis of a patient with hereditary angioedema undergoing coronary artery bypass grafting

IMPLICATIONS

Hereditary angioedema is a disease associated with acute complement-mediated inflammation and swelling of the airway and other vital organs. This case describes the impact of hereditary angioedema and cardiopulmonary bypass on hemostasis as assessed by thrombelastography.

Resuscitation with Hextend decreases endogenous circulating heparin activity and accelerates clot initiation after hemorrhage in the rabbit

Hemorrhagic shock can result in a hypercoagulable state and has been associated with both hemorrhagic and thrombotic complications in the perioperative period. The author hypothesized that hemorrhage and resuscitation could result in a hypercoagulable state via changes in the heparin-antithrombin III anticoagulant mechanism in rabbits. Rabbits sedated with ketamine underwent sham operation (n = 8) or hemorrhage (25 mL/kg blood shed) for 60 min, followed by resuscitation with an equal volume of 5% human albumin (n = 8) or Hextend (n = 8). Coagulation analysis with the Thrombelastograph analyzer and determination of endogenous heparin and antithrombin III activity were performed on arterial blood samples obtained before hemorrhage and 30 min after resuscitation. The reaction time significantly decreased by 34% after hemorrhage and resuscitation with Hextend, whereas no other significant changes in Thrombelastograph variables were noted. Antithrombin III activity was significantly less in the Albumin (83% +/- 8% of control, mean +/- SD) and Hextend (88% +/- 8%) Resuscitated groups compared with the Sham-Operated animals. Of interest, only the Hextend-Resuscitated animals demonstrated a significant decrease in heparin activity (53.4 +/- 13.6 mU/mL before hemorrhage, 42.3 +/- 5.6 mU/mL after resuscitation). A Hextend)-mediated decrease of both heparin and antithrombin III activity may explain the acceleration of clot initiation compared with albumin administration after hemorrhage in the rabbit.

IMPLICATIONS

Hemorrhage may result in a hypercoagulable state after resuscitation. Decreases in both endogenous heparin and antithrombin III activity after hemorrhage and Hextend resuscitation in rabbits resulted in a significantly decreased time to clot coagulation analysis initiation without a significant change in the rate of clot formation or final clot strength.

Endogenous heparin decreases the thrombotic response to hemorrhagic shock in rabbits

PURPOSE

The purpose of this study was to determine if endogenous heparin release would modulate the hemostatic response to hemorrhagic shock in rabbits.

MATERIALS AND METHODS

Anesthetized rabbits (n = 13) underwent hemorrhagic shock (MAP 30-40 mm Hg) for 60 minutes. Blood samples obtained before and 60 minutes after hemorrhagic shock had thrombelasto-graphic variables (R, reaction time [min]; angle, alpha [ degrees ]; and G [dynes/cm(2)]) determined. Hemostatic function was assessed by modified thrombelastography under four conditions: (1) unmodified sample; (2) platelet inhibition with cytochalasin D; (3) heparinase I exposure; and (4) platelet inhibition and heparinase I exposure.

RESULTS

Thrombelastographic variable values in samples without platelet inhibition or heparinase exposure did not significantly change after hemorrhage (before hemorrhage: R = 22.01 +/- 0.7 min, alpha 43.6 +/- 1.3 degrees, G 7,089 +/- 379 dyne/cm(2); after hemorrhage: R 22.1 +/- 2.4, alpha 41.6 +/- 3.9, G = 5,662 +/- 564; mean +/- SEM). However, blood samples exposed to heparinase after hemorrhage demonstrated enhanced hemostatic function with thrombelastographic values (R = 13.4 +/- 1.5, alpha 56.0 +/- 3.4, G = 7012 +/- 565) significantly different (P <.05) from samples not exposed to heparinase. Samples with platelet inhibition demonstrated a similar pattern.

CONCLUSION

Hemorrhagic shock significantly increased circulating endogenous heparin activity, attenuating the thrombotic response to hemorrhage in rabbits. Heparin-mediated regulation of hemostasis may serve as a protective mechanism in shock states.

Pentalyte does not decrease heparinoid release but does decrease circulating thrombotic mediator activity associated with aortic occlusion-reperfusion in rabbits

Hemorrhage and thrombosis are associated with major vascular and trauma surgery. Release of heparinoids and thrombotic mediators may contribute to these complications and have been described in rabbits after aortic occlusion-reperfusion. We hypothesized that the resuscitative fluid used could reduce heparinoid and thrombotic mediator release after aortic occlusion-reperfusion in rabbits as assessed by thromboelastographic variables (R, reaction time; alpha, angle; and G, a measure of clot strength). Anesthetized rabbits were administered lactated Ringer's solution (n = 8) or PentaLyte (n = 8) at reperfusion after 30 min of ischemia. Blood was obtained before ischemia and after 30 min of reperfusion for thromboelastography under four conditions: 1) unmodified sample, 2) platelet inhibition, 3) heparinase, and 4) platelet inhibition and heparinase. During reperfusion, unmodified samples demonstrated a significant increase in R and decrease in alpha and G that was not affected by PentaLyte. In the presence of heparinase, no significant fluid-specific thromboelastographic differences were noted. However, thrombotic mediator release (discerned by a decrease in R and an increase in alpha) during reperfusion in samples with platelet inhibition and heparinase was significantly attenuated by PentaLyte. PentaLyte administration does not decrease heparinoid release but does decrease thrombotic mediator release after aortic occlusion-reperfusion.

Nitric oxide decreases coagulation protein function in rabbits as assessed by thromboelastography

Nitric oxide (NO) is administered via infusion of donors such as nitroglycerin or in inhaled form for treatment of ischemia and pulmonary hypertension, respectively. In rabbits, the NO donor, DETANONOate, decreases whole blood clotting function as assessed by thromboelastographic variables (R, reaction time; alpha, angle; and G, a measure of clot strength). I hypothesized that DETANONOate-derived NO would adversely affect coagulation protein and platelet function. Blood obtained from ear arteries of conscious rabbits (n = 8) anticoagulated with sodium citrate. The blood was then incubated with 0 or 10mM DETANONOate for 30 min. After incubation and recalcification, thromboelastography was performed for 60 min under four conditions: 1) 0mM DETANONOate, 2) 0mM DETANONOate with platelet inhibition with cytochalasin D, 3) 10mM DETANONOate, and 4) 10mM DETANONOate with platelet inhibition. DETANONOate significantly (P < 0.05) increased R and decreased alpha and G in samples with or without platelet inhibition, compared with samples not exposed to DETANONOate. Lastly, the percentage of total G (G(T)) attributable to platelet function (G(P)) was significantly more in the absence of DETANONOate (G(P) = 92.3% +/- 1.6%; mean +/- SD) than after exposure to DETANONOate (G(P) = 90.2% +/- 2.3%). DETANONOate-derived NO significantly decreased coagulation protein function and platelet function. Coagulation protein function may be similarly affected in clinical situations involving the administration of NO or NO donors.

Hepatoenteric ischemia-reperfusion increases circulating heparinoid activity in rabbits

PURPOSE

The purpose of this study was to determine if an increase in circulating heparinoid activity contributes to the hemostatic abnormalities associated with hepatoenteric ischemia-reperfusion.

MATERIALS AND METHODS

Anesthetized rabbit (n = 18) underwent thoracic aorta occlusion for 30 minutes with a balloon catheter, followed by 30 minutes of reperfusion. Blood samples were obtained after 30 minutes of equilibration and 30 minutes of reperfusion. Hemostatic function was assessed by changes in the thrombelastographic variables R (reaction time), alpha (a measure of the speed of clot formation), and G (a measure of clot strength). Thrombelastography was performed on blood without platelet inhibition in the presence or absence of heparinase (n = 9 rabbits). Additional samples (n = 9) were exposed to cytochalasin D (platelet inhibitor) with or without heparinase.

RESULTS

Compared with preischemic values, blood samples with intact platelet function obtained during reperfusion demonstrated a decrease in hemostatic function evidenced by a significant (P<.05) increase in R, decrease in alpha, and decrease in G. R, alpha, and G values of samples without platelet inhibition exposed to heparinase did not significantly change after ischemia. Blood samples exposed to cytochalasin D displayed a similar pattern.

CONCLUSION

An increase in circulating heparinoid activity significantly contributes to the hemostatic disorder associated with hepatoenteric ischemia-reperfusion in rabbits.

Prophylactic value of preincision intra-aortic balloon pump: analysis of a statewide experience

OBJECTIVE

The objective of this study was to determine whether preincision use of an intra-aortic balloon pump improves survival and shortens postoperative length of stay in hemodynamically stable, high-risk patients undergoing coronary artery bypass grafting.

METHODS

A post hoc analysis of the Alabama CABG Cooperative Project database was performed by using propensity scores to model the likelihood of receiving a prophylactic preincision intra-aortic balloon pump. Every patient receiving a prophylactic preincision balloon pump was matched with another patient of similar propensity score who did not receive one. We then compared outcomes for matched pairs.

RESULTS

There were 7581 patients of whom 592 received a prophylactic preincision balloon pump. Patients with preoperative renal insufficiency, heart failure, or left main coronary artery disease, or who had undergone previous bypass grafting were significantly more likely to receive a prophylactic preincision balloon pump. By using propensity scores, we matched 550 patients who received a prophylactic preincision balloon pump with 550 who did not. Survival did not significantly differ by whether a prophylactic preincision balloon pump was used. However, surviving patients who received a preincision balloon pump had a significantly shorter postbypass length of stay (7 +/- 7.3 days) than did matched patients not receiving a balloon pump (8 +/- 6.2 days; P <.05).

CONCLUSIONS

No survival advantage was found for use of a prophylactic intra-aortic balloon pump in hemodynamically stable, high-risk patients undergoing bypass grafting, as opposed to placing a balloon pump on an "as needed" basis during or after the operation. However, the patients receiving the balloon pump had improved convalescence as shown by significantly shorter length of stay.

Thoracic aorta occlusion-reperfusion decreases hemostasis as assessed by thromboelastography in rabbits

Perioperative hemorrhage and thrombosis are serious complications associated with major vascular surgery. We hypothesized that thoracic aortic occlusion-reperfusion in rabbits would adversely affect hemostasis as assessed by thromboelastographic variables (reaction time, alpha angle and G [a measure of clot strength]). Isoflurane-anesthetized rabbits underwent either sham operation (n = 10) or 30 min of aortic occlusion followed by 90 min of reperfusion (n = 10). Blood samples (350 microL) were exposed to 10 microL of either 0.9% NaCl or cytochalasin D (a platelet inhibitor, 10 microM final concentration) and analyzed for 1 h by using thromboelastography after 30 min of postpreparation equilibration and at 30 and 90 min of reperfusion. Aortic occlusion-reperfusion resulted in a significant (P: < 0.05) increase in reaction time, decrease in alpha angle, and decrease in G at 30 and 90 min of reperfusion compared with the sham-operated group. The decrease in hemostatic function after aortic occlusion-reperfusion was observed to the same degree in samples with or without platelet inhibition. There were no significant differences in platelet concentration between the sham-operated and aortic occlusion-reperfusion groups. Aortic occlusion-reperfusion decreased hemostatic function in rabbits primarily by decreasing the coagulation factor-dependent, platelet-independent contribution to clotting.

IMPLICATIONS

Thoracic aortic occlusion-reperfusion decreased hemostatic function in rabbits primarily by decreasing the coagulation factor-dependent, platelet-independent contribution to clotting. This decrease in hemostatic function may contribute to hemorrhagic complications associated with major vascular surgery.

Evaluation of the contribution of platelets to clot strength by thromboelastography in rabbits: the role of tissue factor and cytochalasin D

The contribution of platelets and soluble clotting components to clot strength has been the focus of several clinical studies using thromboelastography; it would, therefore, be beneficial to develop an animal model with which to mechanistically approach hemostatic disorders. Thus, we proposed to determine if the contribution of platelet function (G(P), dyne/cm(2)) and soluble components of the coagulation pathway to total clot strength (G(T)) in rabbits were similar to those in humans. Blood was sampled from the ear arteries of conscious rabbits (n = 12); 350 microL of the blood was placed in a thromboelastograph. Ten microliters of normal saline, cytochalasin D (an inhibitor of microtubule function, 10 microM final concentration), or tissue factor (a potent stimulator of platelet function, 0.00625% final concentration) was added to the blood sample, and thromboelastography performed for 1 h. The G(T) (mean +/- SD) was significantly (P < 0.001) different among samples exposed to normal saline, cytochalasin D, or tissue factor, with G(T) values of 7238 +/- 1432, 937 +/- 372, and 16,556 +/- 3314, respectively. G(P) was responsible for 87% and 94% of G(T) in the absence or presence of tissue factor, respectively. G(P) did not significantly correlate with platelet concentration in the absence or presence of tissue factor. The contribution of G(P) to G(T) is similar to that observed in humans.

IMPLICATIONS

Rabbits may serve as a model of hemostasis that closely approximates human situations to mechanistically determine the etiology of coagulopathy. The contribution of platelet function to total clot strength is similar to that observed in humans.

Halothane does not decrease amiloride-sensitive alveolar fluid clearance in rabbits

Halothane decreases alveolar fluid clearance (AFC), a function required for efficient gas exchange in the rat. Further, halothane decreases amiloride-sensitive Na(+) transport in rat alveolar type II cells, a process responsible for a significant portion of AFC. We tested the hypothesis that halothane would decrease amiloride-sensitive AFC in rabbits. Rabbits anesthetized with 1.8% halothane had 5% albumin in 0.9% NaCl instilled into the right lung with (n = 11) or without (n = 11) 1 mM amiloride present in the instillate. Similarly, animals anesthetized with IV fentanyl and droperidol were administered 5% albumin solution with (n = 11) or without (n = 11) amiloride. At 90 min after instillation, alveolar fluid samples were obtained, and AFC was determined by changes in fluid protein concentration. Rabbits anesthetized with halothane or fentanyl and droperidol in the absence of amiloride had similar AFC values (35% +/- 12% and 35% +/- 7%, respectively, mean +/- SD). Rabbits anesthetized with halothane or fentanyl and droperidol in the presence of amiloride had similar AFC values (20% +/- 10% and 16% +/- 12%, respectively) that were significantly less than the groups not administered amiloride (P < 0.01). Unlike the rat, the ability of the rabbit to clear fluid from the alveolar space through amiloride-sensitive pathways is not decreased by halothane anesthesia.

IMPLICATIONS

Unlike the rat, the ability of the rabbit to clear fluid from the alveolar space through amiloride-sensitive pathways is not decreased by halothane anesthesia.

DETANONOate, a nitric oxide donor, decreases amiloride-sensitive alveolar fluid clearance in rabbits

Inhaled nitric oxide (NO) has been administered to animals to selectively reduce pulmonary hypertension via NO donors such as the NONOates. However, vectorial Na(+) transport across confluent monolayers of alveolar type II (ATII) pneumocytes has been decreased by NO. We tested the hypothesis that administration of the NO donor, DETANONOate, would decrease alveolar fluid clearance (AFC) in the rabbit in vivo. We instilled a solution of 5% albumin in 0.9% NaCl with 3 mM DETANONOate into anesthetized rabbits. Two hours later, similar AFC values were measured in the presence and absence of 3 mM DETANONOate (38 +/- 12% versus 43 +/- 13%; mean +/- SD). However, animals coadministered 1 mM amiloride with one of three doses of DETANONOate (100 microM, 300 microM, or 3 mM) had significantly (p < 0.05) greater AFC values (23 +/- 8, 20 +/- 14, 28 +/- 12%, respectively) than those administered amiloride alone (10 +/- 7%). When 5% albumin in a Cl(-)-free solution was administered in the presence or absence of 100 microM DETANONOate, neither AFC values nor alveolar Cl(-) concentrations were different. DETANONOate decreases the amiloride-sensitive fraction of AFC but does not decrease total AFC. DETANONOate does not influence total AFC secondary to an increase in the amiloride-insensitive fraction of AFC that is not associated with a decrease in alveolar Cl(-) secretion.

Extreme hemodilution in rabbits: an in vitro and in vivo Thrombelastographic analysis

Isovolemic hemodilution is used to decrease the incidence of blood transfusions. However, the effects of the degree of hemodilution and the fluid used on hemostasis are controversial. We tested the hypothesis that hemodilution and the fluid administered would adversely alter Thrombelastographic(R) (Haemoscope, Skokie, IL) variables (reaction time, alpha angle and maximal amplitude). Conscious rabbits had blood sampled from ear arteries and diluted 0% or 75% in vitro with one of four solutions: 6% hetastarch in 0.9% NaCl, 5% human albumin in 0.9% NaCl, or balanced electrolyte solutions containing either 6% pentastarch or 6% hetastarch. Isoflurane-anesthetized rabbits were randomly assigned to groups (n = 9 per group) that underwent in vivo isovolemic hemodilution (75% of estimated blood volume removed), with blood replaced with one of the four solutions mentioned previously. In vitro hemodilution resulted in a significant (P < 0.05) decrease in hemostatic function (increase in reaction time, decrease in alpha angle and maximal amplitude) that was largest after hemodilution with albumin. However, although in vivo hemodilution significantly (P < 0.05) decreased reaction time, increased the alpha angle, and decreased maximal amplitude, there were no significant fluid-dependent effects.

IMPLICATIONS

The effects of hemodilution and the fluid used on Thrombelastographic(R) (Haemoscope, Skokie, IL) variables are markedly different between in vitro and in vivo hemodilution studies.

Effects of DETANONOate, a nitric oxide donor, on hemostasis in rabbits: an in vitro and in vivo thrombelastographic analysis

PURPOSE

The purpose of this study was to determine if whole blood thrombelastographic variables (reaction time, K, alpha, and maximum amplitude) would be adversely effected by exposure to the nitric oxide (NO) donor, DETANONOate, in vitro or after alveolar instillation in vivo.

MATERIALS AND METHODS

Conscious rabbits (n = 10) had blood sampled from ear arteries anticoagulated with sodium citrate. The blood was then incubated with 0, 1, 5, 10, or 20 mmol/L DETANONOate for 30 minutes. Arterial blood from anesthetized rabbits (n = 4) was obtained and anticoagulated before and 60 minutes after 1 mmol/L DETANONOate (2 mL/kg) was instilled into the right lung. After incubation, all samples were placed in a thrombelastograph and recalcified, with thrombelastographic variables measured for 45 minutes.

RESULTS

In vitro, 10 mmol/L DETANONOate significantly (P < .05) increased reaction time, K, and decreased alpha compared with values observed after incubation with 0, 1, and 5 mmol/L DETANONOate. Twenty mmol/L DETANONOate significantly (P < .05) increased reaction time, K, and decreased alpha and maximum amplitude values compared with all other concentrations. In vivo, DETANONOate administration did not significantly affect thrombelastographic variables.

CONCLUSION

DETANONOate significantly decreased hemostatic function in vitro in a dose-dependent fashion but did not significantly affect hemostatic function in vivo.

Mechanisms of increased Na(+) transport in ATII cells by cAMP: we agree to disagree and do more experiments

Existing evidence supports the presence of active transport of Na(+) across the mammalian alveolar epithelium and its upregulation by agents that increase cytoplasmic cAMP levels. However, there is controversy regarding the mechanisms responsible for this upregulation. Herein we present the results of various patch-clamp studies indicating the presence of 25- to 27-pS, amiloride-sensitive, moderately selective Na(+) channels (Na(+)-to-K(+) permeability ratio = 7:1) located on the apical membranes of rat alveolar type II (ATII) cells maintained in primary culture. The addition of terbutaline to the bath solution increased the open probability of single channels present in cell-attached patches of ATII cells without affecting their conductance. A similar increase in open probability was seen after the addition of protein kinase A, ATP, and Mg(2+) to the cytoplasmic side of inside-out patches. Measurement of short-circuit currents across confluent monolayers of rat or rabbit ATII cells indicates that terbutaline and 8-(4-chlorophenylthio)-cAMP increase vectorial Na(+) transport and activate Cl(-) channels. Currently, there is a controversy as to whether the cAMP-induced increase in Na(+) transport is due solely to hyperpolarization of the cytoplasmic side of the ATII cell membrane due to Cl(-) influx or whether it results from simultaneous stimulation of both Cl(-) and Na(+) conductive pathways. Additional studies are needed to resolve this issue.

Increased injury following intermittent fetal hypoxia-reoxygenation is associated with increased free radical production in fetal rabbit brain

Hypoxia associated with perinatal events can result in brain damage in the neonate. In labor and eclampsia, hypoxia can be intermittent, which may result in more severe damage than sustained hypoxia. The pathogenesis of brain injury in sustained ischemia involves free radical production; therefore, we investigated whether higher levels of free radicals contribute to the greater injury induced by repetitive ischemia. Brains were obtained from fetuses of near-term, pregnant rabbits subjected to repetitive ischemia-reperfusion (RIR), sustained uterine ischemia-reperfusion (IR), or a control protocol. Compared with controls, fetal brains from RIR or IR groups had more brain edema. Brains from RIR fetuses exhibited higher levels of lipid peroxidation, 3-nitrotyrosine, and nitrogen oxides, and lower total antioxidant capacity and cortical cellular viability than those of IR or control fetuses. Maternal administration of antioxidants following RIR and fetal bradycardia resulted in lower levels of fetal cortical and hippocampal cell death. Coadministration of Trolox and ascorbic acid resulted in less brain edema and liquefaction, and fewer hippocampal ischemic nuclei as compared with the saline control. Higher free radical production may be responsible for the greater fetal brain injury following repetitive hypoxia-reoxygenation. Maternal antioxidant treatment resulted in transplacental passage of antioxidants and amelioration of brain injury, and may be a viable clinical option following diagnosis of fetal distress.

Extreme, progressive isovolemic hemodilution with 5% human albumin, PentaLyte, or Hextend does not cause hepatic ischemia or histologic injury in rabbits

BACKGROUND

Physicians and their patients are greatly concerned about perioperative blood administration. Although isovolemic hemodilution is utilized to decrease the incidence of transfusion, it is unclear at what degree of hemodilution hepatoenteric ischemia and injury occurs. The authors hypothesized that hepatic ischemia, systemic ischemia, and tissue injury would occur during hemodilution in rabbits, and that the severity of ischemia and injury may be dependent on the fluid administered.

METHODS

Rabbits anesthetized with isoflurane were assigned randomly to a sham-operated group (n = 8) or groups that underwent four isovolemic hemodilutions (25% of the blood volume removed at hourly intervals), with blood replaced with one of three solutions: balanced electrolyte solutions containing 6% pentastarch (n = 8), 6% hetastarch (n = 9), or 5% human albumin in normal saline (n = 8). Arterial ketone body ratio and plasma lactate, respectively, served as measures of hepatic and systemic ischemia. Gastric, duodenal, and hepatic histologic injury was assessed post mortem.

RESULTS

Hemodilution from a baseline hematocrit of about 33% to about 8% (third hemodilution) with all three colloids did not result in a significant increase in plasma lactate concentration or decrease in arterial ketone body ratio. At a hematocrit of about 5% (fourth hemodilution), the hetastarch group had a significantly (P < 0.05) greater plasma lactate concentration than the sham-operated and 5% human albumin groups. There were no significant differences in arterial ketone body ratio or histologic injury between the groups.

CONCLUSIONS

Isovolemic hemodilution (approximately 5% hematocrit) with albumin, pentastarch, or hetastarch solutions does not result in significant hepatic ischemia or injury assessed by histology.

cAMP activation of chloride and fluid secretion across the rabbit alveolar epithelium

Active Na+ transport by alveolar epithelial cells has been demonstrated to contribute significantly to alveolar fluid clearance. However, the contribution of transepithelial Cl- movement to the reabsorption of isosmotic fluid across the alveolar epithelium in vivo has not been elucidated. We hypothesized that Cl- transport could be increased across the alveolar epithelium in vivo and across cultured alveolar type II cells by agents that increase intracellular cAMP (e.g., forskolin). In studies where 5% albumin in sodium methanesulfonate (a Cl--free solution) was administered into the lung, forskolin administration significantly increased intracellular influx of Cl- and fluid into the alveolar space. In vitro studies with cultured rabbit alveolar type II cell monolayers in Ussing chambers demonstrated that elevations in intracellular cAMP increase short-circuit current by increasing both Cl- secretion and Na+ reabsorption. The cystic fibrosis transmembrane conductance regulator channel blocker glibenclamide and the loop diuretic bumetanide partially decreased the forskolin-induced increase in short-circuit current. These data may explain the failure of agonist that stimulated intracellular cAMP to increase alveolar fluid clearance in the rabbit. Moreover, the data suggest that in the event Na+ absorptive pathways are damaged, transepithelial Cl- secretion and the consequent intra-alveolar fluid influx may be upregulated.

Sustained hypoxia-ischemia results in reactive nitrogen and oxygen species production and injury in the premature fetal rabbit brain

Free radical-mediated injury is implicated in hypoxic-ischemic encephalopathy observed in neonates. We investigated in utero free radical production and injury following hypoxia-ischemia to premature fetal brain utilizing a rabbit model of acute placental insufficiency. Pregnant rabbits at 29 days gestation were randomized to uterine ischemia for 50 minutes (min) (hypoxia) or nonischemic controls. Fetal brains were obtained immediately after ischemia for oxidative and acute-injury markers or 24 hours (h) post-ischemia for histopathology. Nitrotyrosine formation, a marker of NO-derived species such as peroxynitrite, was observed only in hypoxic brains. Hypoxia resulted in a significant increase in nitrogen oxides, lipid peroxidation, and protein oxidation, with a concomitant decrease in total antioxidant capacity, compared with controls. Peroxynitrite addition to brain homogenate increased nitrogen oxides linearly (1:1), although protein carbonyls were unchanged. Concomitantly, in vitro cortical and hippocampal cell viability and ATP levels decreased, with an increase in brain edema in hypoxic brains. Fetuses delivered 24 h post-ischemia had increased hippocampal nuclear karyorrhexis on histology compared with controls. Antioxidant administration (ascorbic acid and Trolox) intraperitoneally ameliorated changes in cellular viability and brain edema. Acute fetal hypoxia-ischemia without reoxygenation results in increased nitrogen and oxygen free radical production that may cause brain injury. The merits of the described model are discussed.

PentaLyte decreases lung injury after aortic occlusion-reperfusion

Lung injury often occurs after hepatoenteric ischemia, with xanthine oxidase (XO, an oxidant-generating enzyme), released from reperfusing liver and intestines, mediating a significant component of this injury. Since pentastarch administration decreases intestinal reperfusion injury, we determined whether resuscitation with PentaLyte (a pentastarch-containing solution) would decrease hepatoenteric reperfusion injury, xanthine oxidase release, and concomitant lung injury after aortic occlusion- reperfusion. Aortic occlusion was established in rabbits for 40 min, and was followed by 3 h of reperfusion, during which either PentaLyte or lactated Ringer's solution-based resuscitation was administered. Sham-operated animals served as controls. Hepatoenteric reperfusion injury, as manifested by release of the enzyme aspartate aminotransferase and decreased gastric intramucosal pH, was significantly (p < 0.0167) attenuated by PentaLyte administration after aortic occlusion-reperfusion, as compared with its occurrence in animals given lactated Ringer's solution. The release of XO after aortic occlusion-reperfusion was 4-fold smaller after PentaLyte administration than after resuscitation with lactated Ringer's solution (p < 0.05). Pulmonary injury, as defined by an increase in bronchoalveolar lavage fluid (BALF) protein content and lactate dehydrogenase (LDH) activity, was 4-fold less after PentaLyte administration following aortic occlusion-reperfusion than after administration of lactated Ringer's solution (p < 0.05). We conclude that remote pulmonary injury is significantly decreased by concomitant PentaLyte-mediated reduction of hepatoenteric reperfusion injury and XO release.

Desflurane increases pulmonary alveolar-capillary membrane permeability after aortic occlusion-reperfusion in rabbits: evidence of oxidant-mediated lung injury

BACKGROUND

Pulmonary injury occurs after vascular surgery, with xanthine oxidase (an oxidant generator) released from reperfusing liver and intestines mediating a significant component of this injury. Because halogenated anesthetics have been observed to enhance oxidant-mediated injury in vitro, the authors hypothesized that desflurane would increase alveolar-capillary membrane permeability mediated by circulating xanthine oxidase after thoracic occlusion and reperfusion.

METHODS

Rabbits were assigned to one of five groups: aorta occlusion groups administered desflurane (n=14), desflurane and tungstate (xanthine oxidase inactivator, n=12), fentanyl plus droperidol (n=13), and two sham-operated groups (desflurane, n=7 and fentanyl plus droperidol, n=7). Aortic occlusion was maintained for 45 min with a balloon catheter, followed by 3 h of reperfusion. Alveolar-capillary membrane permeability was assessed by measurement of bronchoalveolar lavage fluid protein. Xanthine oxidase activity was determined in plasma and lung tissue. Ascorbic acid content (an antioxidant) was determined in lung tissue.

RESULTS

Desflurane was associated with significantly increased alveolar-capillary membrane permeability after aortic occlusion-reperfusion when compared with the fentanyl plus droperidol anesthesia or sham-operated groups (P < 0.05). Inactivation of xanthine oxidase abrogated the alveolar-capillary membrane compromise associated with desflurane. Although significantly greater than for sham-operated animals, plasma xanthine oxidase activities released after aortic occlusion-reperfusion were not different between the two anesthetics. There were no anesthetic-associated differences in lung tissue xanthine oxidase activity. However, desflurane anesthesia resulted in a significant reduction in lung ascorbic acid after aortic occlusion-reperfusion compared with the sham-operated animals.

CONCLUSIONS

Desflurane anesthesia increased xanthine oxidase-dependent alveolar-capillary membrane compromise after aortic occlusion-reperfusion in concert with depletion of a key tissue antioxidant.

Halothane and xanthine oxidase increase hepatocellular enzyme release and circulating lactate after ischemia-reperfusion in rabbits

BACKGROUND

Multiple-organ injury often occurs after aortic occlusion-reperfusion. Oxidants derived from xanthine oxidase have been implicated as a source of injury after aortic occlusion-reperfusion. Halogenated anesthetics modify oxidant-mediated injury. The current study determined if halothane modifies hepatocellular enzyme release (e.g., alanine aminotransferase) and circulating lactate after aortic occlusion-reperfusion.

METHODS

Rabbits were randomly assigned to one of four groups that underwent 40 min of thoracic aortic occlusion and 2 h of reperfusion: Two groups were given either halothane or fentanyl plus droperidol anesthesia and two groups were given either anesthetic and sodium tungstate (xanthine oxidase inactivator). Each of the four groups was then matched with a similarly treated group that did not undergo aortic occlusion.

RESULTS

Halothane anesthesia was associated with significantly (P < 0.05) increased release of alanine aminotransferase (34 +/- 9 U/l at baseline and 539 +/- 370 U/l at 120 min of reperfusion; mean +/- SD) and increased plasma lactate concentrations (2.8 +/- 2.0 mM at baseline and 12.1 +/- 9.7 mM at 120 min of reperfusion) after aortic occlusion-reperfusion compared with fentanyl plus droperidol anesthesia (alanine aminotransferase, 33 +/- 12 U/l and 148 +/- 109 U/l; lactate, 3.4 +/- 2.0 mM and 3.8 +/- 1.2 mM at baseline and 120 min of reperfusion, respectively). Inactivation of xanthine oxidase significantly decreased the release of hepatocellular enzymes (P < 0.05) and decreased circulating lactate in animals anesthetized with halothane after aortic occlusion-reperfusion.

CONCLUSIONS

Halothane increased hepatocellular enzyme release and circulating lactate after aortic occlusion-reperfusion compared with fentanyl plus droperidol anesthesia. Xanthine oxidase activity inactivation also decreased hepatocellular enzyme activity release during reperfusion. These findings justify further investigations to determine if halogenated anesthetics modify tissue injury in clinical settings involving oxidant stress.

Hextend (hetastarch solution) decreases multiple organ injury and xanthine oxidase release after hepatoenteric ischemia-reperfusion in rabbits

OBJECTIVE

We hypothesized that multiple organ injury and concentrations of xanthine oxidase (an oxidant-generating enzyme released after hepatoenteric ischemia) would be decreased by the administration of a bolus of a colloid solution at reperfusion.

DESIGN

Randomized, masked, controlled animal study.

SETTING

University-based animal research facility.

SUBJECTS

Fifty-four New Zealand white male rabbits, weighing 2 to 3 kg.

INTERVENTIONS

Anesthetized rabbits were assigned to either the hepatoenteric ischemia-reperfusion group (n = 27) or the sham-operated group (n = 27). Hepatoenteric ischemia was maintained for 40 mins with a balloon catheter in the thoracic aorta, followed by 3 hrs of reperfusion. Each group was randomly administered a bolus of one of three fluids at the beginning of reperfusion: Hextend (hetastarch solution); 5% human albumin; or lactated Ringer's solution. The investigators were masked as to the identity of the fluid administered.

MEASUREMENTS AND MAIN RESULTS

Multiple organ injury was assessed by the release of lactate dehydrogenase activity into the plasma and by indices of gastric and pulmonary injury. Circulating lactate dehydrogenase activity was significantly greater (p < .001) in animals receiving lactated Ringer's solution than in rabbits receiving either colloid solution. Gastric injury (tissue edema, Histologic injury Score) was significantly decreased (p < .01) by administration of both colloid solutions. Lung injury (bronchoalveolar lavage lactate dehydrogenase activity) was significantly decreased (p < .05) by the hetastarch solution administration. The hetastarch solution administration resulted in 50% less xanthine oxidase activity release during reperfusion compared with albumin or lactated Ringer's solution administration (p < .001).

CONCLUSION

We conclude that multiple organ injury and xanthine oxidase release after hepatoenteric ischemia-reperfusion are decreased by colloid administration.

Xanthine oxidase mediates myocardial injury after hepatoenteric ischemia-reperfusion

OBJECTIVES

To determine if myocardial injury results from hepatoenteric ischemia-reperfusion. We also proposed to determine if this remote heart injury is mediated by a xanthine oxidase-dependent mechanism.

DESIGN

Randomized, controlled animal study.

SETTING

University-based animal research facility.

SUBJECTS

Thirty-six New Zealand white male rabbits, weighing 1.8 to 3 kg.

INTERVENTIONS

Anesthetized rabbits were randomly assigned to one of four groups (n = 9 per group): a) a sham-operated group; b) a sham-operated group pretreated with sodium tungstate (xanthine oxidase inactivator); c) an aorta occlusion group; and d) an aorta occlusion group pretreated with sodium tungstate. Descending thoracic aorta occlusion was maintained for 40 mins with a 4-Fr Fogarty embolectomy catheter, followed by 2 hrs of reperfusion.

MEASUREMENTS AND MAIN RESULTS

Myocardial injury, manifested by increased circulating creatine kinase-MB fraction activity, was significantly associated with aortic occlusion and reperfusion (p < .05). Sodium tungstate pretreatment significantly (p < .05) reduced circulating and myocardial xanthine oxidase activity. Xanthine oxidase inactivation by sodium tungstate significantly decreased circulating creatine kinase-MB fraction activity after hepatoenteric ischemia-reperfusion (p < .05). Finally, circulating creatine kinase-MB fraction activity was significantly associated with circulating xanthine oxidase activity (r2 = .85; p < .001).

CONCLUSIONS

We conclude that remote myocardial injury is caused by hepatoenteric ischemia-reperfusion. The pathoetiology of this myocardial injury involves a xanthine oxidase-dependent mechanism.

Lung injury after hepatoenteric ischemia-reperfusion: role of xanthine oxidase

Oxidant stress plays a major role in the pathophysiologic processes associated with ischemia-reperfusion injury. Xanthine oxidase (XO) is often implicated as a significant source of oxidants and increases in the circulation after hepatoenteric ischemia-reperfusion. We hypothesized that pulmonary injury is associated with hepatic ischemia-reperfusion resulting from descending thoracic aorta occlusion-reperfusion (AoOR). We also proposed that this remote pulmonary injury is attenuated through inactivation of circulating and tissue XO by tungstate, implicating an XO-dependent mechanism. Aortic occlusion was established in rabbits (standard or tungstate diet) for 40 min by 2 h reperfusion. Sham operated rabbits (standard or tungstate diet) served as controls. Hepatic reperfusion injury, as manifested by release of the hepatocellular enzyme alanine aminotransferase (ALT), was markedly increased after AoOR. Suprarenal-infrahepatic occlusion failed to increase ALT release. Tungstate pretreatment significantly (p < 0.05) reduced XO activity and ameliorated liver and intestinal injury (p < 0.05). Lung injury, manifested by increased bronchoalveolar lavage (BAL) protein concentration, BAL lactate dehydrogenase (LDH) activity and increased lung edema was significantly associated with liver injury (p < 0.05) and circulating XO activity (p < 0.001). XO inactivation significantly decreased BAL protein concentration, BAL LDH activity, and lung edema (p < 0.05). We conclude that remote pulmonary injury is significantly influenced by the extent of liver injury and circulating XO activity.

Gastric intramucosal pH and multiple organ injury: impact of ischemia-reperfusion and xanthine oxidase

OBJECTIVES

To determine if gastric intramucosal pH is affected by hepatoneteric ischemia-reperfusion. We additionally proposed to determine if changes in gastric mucosal hydrogen ion concentration are associated with liver and lung injury following hepatoenteric ischemia-reperfusion. Finally, we hypothesized that gastric intramucosal pH is influenced by xanthine oxidase, an oxidant-generating enzyme released after hepatoenteric ischemia-reperfusion.

DESIGN

Randomized, controlled, animal study.

SETTING

University-based animal research facility.

SUBJECTS

Thirty-six New Zealand white male rabbits (2 to 3 kg).

INTERVENTIONS

Anesthetized rabbits were randomly assigned to one of four groups (n = 9 per group): a) sham-operated group; b) sham-operated group pretreated with sodium tungstate (xanthine oxidase inactivator); c) aorta occlusion group; and d) aorta occlusion group pretreated with sodium tungstate. Descending thoracic aorta occlusion was maintained for 40 mins with a 4-Fr Fogarty embolectomy catheter, followed by 2 hrs of reperfusion.

MEASUREMENTS AND MAIN RESULTS

Gastric tonometry was performed after completion of the surgical preparation (30-min equilibration) and at 30, 60, 90, and 120 mins of reperfusion. Plasma alanine aminotransferase activity was determined at 120 mins of reperfusion to assess hepatic injury. Bronchoalveolar lavage of the right lung was performed after 120 mins of reperfusion, and the protein content was determined as a measure of pulmonary alveolar-capillary membrane compromise. Descending thoracic aorta occlusion resulted in a significant decrease in gastric intramucosal pH as compared with sham-operated rabbits (p < .001). The change in gastric mucosal hydrogen ion concentration was significantly associated with plasma alanine aminotransferase activity (r2 = .48, p < .01) and bronchoalveolar protein content (r2 = .51, p < .01). Xanthine oxidase inactivation significantly improved gastric intramucosal pH after aortic occlusion and reperfusion (p < .001), with a concomitant attenuation of the release of plasma alanine aminotransferase (p < .05) and accumulation of bronchoalveolar protein (p < .05) during reperfusion.

CONCLUSIONS

Gastric intramucosal pH was significantly decreased after hepatoenteric ischemia-reperfusion. Furthermore, an increase in gastric intramucosal hydrogen ion concentration was associated with a concomitant increase in tissue injury, a presumed harbinger of multiple organ failure. Gastric intramucosal pH values improved during reperfusion after xanthine oxidase inactivation, concomitant with attenuation of hepatic and pulmonary injury. Gastric tonometry is an important clinical tool that can provide critical insight into the pathogenesis of multiple organ injury after hepatoenteric ischemia-reperfusion. Gastric tonometry may aid in the rapid assessment of pharmacologic interventions designed to attenuate multiple organ injury in similar clinical settings (e.g., trauma, shock, major vascular surgery).

Maternal infusion of antioxidants (Trolox and ascorbic acid) protects the fetal heart in rabbit fetal hypoxia

The antioxidants, Trolox (6-hydroxy-2,5,7,8-tetramethylchroman-2-carboxylic acid, a water soluble analog of vitamin E) and ascorbic acid (AA), protect the heart from ischemia-reperfusion injury. We hypothesized that maternal infusion of Trolox and AA, would reduce the fetal bradycardia and myocardial damage observed in fetal hypoxia and increase the total antioxidant activity in fetal plasma. Either i.v. saline (control group) or Trolox + AA (drug group) was randomly administered to 29-d-old pregnant rabbits. Fetal hypoxia was induced by uterine ischemia. Fetal heart rate, plasma CK-MB activity, and plasma total radical antioxidant potential (TRAP) were measured in different sets of animals. Fetal heart rate in the drug group was higher than in the control group for the first 35 min (p < 0.05 at every 5-min interval). Fetal bradycardia (<60 beats/min) occurred after 39 min (median) in the drug group, and 29 min in the control group (p < 0.05). After 50 min of hypoxia, plasma CK-MB was lower in the drug group, 1204 +/- 132 U/L (mean +/- SEM), than in the control group, 2633 +/- 233 U/L (p < 0.05). TRAP was higher in the drug group, 3.01 +/- 0.15 mM (Trolox equivalent concentration), than in the control group, 1.48 +/- 0.27 mM (p < 0.05). Higher TRAP levels (> or = 2.0 mM) were associated with lower CK-MB levels (<2500 U/L) (p < 0.05). Administration of Trolox and AA to the mother has a beneficial effect on fetal myocardial damage after fetal hypoxia, and a small beneficial effect on fetal bradycardia during hypoxia. The beneficial effect may be due to the augmentation of fetal plasma antioxidants from maternal antioxidant pretreatment.

Xanthine oxidase inactivation attenuates postocclusion shock after descending thoracic aorta occlusion and reperfusion in rabbits

"Declamping shock" is observed after aortic crossclamping, with hypovolemia, hypotension, and metabolic acidemia invariably present. We hypothesized that oxidants derived from xanthine oxidase influence the resuscitative interventions required to maintain baseline hemodynamic and acid-base status after aortic occlusion and reperfusion in rabbits. We also hypothesized that inactivation of xanthine oxidase with sodium tungstate could reduce systemic injury as assessed by the release of lactate dehydrogenase and alkaline phosphatase. To test these hypotheses, we established aortic occlusion in rabbits (n = 10, standard diet; n = 8, tungstate diet) for 40 minutes by inflation of a 4F Fogarty catheter in the descending thoracic aorta followed by 2 hours of reperfusion. Sham-operated rabbits (n = 10, standard diet; n = 9, tungstate diet) served as controls. Tungstate-pretreated rabbits required significantly less Ringer's solution (28%), phenylephrine (68%), and sodium bicarbonate (30%) during reperfusion (p < 0.005). Lactate dehydrogenase and alkaline phosphatase release during reperfusion was significantly attenuated by tungstate pretreatment (p < 0.05). Tungstate pretreatment resulted in plasma xanthine oxidase activities significantly lower than those in the sham group administered a standard diet (p = 0.007). Resuscitation requirements and systemic injury were reduced by inactivation of xanthine oxidase in a rabbit model that simulates the situation of human thoracic aorta operations.

Liver ischemia-reperfusion increases pulmonary permeability in rat: role of circulating xanthine oxidase

Reactive oxygen species play an important role in pathogenesis of a variety of pathological processes, e.g., ischemia-reperfusion, acute viral infections, thermal injury, hepatic diseases, and acute lung injury. Xanthine oxidase (XO) may be a significant source of these cytotoxic oxygen species. We tested the hypothesis that hepatic ischemia-reperfusion releases xanthine dehydrogenase + XO (XDH + XO) into the circulation and that circulating XO damages isolated perfused lung. Isolated liver + lung preparation was perfused with Krebs-Henseleit buffer to minimize confounding effects of circulating neutrophils. In one group, livers were rendered globally ischemic for 2 h and then reperfused (I/R). In another group, livers were pretreated with allopurinol and perfused with buffer containing additional allopurinol (I/R + Allo). After 2 h of ischemia, an isolated lung was connected to liver, and liver + lung preparation was reperfused in series for 15 min. Liver reperfusion was terminated, and lung was recirculated with liver effluent for 45 min. Capillary filtration coefficient (ml.min-1.cmH2O-1.100 g lung dry wt-1) was 2.0 +/- 0.3 and 1.9 +/- 0.4 in control and I/R + Allo lungs, respectively, and 9.0 +/- 1.2 in I/R lungs (P < 0.001). Lung wet-to-dry weight ratio in control and I/R + Allo lungs was 8.6 +/- 0.3 and 9.1 +/- 0.5, respectively, and 14.9 +/- 1.1 in I/R lungs (P < 0.01). Control and I/R + Allo bronchoalveolar lavage protein content was < 1.0 mg/ml compared with 32.6 +/- 8.4 mg/ml in I/R group.(ABSTRACT TRUNCATED AT 250 WORDS)

Xanthine oxidoreductase release after descending thoracic aorta occlusion and reperfusion in rabbits

Cardiopulmonary and other organ dysfunction often occurs after operation on the descending thoracic aorta. Though there are multiple causes of organ dysfunction in this setting, free radical injury may play a prominent role. Xanthine oxidoreductase, an enzyme that generates oxidants after exposure to ischemia, could be released from ischemic liver and intestine during reperfusion. To test this hypothesis, we created aortic occlusion in eight rabbits for 40 minutes by inflation of a 4F Fogarty balloon catheter in the descending thoracic aorta. Eight sham-operated rabbits served as a control group. Two hours of reperfusion followed removal of the balloon catheter. Hemodynamic and acid-base status were maintained near baseline values during reperfusion. Plasma samples were obtained for determination of the activity of the hepatocellular enzymes xanthine oxidoreductase, aspartate aminotransferase, alanine transferase, and lactate dehydrogenase. Plasma xanthine oxidoreductase activity increased significantly (p < 0.001) during reperfusion (729 +/- 140 microU/ml, mean +/- standard error of the mean) compared with baseline (132 +/- 18 microM/mL). The other enzymes followed a similar pattern of release. We report the release of xanthine oxidoreductase in an animal model that simulates the situation of human thoracic aorta operations. The oxidants produced by the circulating xanthine oxidoreductase observed during reperfusion would likely be toxic to vascular endothelium, potentially contributing to multiple organ dysfunction.

Inhibition of human polymorphonuclear leukocyte functions by ibuprofen

We have found that pretreatment of human neutrophils with ibuprofen (0.10-1.0 mg/ml) results in an irreversible, concentration-dependent inhibition of superoxide anion generation and release of lysosomal enzymes (myeloperoxidase, lysozyme) stimulated by the synthetic peptide, N-formyl-methionyl-leucyl-phenylalanine (FMLP), the complement fragment C5a, and to a lesser extent by serum opsonized zymosan. Inhibition of granule exocytosis and oxygen radical generation at ibuprofen concentrations less than 5 mg/ml was not due to drug cytotoxicity since release of the cytoplasmic enzyme lactate dehydrogenase was not affected by ibuprofen. In contrast to neutrophil responses mediated by C5a or FMLP, ibuprofen did not inhibit either enzyme release or superoxide anion generation by neutrophils stimulated with phorbol myristate acetate. Ibuprofen did not function as an oxygen radical scavenger in a cell-free system in which superoxide anion was generated by the aerobic action of xanthine oxidase on hypoxanthine. Ibuprofen also inhibited in a concentration-dependent fashion both directed migration (chemotaxis) and stimulated random migration (chemokinesis) of neutrophils exposed to either FMLP or C5a. Inhibition of neutrophil adherence to plastic surfaces and bovine pulmonary artery endothelial cells was equally effective when the neutrophils were treated with ibuprofen before stimulation with FMLP or phorbol myristate acetate. The inhibitory effects of ibuprofen pretreatment of neutrophils could not be overcome by addition of prostaglandins E1 or E2 (0.3-300 nM). These results demonstrate that ibuprofen is capable of suppressing many functions thought to be important in neutrophil-mediated acute pulmonary inflammatory processes. Results of these experiments further suggest that ibuprofen may inhibit neutrophil functions by acting on cellular components separate from membrane receptors or by blockade of cyclo-oxygenase products which may be involved in these neutrophil functions.

Hypophosphatemia and acute respiratory failure in a diabetic patient

A previously healthy 48-year-old male developed diabetic ketoacidosis and severe hypophosphatemia. Within a few hours, acute respiratory insufficiency developed with a marked discrepancy between the pulmonary pathology and the very poor oxygenation seen. We argue that this was due to the effect of hypophosphatemia on respiratory muscle- and heart function and P50, leading to impaired oxygen delivery.

Atracurium and its antagonism by neostigmine (plus glycopyrrolate) in patients susceptible to malignant hyperthermia

Forty patients undergoing diagnostic muscle biopsy as part of investigation for malignant hyperthermia (MH) were given atracurium 0.45 +/- 0.10 mg kg-1 for muscle paralysis. The neuromuscular blockade was antagonized with neostigmine 2.4 +/- 0.4 mg given with glycopyrrolate 0.47 +/- 0.09 mg. Rectal, muscle and skin temperatures and blood lactate concentration and venous Pco2 were measured before, during and after anaesthesia. Susceptibility to MH was established by in vitro contracture tests according to the regimen of the European MH Group. Fifteen patients were susceptible to MH (MHS), 19 were MH-negative (MHN) and six were MH-equivocal (MHE). No side effects of the drugs were noted. There were no differences between the three groups of patients in any of the measurements.

Isoamylases and their thermolability in serum and cyst fluid from patients with pancreatic pseudocysts

The isoamylase pattern in serum and the amylase thermolability have been suggested as screening tests for the development of pancreatic pseudocysts. To study whether serum reflects the contents of pseudocysts, we have investigated the isoamylases and their thermolability in cyst fluid and in serum from 13 patients with pancreatic pseudocysts. No significant correlation was found between the contents in serum and cyst fluid with regard to total amylase and isoamylase P2 and P3 or with regard to the thermolability of total amylase and isoamylase P2 and P3. Thus, serum does not reflect the cyst contents of isoamylases or their thermolability. Therefore these serum amylase determinations can hardly be expected to be useful in distinguishing patients developing pseudocysts among patients with pancreatitis.