Philip E. Greilich

Effects of Red-Cell Storage Duration on Patients Undergoing Cardiac Surgery

BACKGROUND Some observational studies have reported that transfusion of red-cell units that have been stored for more than 2 to 3 weeks is associated with serious, even fatal, adverse events. Patients undergoing cardiac surgery may be especially vulnerable to the adverse effects of transfusion. METHODS We conducted a randomized trial at multiple sites from 2010 to 2014. Participants 12 years of age or older who were undergoing complex cardiac surgery and were likely to undergo transfusion of red cells were randomly assigned to receive leukocyte-reduced red cells stored for 10 days or less (shorter-term storage group) or for 21 days or more (longer-term storage group) for all intraoperative and postoperative transfusions. The primary outcome was the change in Multiple Organ Dysfunction Score (MODS; range, 0 to 24, with higher scores indicating more severe organ dysfunction) from the preoperative score to the highest composite score through day 7 or the time of death or discharge. RESULTS The median storage time of red-cell units provided to the 1098 participants who received red-cell transfusion was 7 days in the shorter-term storage group and 28 days in the longer-term storage group. The mean change in MODS was an increase of 8.5 and 8.7 points, respectively (95% confidence interval for the difference, -0.6 to 0.3; P=0.44). The 7-day mortality was 2.8% in the shorter-term storage group and 2.0% in the longer-term storage group (P=0.43); 28-day mortality was 4.4% and 5.3%, respectively (P=0.57). Adverse events did not differ significantly between groups except that hyperbilirubinemia was more common in the longer-term storage group. CONCLUSIONS The duration of red-cell storage was not associated with significant differences in the change in MODS. We did not find that the transfusion of red cells stored for 10 days or less was superior to the transfusion of red cells stored for 21 days or more among patients 12 years of age or older who were undergoing complex cardiac surgery. (Funded by the National Heart, Lung, and Blood Institute; RECESS ClinicalTrials.gov number, NCT00991341.).

Thromboelastography: past, present, and future.

THIS issue of ANESTHESIOLOGY contains an article by Camenzind et al. regarding the influence of citrate storage on thromboelastography (TEG Haemascope Corp.). Although the TEG is most commonly performed on a native (uncitrated) sample, the use of citrated blood permits longer delays after sample acquisition, thus facilitating ancillary or research laboratory analysis. Camenzind et al. nicely outline some of the issues related to the impact of sample storage on the TEG. Anesthesiology, as a specialty, has taken a leading role in evaluating the TEG as a nearsite monitor of hemostasis in several clinical settings. Many issues, however, remain unresolved about how to use the TEG to guide clinical decision-making. The purpose of this Editorial View is to briefly review studies that have lead to current applications of the TEG and to outline future challenges that need to be addressed for its broader use.

Antifibrinolytic therapy during cardiopulmonary bypass reduces proinflammatory cytokine levels: a randomized, double-blind, placebo-controlled study of ϵ-aminocaproic acid and aprotinin

OBJECTIVES Aprotinin is a broad-spectrum serine protease inhibitor that has been shown to attenuate the systemic inflammatory response in patients undergoing cardiac surgery with cardiopulmonary bypass. Although epsilon-aminocaproic acid is similar to aprotinin in its ability to inhibit excessive fibrinolysis (ie, plasmin activity and D-dimer formation), its ability to influence proinflammatory cytokine production remains unclear. This study was designed to compare the effects of epsilon-aminocaproic acid and aprotinin on plasma levels of interleukin-6 and interleukin-8 during and after cardiopulmonary bypass. METHODS Sixty patients were randomized in a double-blind fashion to receive epsilon-aminocaproic acid, aprotinin, or saline (placebo) in similar dosing regimens (loading dose, pump prime, and infusion). Arterial blood samples were collected before, during, and after cardiopulmonary bypass, and plasma levels of D-dimer, interleukin-6, and interleukin-8 were measured. Data were analyzed using repeated measures analysis of variance. RESULTS Both epsilon-aminocaproic acid and aprotinin administration resulted in significant (P <.05) reductions in D-dimer and interleukin-8 levels compared with saline. These reductions in D-dimer and interleukin-8 levels did not differ between the 2 drug-treated groups. The effect of these two antifibrinolytic agents on interleukin-6 was qualitatively similar to that noted with interleukin-8 but did not reach statistical significance. CONCLUSIONS When dosed in a similar manner, epsilon-aminocaproic acid seems to be as effective as aprotinin at reducing interleukin-6 and interleukin-8 levels in patients undergoing primary coronary artery bypass graft surgery. These data indicate that suppression of excessive plasmin activity or D-dimer formation or both may play an important role in the generation of proinflammatory cytokines during and after cardiopulmonary bypass.

Does the duration of cardiopulmonary bypass or aortic cross-clamp, in the absence of blood and/or blood product administration, influence the IL-6 response to cardiac surgery?

Cardiopulmonary bypass (CPB) induces a systemic inflammatory response characterized by release of proinflammatory cytokines, including interleukin 6 (IL-6). Recent reports suggest that plasma IL-6 is increased after CPB. Previous studies evaluating the influence of duration of CPB and/or aortic cross-clamp time on the release of IL-6 are conflicting. Infusion of blood and blood products during these studies may have influenced plasma concentrations of proinflammatory cytokines by inducing host cell (monocyte) activation and IL-6 release. The purpose of our investigation was to determine, in an environment free from blood and/or blood product administration, the influence of duration of CPB and/or aortic cross-clamp on the magnitude of the IL-6 response in patients undergoing cardiac surgery. We prospectively evaluated plasma IL-6 levels preinduction (T0) and at sternal closure in 16 patients undergoing CPB (coronary artery bypass grafting, n = 9; valvular cardiac surgery, n = 7) to determine whether there is a correlation between the absolute increase in IL-6 and the duration of CPB or aortic cross-clamp time. None of the patients received blood and/or blood products during the study to control for the introduction of additional activated cells and soluble mediators, including IL-6. The results demonstrate that the magnitude of the IL-6 response to CPB is positively correlated with the duration of CPB but not with duration of aortic cross-clamp. It seems that induction of IL-6 release is part of a normal response to CPB and does not depend on activation of host cells during prolonged aortic cross-clamp. The activation or presence of inflammatory cytokines associated with administration of blood and/or blood products could have influenced previously published investigations relating the influence of duration of CPB and/or aortic cross-clamp time to the magnitude of the IL-6 response. Implications: This study found a positive correlation between the magnitude of the interleukin 6 response to cardiopulmonary bypass and duration of cardiopulmonary bypass (but not duration of aortic cross-clamp) when measurements were made in the absence of blood/blood product transfusion. Future studies evaluating strategies to reduce cytokine responses to cardiopulmonary bypass should therefore control for cardiopulmonary bypass duration.

Reductions in platelet force development by cardiopulmonary bypass are associated with hemorrhage

Quantitative assessment of platelet dysfunction after cardiopulmonary bypass (CPB) and prediction of excessive microvascular bleeding remain elusive goals.We used a sensitive instrument capable of simultaneously measuring the force generated by platelets during plasma clot retraction and global clot strength. We hypothesized that CPB would significantly reduce these two variables. Platelet-rich plasma was obtained from eight patients undergoing aortocoronary revascularization prior to induction, after 90 min of CPB, and after protamine administration. Platelet force development was measured using a standardized technique that controlled for platelet number and permitted clot formation in the presence of heparin. Despite the presence of a measurable elastic modulus, platelet force development during bypass was abolished. Peak platelet force development after CPB was significantly lower than before CPB (5255 +/- 955 dynes vs 11,600 +/- 780 dynes, P = 0.01). The percent recovery (after/before bypass) of peak platelet force development inversely correlated with tube thoracostomy drainage during the first 24 h after placement (rs = -0.71, P = 0.048). This study demonstrates that CPB has dramatic effects on platelet force development. The correlation between the percent recovery of peak platelet force development and blood loss supports the clinical relevance of this measurement. (Anesth Analg 1995;80:459-65)

A modified thromboelastographic method for monitoring c7E3 Fab in heparinized patients.

The monoclonal antibody, c7E3 Fab, binds to the platelet surface fibrinogen receptor (GPIIb/IIIa), inhibiting platelet aggregation and clot retraction.We performed an in vitro study to assess the ability of a modification of the thromboelastograph (MTEG) to detect inhibition of clot strength by c7E3 Fab and its reversal with platelet-rich plasma (PRP). In the modified assay (MTEG), thrombin was added to whole blood (WB) and platelet-poor plasma (PPP) and the resultant maximum amplitude (MA) was measured, MAWB and MAPPP, respectively. Anticoagulated blood samples from 17 patients scheduled for cardiac surgery were collected for a dose response (Part I; n = 5) and c7E3 Fab reversal (Part II; n = 12) study. Clot strength was reduced in a dose-dependent manner by c7E3 Fab. Ecteola cellulose effectively reversed the effect of heparin on the thrombin time and the addition of PRP significantly increased the MAWB (P < 0.0001) and MAWB-ppp (P < 0.0001). Subtracting the MAPPP from MAWB significantly magnified the response of MA to the addition of c7E3 Fab (P = 0.002) and its reversal with PRP (P = 0.005). This in vitro study indicates that the MTEG is a responsive assay demonstrating that inhibition by the antiplatelet c7E3 Fab is reversible with PRP. (Anesth Analg 1997;84:31-8)

In vitro hemocompatibility studies of drug-loaded poly-(L-lactic acid) fibers

Our objective was to evaluate the hemocompatibility of biodegradable stent fibers, employing a closed-loop circulation system filled with human blood. We also investigated the effects of the anti-inflammatory and anti-proliferative drugs curcumin and paclitaxel, incorporated into stent fibers. Fresh whole blood was circulated in four parallel closed-loop systems: the empty tube circuit (control) and tubes containing either a PLLA fiber coil (PLLA), a curcumin-loaded PLLA coil (C-PLLA) or a paclitaxel-loaded PLLA coil (P-PLLA). The influence of PLLA fiber, alone or loaded with drug incorporated during melt-extrusion, on leukocyte and platelet adhesion and activation was determined by flow cytometry. The effects of blood flow and fiber properties on cell deposition were assessed by scanning electron microscopy (SEM). The flow cytometry results clearly demonstrated that PLLA triggers blood cell activation at the site of deployment, as shown by increases in CD11b, CD62P and leukocyte-platelet aggregates, compared to controls. Curcumin and paclitaxel treatments both significantly reduced leukocyte and platelet activation and adhesion to PLLA fibers, as shown by flow cytometry and SEM. Activated leukocytes and platelets revealed significantly lower CD11b and CD62P receptor binding for C-PLLA compared with PLLA alone, and slightly lower for P-PLLA. Reductions in platelet-leukocyte aggregates were observed as well. In addition, there was less leukocyte and platelet adhesion to C-PLLA, compared with PLLA fiber controls, as shown by SEM. A continuous linear thrombus, composed of platelets, leukocytes, red blood cells and fibrin was occasionally detected along the line of tangency between the coil and the tube wall. Flow separation and eddying, proximal and distal to the line of tangency of coil and tube, is thought to contribute to this deposit. Curcumin was more effective than paclitaxel in reducing leukocyte and platelet activation and adhesion to PLLA stent fibers in this setting. However there was evidence of paclitaxel degeneration during melt extrusion that may have inhibited its effectiveness. Incorporation of the anti-inflammatory and anti-proliferative drug curcumin into bioresorbable stent fibers is proposed to prevent thrombosis and in-stent restenosis.

Curcumin impregnation improves the mechanical properties and reduces the inflammatory response associated with poly(L-lactic acid) fiber

We investigated poly(L-lactic acid) (PLLA) fibers and coils, simulating stents and the influence of impregnation with curcumin, a non-steroidal anti-inflammatory drug, intended to reduce the pro-inflammatory property of these implants. Fibers obtained by melt extrusion of 137 kDa PLLA resin containing 10% curcumin (C-PLLA) exhibited a stable curcumin release rate for periods up to 36 days. Curcumin increased the fiber tensile strength at break and decreased embrittlement vs . controls in 36 day 37°C saline incubation. A mouse peritoneal phagocyte model was employed to test the anti-inflammatory properties of C-PLLA fibers in vitro. Myeloperoxidase and non-specific esterase activity assays were performed for adherent cells (polymorphonuclear leukocytes (PMN) and macrophages (MΦ), respectively). PMN and MΦ adhesion to C-PLLA fibers were significantly reduced compared to control PLLA fibers (2.6 ± 0.91) × 105 vs. (5.6 ± 0.67) × 105 PMN/cm2 and (3.9 ± 0.23) × 103 vs. (9.1 ± 0.7) × 103 MΦ/cm2 (P < 0.05), respectively. In addition, superoxide release in the phagocyte pool contacting C-PLLA fibers was 97% less than that for PLLA controls. A fresh human whole blood recirculation system was employed to analyze cell adhesion under flow conditions, employing scanning electron microscopy (SEM). Reduced adhesion of cells on C-PLLA fiber coils vs. controls was observed. These in vitro studies demonstrate that bulk curcumin impregnation can reduce the inflammatory response to bioresorbable PLLA fibers, whilst improving mechanical properties, thereby suggesting curcumin loading may benefit PLLA-based implants.

Quantitative assessment of platelet function and clot structure in patients with severe coronary artery disease.

The prothrombotic state of patients with coronary artery disease (CAD) can be attributed partially to platelet activity. Management of such patients is hindered by a lack of techniques to assess hemostatic function. This study used a sensitive technique to monitor platelet function by measuring platelet force development during clot retraction. This technique allowed simultaneous measurement of clot elastic modulus on the same sample. Fibrin mass-length ratio (μ), fibrinopeptide A, D-Dimer, von Wille-brands factor, thromboxane A2, platelet aggregation studies, and bleeding times also were performed. Fourteen patients with CAD were compared with 10 healthy volunteers. Despite more than 95% suppression of thromboxane B2 and prolongation bleeding times in patients taking aspirin, force development remained significantly elevated over healthy control patients (8,279 ± 476 dynes versus 4,857 ± 380 dynes, p < 0.0006). Patients not taking aspirin had normal bleeding times and force development of 19,110 ± 3,700 dynes. Clot elastic moduli were enhanced in patients with CAD whether taking or not taking aspirin. Adenosine diphosphate and ristocetin-induced platelet aggregation were insensitive to the effect of aspirin in patients with CAD. Fibrinopeptide A, von Willebrands factor, and D-Dimer levels were significantly elevated, and fibrin mass-length ratios were significantly larger in patients with CAD. Therefore, despite aspirin therapy, patients with severe CAD have evidence of persistent platelet activation and rigid clot structure. Monitoring of platelet force development may prove useful in delineating enhanced platelet function.

The effect of epsilon-aminocaproic acid and aprotinin on fibrinolysis and blood loss in patients undergoing primary, isolated coronary artery bypass surgery: A randomized, double-blind, placebo-controlled, noninferiority trial

BACKGROUND: Until recently, aprotinin was the only antifibrinolytic drug with a licensed indication in cardiac surgery in the United States. The most popular alternative, &egr;-aminocaproic acid (EACA), has not been adequately compared with aprotinin. We undertook this study to test the hypothesis that EACA, when dosed appropriately, is not inferior to aprotinin at reducing fibrinolysis and blood loss. METHODS: Seventy-eight patients scheduled for primary, isolated coronary artery bypass graft surgery were randomly assigned to receive “full Hammersmith” dose aprotinin, high dose EACA (100 mg/kg initial loading dose, 5 g in the pump prime solution, 30 mg · kg−1 · h−1 maintenance infusion) or equal volumes of a saline-placebo in a double-blind trial. Reductions in peak d-dimer formation (a measure of fibrinolysis) and 24-h chest tube drainage (CTD) were the primary end points by which noninferiority of EACA was tested. The noninferiority limit was set at a 30% increase in peak d-dimer formation (a difference of 250 &mgr;g/mL) and 24-h CTD (a difference of 350 mL) relative to aprotinin. RESULTS: The between-group differences (EACA versus aprotinin) in peak d-dimer formation (−3.58 &mgr;g/L, 95% CI −203 to 195 &mgr;g/L) and 24-h CTD (67 mL, 95% CI −90 to 230 mL) were within the predetermined noninferiority margins (250 &mgr;g/mL and 350 mL, respectively) and satisfied the criteria for noninferiority. Compared with saline, significant between-group reductions in peak d-dimer formation were observed using EACA (589 &mgr;g/L, 95% CI 399-788 &mgr;g/L; P < 0.0001) and aprotinin (585 &mgr;g/L, 95% CI 393-778 &mgr;g/L; P < 0.0001). Similar reductions in 24 h CTD were also seen using EACA (239 mL, 95% CI 50-415 mL; P < 0.05) and aprotinin (323 mL, 95% CI 105-485 mL; P < 0.05) compared with saline. Plasma EACA levels were maintained well above a target of 260 &mgr;g/mL. CONCLUSIONS: When dosed in a pharmacologically guided manner, EACA is not inferior to aprotinin in reducing fibrinolysis and blood loss in patients undergoing primary, isolated coronary artery bypass surgery.