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Eur J Cardiothorac Surg 2007;31:366-371. doi:10.1016/j.ejcts.2006.12.003
Copyright © 2007, European Association for Cardio-Thoracic Surgery. Published by Elsevier B.V. All rights reserved

Topical use of antifibrinolytic agents reduces postoperative bleeding: a double-blind, prospective, randomized study

^a Department of Cardiac Surgery, University Hospital Dubrava, Zagreb, Croatia
^b Department of Pharmacy, University Hospital Dubrava, Zagreb, Croatia

Received 14 September 2006; received in revised form 4 December 2006; accepted 5 December 2006.

^_* Corresponding author. Tel.: +385 1 290 2530; fax: +385 1 290 3819. (Email: dbaric{at}kbd.hr).

	Abstract

Top Abstract 1. Introduction 2. Material and methods 3. Results 4. Discussion Appendix A References

 
Objective: Postoperative bleeding is still one of the most common complications of cardiac surgery. Antifibrinolytic agents successfully reduce bleeding, but there are controversies concerning adverse effects after their systemic use. By topical application of antifibrinolytic agents in pericardial cavity, most of these effects are avoided. We compared the effects of topically applied aprotinin, tranexamic acid and placebo on postoperative bleeding and transfusion requirements. Methods: In this single-center prospective, randomized, double-blind trial, 300 adult cardiac patients were randomized into three groups to receive one million IU of aprotinin (AP group), 2.5 g of tranexamic acid (TA group) or placebo (PL group) topically before sternal closure. Groups were comparable with respect to all preoperative and intraoperative variables. Postoperative bleeding, transfusion requirements and hematologic parameters were evaluated. Results: Postoperative bleeding within first 12-h period (AP group 433 ± 294 [350; 360] ml, TA group 391 ± 255 [350; 305] ml, PL group 613 ± 505 [525; 348] ml), as well as cumulative blood loss within 24 h (AP group 726 ± 432 [640; 525] ml, TA group 633 ± 343 [545; 335] ml, PL group 903 ± 733 [800; 445] ml), showed statistically significant inter-group differences (both p < 0.001). Bleeding rates values were significantly higher in placebo group compared to the groups treated with antifibrinolytic agents (AP and TA groups) concerning both variables. Although TA group showed the lowest values, no statistical differences between TA and AP groups were found. Inter-group difference of blood product requirements was not statistically significant. Conclusions: Topical use of either tranexamic acid or aprotinin efficiently reduces postoperative bleeding. TA seems to be at least as potent as aprotinin, but potentially safer and with better cost-effectiveness ratio.

Key Words: Cardiac surgery • Postoperative bleeding • Aprotinin • Tranexamic acid

	1. Introduction

Top Abstract 1. Introduction 2. Material and methods 3. Results 4. Discussion Appendix A References

 
In time when systemic use of antifibrinolytic agents is highly controversial, with conflicting evidence of both benefits and adverse effects [1–3], topical application of these agents in pericardial cavity could provide alternative means to effectively reduce postoperative bleeding.

Although the topical use of antifibrinolytic agents, such as aprotinin and tranexamic acid (TA), is not a novel method [4,5], it has not been widely accepted as a routine part of cardiac procedure. One of the main reasons is lack of evidence to support regular topical use of antifibrinolytic agents [6]. Only one randomized controlled trial by De Bonnis et al. [7] demonstrated a clinically small benefit in favor of topical TA application over placebo in a group of low risk coronary patients.

The aim of this study was to compare the effects of topically applied aprotinin with TA and placebo on postoperative bleeding and transfusion requirements.

	2. Material and methods

Top Abstract 1. Introduction 2. Material and methods 3. Results 4. Discussion Appendix A References

 
After institutional approval was obtained, 300 patients scheduled for first-time elective cardiac procedure between May 2003 and April 2005 were enrolled in the study. The demographic data of our study groups is displayed in Table 1 . The study was carried out as a prospective, randomized, double-blind investigation with parallel groups.

2.1 Pharmacological protocol
After the enrollment, patients were randomized into three groups using random-number tables. The independent pharmacologist in hospital pharmacy prepared coded solutions with the study drugs or placebo and was not directly involved in the clinical treatment of randomized patients. Solutions contained one million IU of aprotinin (Trasylol; Bayer Pharma d.o.o., Ljubljana, Slovenia) in 250 ml of saline solution (AP group), 2.5 g of TA (Cyklokapron; Pharmacia AB, Stockholm, Sweden) in 250 ml of saline solution (TA group) or 250 ml of saline as placebo (PL group), without any other additives or preservatives. Identical bottles marked with a study number of patient were delivered to the operating theaters. Both the operation theater staff and that of the intensive care unit were blinded regarding the study drug and codes were disclosed at the end of the study.

In all patients, antiaggregative therapy was discontinued for at least 5 days and anticoagulant therapy was continued up to 24 h prior to surgery. There was no systemic appliance of either aprotinin or tranexamic acid in any patient.

2.2 Surgical procedures and drug administration
Different cardiac procedures were performed in this study (Table 2 ), reflecting the usual case-mix performed at our department. Patients with operations both with and without use of cardiopulmonary bypass (CPB) were included in study.

2.3 Anesthetic protocol and cardiopulmonary bypass management
Same anesthetic protocols were used for all patients. All patients were premedicated with morphine in the dose of 0.1 mg/kg IM (Morphine Merck; Merck KgaA, Darmstadt, Germany) 1 h before surgery. Anesthesia was induced by 0.1 mg/kg IV midazolam (Dormicum; F. Hoffman-La Roche Ltd., Basel, Switzerland), 5–7 g/kg IV fentanyl (Fentanyl; Janssen Pharmaceutica, Beerse, Belgium), and 0.1 mg/kg IV pancuronium-bromide (Pavulon; N.V. Organon, Oss, the Netherlands). After endotracheal intubation, the lungs were mechanically ventilated by positive pressure (tidal volume of 8 ml/kg and ventilatory frequency of 12/min) (Cato; Dräger, Lübeck, Germany). Tidal volume and respiratory rate were adjusted to maintain acid–base status and arterial CO₂ pressure within physiological limits. Anesthesia was maintained with a nitrous-oxide mixture (60% oxygen and 40% nitrous oxide) and sevoflurane (Sevorane; Abbott Laboratories S.A., Abbott Park, IL, USA) in doses of 1.0–1.3 minimal alveolar concentration (MAC). Additional doses of pancuronium-bromide (0.1 mg/kg) were administered as required to maintain neuromuscular blockade during surgery.

All cases which required CPB were performed in moderate hypothermia with cardiac arrest achieved with a single antegrade dose of blood cardioplegia followed by a continuous retrograde application of blood potassium cardioplegic solution.

2.4 Anticoagulation during operation
Heparin-sodium (Heparin; Belupo, Koprivnica, Croatia) was administered to achieve activated clotting time (ACT) of >480 s for patients undergoing the procedure with the use of CPB, and was checked every 20 min and re-administered according to the ACT values measured. For patients undergoing the procedure without CPB (off-pump), heparin was administered to achieve ACT time of at least 200 s.

In patients undergoing coronary revascularization (both on- and off-pump) heparin was administered at the end of LIMA takedown. In valvular patients heparin was administered upon placing the cannulation stitches.

At the end of the procedure heparin was fully reversed with protamine-hydrochloridum (Protamin ICN; ICN Pharmaceuticals, Birsfelden, Switzerland) in all patients. In patients undergoing surgery with the use of CPB heparin reversal started upon the removal of the venous cannula, and in patients undergoing off-pump surgery upon the completion of the last anastomosis.

2.5 Transfusion policy
Criteria for transfusion of packed red blood cells were as follows: hematocrit value less than 30% and hemoglobin value less than 90 g/dl accompanied by signs or symptoms of hypovolemia after CPB and during the ICU stay. The criterion for transfusion of fresh frozen plasma was a prothrombin time greater than 1.5 (international normalized ratio) with excessive bleeding, defined as greater than 200 ml/h for two consecutive hours. The criterion for transfusion of platelet concentrates was a platelet count less than 50,000/mm³ with excessive bleeding (>200 ml/h for two consecutive hours). Surgical re-exploration was performed if bleeding in the first 2 h was greater than 300 ml/h or greater than 200 ml/h for four consecutive hours with normal coagulation parameters.

2.6 Data collection and laboratory analysis
Postoperatively, blood loss from the mediastinal chest tubes was recorded at 12 and 24 h from the time patient arrived in the ICU. Blood product transfusions were documented for the entire postoperative hospital stay. All clinical data was harvested from CardioBase, custom-made database of cardiac patients that is routinely used at our department.

Plasma concentration of hemoglobin, hematocrit level, platelet count, prothrombin time, activated partial thromboplastin time (aPTT) and fibrinogen levels were measured before operation and after patient's arrival in the ICU.

2.7 Statistical analysis
Continuous variables are presented as mean ± standard deviation and, for variables with a skew distribution, additionally median with interquartile range was given.

Test of normality (Kolmogorov-Smirnov statistic, with a Lilliefors significance level) has been performed for all continuous variables. For variables with a normal distribution (pre- and postoperative hematologic characteristics), statistical comparison of groups was carried out using analysis of variance (ANOVA) and, for significant inter-group differences, Sidak's and Dunnett's post hoc tests were applied to locate the between-group differences. For variables with a skew distribution (all bleeding results and transfusion requirements), Kruskal–Wallis test was used and, for statistically significant differences, Mann–Whitney test with Bonferoroni correction was used for post hoc comparisons.

The ² test or Fisher exact test was used to compare categoric data.

All statistical tests were evaluated at significant level of 0.05. Statistical analysis was performed using SPSS, version 11.0 (SPSS, Inc., Chicago, IL, USA).

	3. Results

Top Abstract 1. Introduction 2. Material and methods 3. Results 4. Discussion Appendix A References

 
Six patients were withdrawn from the study due to the postoperative reopening for bleeding where an evident surgical source of bleeding was discovered. One patient dropped-out from the study due to the technical mistake. A total of 293 patients were assessed in the study: 100 patients in AP group, 97 in TA group and 96 in PL group.

The three groups were comparable with regard to age, sex, diabetes and EuroScore (both additive and logistic), as shown in Table 1. There were no inter-group differences concerning both CPB use (p = 0.27) and percentage of isolated coronary surgery (p = 0.29). Laboratory analyses showed no differences between the three groups, both preoperatively (Table 3 ) and postoperatively (Table 4 ).

3.1 Postoperative blood loss
Postoperative blood loss for first and second 12-h periods, as well as cumulative blood loss at 24 h is presented in Fig. 1(a–c). Postoperative bleeding within first 12-h period (AP group 433 ± 294 [350; 360] ml, TA group 391 ± 255 [350; 305] ml, PL group 613 ± 505 [525; 348] ml), as well as cumulative blood loss within 24 h (AP group 726 ± 432 [640; 525] ml, TA group 633 ± 343 [545; 335] ml, PL group 903 ± 733 [800; 445] ml), showed statistically significant inter-group differences (both p < 0.001). In both cases, placebo group bleeding was significantly higher than bleeding in groups treated with antifibrinolytic agents. Although TA group showed the lowest values, no statistical differences were found between TA and AP groups. Decrease of mean cumulative blood loss at 24 h was about 30% (270 ml) in TA group, and 20% (169 ml) in AP group, when compared to placebo. There was no inter-group difference in blood loss during second 12-h period (p = 0.46; AP group 293 ± 228 [225; 223] ml, TA group 242 ± 144 [200; 140] ml, PL group 290 ± 275 [250; 140] ml).

View larger version (54K): [in this window] [in a new window]   Fig. 1. Boxplots representing: blood loss during the first 12-h period (a), the second 12-h period (b), cumulative blood loss at 24 h (c) and packet red blood cells transfusions (d).

3.3 Subgroups analyses
Statistical analysis of two subgroups of our study population has been performed. CPB subgroup included patients operated only with CPB support and OPCAB subgroup included patients operated without using CPB.

Results of CPB subgroup are displayed in Table 5 . Again, significant inter-group differences were observed, concerning postoperative blood loss during first 12-h period and cumulative blood loss within 24 h. Post hoc analyses revealed that PL group differs significantly from both AP and TA groups, with no differences between later two. Decrease of mean cumulative blood loss at 24 h was 37% (308 ml) in TA group, and 20% (163 ml) in AP group, when compared to placebo.

	4. Discussion

Top Abstract 1. Introduction 2. Material and methods 3. Results 4. Discussion Appendix A References

First study of topical application of antifibrinolytic agents was reported back in 1993, when Tatar et al. demonstrated evident reduction of both postoperative bleeding and the need for transfusion after topical use of aprotinin in 25 coronary patients [4]. Their results were further verified by double-blind, randomized trial on 100 patients undergoing cardiac operations with CPB published in 1995 by O’Regan et al. [5]. Çiçek et al. [8] showed in 1995 that topically applied aprotinin could not be detected in blood and proposed that it locally relieves fibrinolytic state present in thoracic cavity after cardiopulmonary bypass. The same author year later raised a concern that aprotinin application in thoracic cavity may enhance postoperative mediastinal adhesion formation through its antifibrinolytic effects [9].

De Bonis et al. [7] published in 2000 a double blinded controlled trial with 40 patients undergoing primary CABG with 25% reduction of bleeding after 24 h in group treated with TA, but with no reduction in allogenic transfusions. No systemic absorption of TA was noted. Proposed action of TA is a stabilization of formed cloths by removal of plasminogen from their fibrin surface and therefore inhibition of plasmin-induced resolution of fibrin.

Our intention was to compare effects of both antifibrinolytic agents in larger RCT and to find out if their effects justify regular use in cardiac surgery. Decision to include both patients with and without CPB use in our study reflects regular high percent of off-pump surgery at our department. The potential influence of CPB on results is neutralized by the fact that there are no statistical differences between groups concerning CPB use. Patients at higher risk for postoperative bleeding, such as aortic dissections or reoperations, were excluded from the study because of expected systemic applications of aprotinin.

Although the amount of transfused blood products was almost 250 ml lower in TA group compared to placebo, our study failed to show statistically significant decrease of transfusion requirements. Despite reduction of postoperative bleeding, there was still a relatively high percentage of patients receiving transfusions. This fact is most probably due to flexible adherence to transfusion criteria. Several other studies of either topical or systemic application of different antifibrinolytic agents also failed to show differences in blood products transfusions [7,10–12].

Additional statistical analysis showed the same results in a subgroup of patients operated with use of CPB. On the other hand, in the subgroup of patients operated without use of CPB (OPCAB subgroup), significant difference was shown only concerning bleeding during first 12-h periods, with only AP group being considerably lower then placebo! This result suggests that aprotinin is more potent then tranexamic acid when no CPB is being used. However, these results must be interpreted with caution, because of the smaller sample sizes of mentioned subgroups.

We also have to mention impressive differences regarding the cost of the two drugs: at our institution the aprotinin protocol costs round 71\#8364; per patient, whereas the TA application costs only 23\#8364; per patient.

Based on the results of this double-blinded randomized trial, we can conclude that topical application of both aprotinin and TA efficiently reduces postoperative bleeding. TA seems to be at least as potent as aprotinin, but potentially safer and with better cost-effectiveness ratio.

	Appendix A

Top Abstract 1. Introduction 2. Material and methods 3. Results 4. Discussion Appendix A References

 
Conference discussion

Dr Y. Kassif (Ramat Gan, Israel): Do you routinely give tranexamic acid IV for patients in cardiac surgery?

Dr Baric: You are asking if we were doing it systemically?

Dr Kassif: If you’re giving systemically IV.

Dr Baric: No, it was just a topical application.

Dr Kassif: I understood about this topical, but routinely in cardiac surgery you don’t give tranexamic acid or aprotinin or anything?

Dr Baric: In this study, no. But we applied it in patients that were excluded from the study—that's why we excluded patients having redo cases, dissections, and so on.

Dr U. Lockowandt (Stockholm, Sweden): You had, I understand, six patients that were excluded because of reoperation caused by bleeding. Were they evenly distributed in the three groups?

Dr Baric: Well, first of all, they were withdrawn because of the surgical evidence of bleeding, meaning bleeding from a graft or a mammary or so on. They were almost uniformly spread across the groups. But, again, they were withdrawn from the study and were not included in this statistical analysis.

Dr Lockowandt: Do you think using these topical substances that you could induce inflammatory reactions and create adhesions making reoperations more difficult?

Dr Baric: There were some concerns already 10 years ago about topical application of aprotinin promoting pericardial adhesions afterwards and making potential reoperation more challenging, but to our knowledge, there was no evidence that tranexamic acid is doing this as well. I would like to point out that these concerns about aprotinin were also not proven, so we should do more research on that. In any case, that is a potential drawback of topical application. That's why I pointed out that tranexamic acid seems to be potentially safer, but we have to prove it.

Dr R. Dion (Leiden, The Netherlands): What are you doing for the drainage? Where are you putting your drains? And if both pleura are open, do you adapt the volume of the topical application?

Dr Baric: The fact is that we poured the study solution in pericardial cavity before sternal closure and then we suction it out afterwards, before leaving the operating room. So it's not a big amount. Most of the study solution stays in the pericardial cavity and is not pouring over to pleura. The drainage is counted from the time of arrival to the ICU, so it's not necessary to subtract this volume because we suction it out for the drains before leaving OR.

	Footnotes

 
^\#9734; Presented at the joint 20th Annual Meeting of the European Association for Cardio-thoracic Surgery and the 14th Annual Meeting of the European Society of Thoracic Surgeons, Stockholm, Sweden, September 10–13, 2006.

	References

Top Abstract 1. Introduction 2. Material and methods 3. Results 4. Discussion Appendix A References

 

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This article has been cited by other articles:

				B. Bidstrup and J. Yellowlees Re: Topical use of antifibrinolytic agents reduces postoperative bleeding: a double-blind, prospective, randomized study Eur. J. Cardiothorac. Surg., October 1, 2007; 32(4): 682 - 682. [Full Text] [PDF]

				D. Baric, D. Unic, and B. Biocina Reply to Bidstrup and Yellowlees Eur. J. Cardiothorac. Surg., October 1, 2007; 32(4): 682 - 683. [Full Text] [PDF]

This Article Abstract Full Text (PDF) Alert me when this article is cited Alert me if a correction is posted Citation Map Services Email this article to a friend Similar articles in this journal Similar articles in PubMed Alert me to new issues of the journal Add to Personal Folders Download to citation manager Author home page(s): Davor Baric Bojan Biocina Daniel Unic Zeljko Sutlic Igor Rudez Permission Requests Citing Articles Citing Articles via HighWire Citing Articles via Google Scholar Google Scholar Articles by Baric, D. Articles by Ivkovic, M. Search for Related Content PubMed PubMed Citation Articles by Baric, D. Articles by Ivkovic, M. Related Collections Cardiac - other