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Year : 2005  |  Volume : 37  |  Issue : 1  |  Page : 3-4

Antifibrinolytic agents in traumatic haemorrhage

1 University of Leicester, London School of Hygiene and Tropical Medicine, Keppel Street, London WC1E 7HT, United Kingdom
2 Guys and St Thomas Trust, London School of Hygiene and Tropical Medicine, Keppel Street, London WC1E 7HT, United Kingdom
3 CRASH-2 trial co-ordinating centre, London School of Hygiene and Tropical Medicine, Keppel Street, London WC1E 7HT, United Kingdom

Correspondence Address:
Ian Roberts
CRASH-2 trial co-ordinating centre, London School of Hygiene and Tropical Medicine, Keppel Street, London WC1E 7HT
United Kingdom
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Source of Support: None, Conflict of Interest: None

DOI: 10.4103/0253-7613.13846

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How to cite this article:
Coats T, Hunt B, Roberts I, Shakur H. Antifibrinolytic agents in traumatic haemorrhage. Indian J Pharmacol 2005;37:3-4

How to cite this URL:
Coats T, Hunt B, Roberts I, Shakur H. Antifibrinolytic agents in traumatic haemorrhage. Indian J Pharmacol [serial online] 2005 [cited 2023 Sep 23];37:3-4. Available from: https://www.ijp-online.com/text.asp?2005/37/1/3/13846

For people at ages 5 to 45 years, trauma is second only to HIV/AIDS as a cause of death. Each year, worldwide, over three million people die as a result of trauma, many after reaching hospital.[1] Among trauma patients who do survive to reach hospital, exsanguination is a common cause of death, accounting for nearly half of in-hospital trauma deaths.[2] Central nervous system injury and multi-organ failure account for most of the remainder, both of which can be exacerbated by severe bleeding.[3]

The haemostatic system helps to maintain the integrity of the circulatory system after severe vascular injury, whether traumatic or surgical in origin.[4] Major surgery and trauma trigger similar haemostatic responses and any consequent massive blood loss presents an extreme challenge to the coagulation system. Part of the response to surgery and trauma, in any patient, is stimulation of clot breakdown (fibrinolysis) which may become pathological (hyper-fibrinolysis) in some.[4] Antifibrinolytic agents have been shown to reduce blood loss in patients with both normal and exaggerated fibrinolytic responses to surgery, and do so without apparently increasing the risk of post-operative complications, most notably there is no increased risk of venous thromboembolism.[5]

Systemic antifibrinolytic agents are widely used in major surgery to prevent fibrinolysis and thus reduce surgical blood loss. A recent systematic review[6] of randomised controlled trials of anti-fibrinolytic agents (mainly aprotinin or tranexamic acid) in elective surgical patients identified 89 trials including 8,580 randomised patients (74 trials in cardiac, eight in orthopaedic, four in liver, and three in vascular surgery). The results showed that these treatments reduced the numbers needing transfusion by one third, reduced the volume needed per transfusion by one unit, and halved the need for further surgery to control bleeding. These differences were all highly statistically significant. There was also a statistically non-significant reduction in the risk of death (RR=0.85: 95% CI 0.63 to 1.14) in the antifibrinolytic treated group.

Because the haemostatic abnormalities that occur after injury are similar to those after surgery, it is possible that antifibrinolytic agents might also reduce blood loss, the need for transfusion and mortality following trauma. However, to date there has been only one small randomised controlled trial (70 randomised patients, drug versus placebo: 0 versus 3 deaths) of the effect of antifibrinolytic agents in major trauma.[7] As a result, there is insufficient evidence to either support or refute a clinically important treatment effect. Systemic antifibrinolytic agents have been used in the management of eye injuries where there is some evidence that they reduce the rate of secondary haemorrhage.[8]

A simple and widely practicable treatment that reduces blood loss following trauma might prevent thousands of premature trauma deaths each year and secondly could reduce exposure to the risks of blood transfusion. Blood is a scarce and expensive resource and major concerns remain about the risk of transfusion-transmitted infection. Trauma is common in parts of the world where the safety of blood transfusion is not assured. A recent study in Uganda estimated the population-attributable fraction of HIV acquisition as a result of blood transfusion to be around 2%, although some estimates are much higher.[9],[10] Only 43% of the 191 WHO member states test blood for HIV, hepatitis C and B viruses. Every year, unsafe transfusion and injection practices are estimated to account for 8-16 million hepatitis B infections, 2.3-4.7 million hepatitis C infections and 80,000-160,000 HIV infections.[11] A large randomised trial is therefore needed for the use of a simple, inexpensive, widely practicable antifibrinolytic treatment such as tranexamic acid (aprotinin is considerably more expensive and is a bovine product with consequent risk of allergic reaction and hypothetical transmission of disease), in a wide range of trauma patients, who when they reach hospital are thought to be at risk of major haemorrhage that could significantly affect their chances of survival.

The CRASH-2 trial will be a large international, placebo controlled trial of the effects of the early administration of the antifibrinolytic agent tranexamic acid on death, vascular events and transfusion requirements.[12] The trial aims to recruit some 20,000 patients with trauma and will be one of the largest trauma trials ever conducted. However, it will only be possible to conduct such a trial if hundreds of healthcare professionals worldwide work together to recruit patients to the trial in order to make it a success.

We invite doctors around the world to participate in the CRASH-2 trial, a large multi-centre randomised controlled trial of a simple and widely practicable treatment for traumatic hemorrhage. Evidence from randomised controlled trials is essential for improving healthcare. In the case of widely practicable treatments for common health problems, even modest treatment effects can result in substantial health gains. However, to detect such modest effects requires large multi-centre randomised trials involving hundreds of collaborating health professionals internationally. Many health professionals would be pleased to collaborate in such trials if they knew that they were underway, but at present there is no easy way to bring these trials to their attention. Three years ago, in the context of the CRASH-1 trial of the effect of corticosteroids in head injury, the trial investigators sent a message to the electronic mailing list of the World Association of Medical Editors asking them to consider publishing an editorial about the CRASH-1 trial that invited doctors around the world to participate. In response to this request many medical journals around the world published the CRASH-1 trial editorial in various different languages and as a result many more doctors joined the CRASH-1 trial. The trial was completed in May 2004 and involved around 400 hospitals in almost 50 countries and because of its size provided a reliable answer to an important question. This editorial is the result of a similar such request to medical editors in the context of the CRASH-2 trial.

  References Top

1.Murray CJL, Lopez AD. Global health statistics: A compendium of incidence, prevalence and mortality estimates for over 200 conditions. Harvard School of Public Health. Boston: Harvard University Press; 1996.  Back to cited text no. 1    
2.Sauaia A, Moore FA, Moore E, Moser K, Brennan R, Read RA, et al. Epidemiology of trauma deaths: A reassessment. J Trauma 1995;38:185-93.   Back to cited text no. 2    
3.The Brain Trauma Foundation. The American Association of Neurological Surgeons. The Joint Section on Neurotrauma and Critical Care. Hypotension. J Neurotrauma 2000;17:591-5.  Back to cited text no. 3  [PUBMED]  
4.Lawson JH, Murphy MP. Challenges for providing effective hemostasis in surgery and trauma. Semin Hematol 2004;41:55-64.  Back to cited text no. 4  [PUBMED]  
5.Porte RJ, Leebeek FW. Pharmacological strategies to decrease transfusion requirements in patients undergoing surgery. Drugs 2002;62:2193-211.  Back to cited text no. 5  [PUBMED]  
6.Henry DA, Moxey AJ, Carless PA, O'Connell D, McClelland B, Henderson KM, et al. Antifibrinolytic use for minimising perioperative allogenic blood transfusion (Cochrane Review). In: The Cochrane Library. Issue 1. UK, Chichester: John Wiley and Sons, Ltd.; 2004.   Back to cited text no. 6    
7.Coats T, Roberts I, Shakur H. Antifibrinolytic drugs for acute traumatic injury. (Cochrane Review). In preparation for: The Cochrane Library. Issue 1. UK, Chichester: John Wiley and Sons, Ltd.; 2004.  Back to cited text no. 7    
8.Aylward GW, Dunlop IS, Little BC. Meta-analysis of systemic antifibrinolytics in traumatic hyphema. Eye 1994;8:440-2.  Back to cited text no. 8  [PUBMED]  
9.Kiwanuka N, Gray RH, Serwadda D, Li X, Sewankambo NK, Kigozi G, et al. The incidence of HIV-1 associated with injections and transfusions in a prospective cohort, Uganda, Raki: AIDS; 2004;18:342-4.  Back to cited text no. 9    
10.Heymann SJ, Brewer TF. The problem of transfusion associated acquired immunodeficiency syndrome in Africa: A quantitative approach. Am J Infection Control 1992;20:256-62.  Back to cited text no. 10  [PUBMED]  
11.Goodnough LT, Shander A, Brecher ME. Transfusion medicine: Looking to the future. Lancet 2003;361:161-9.  Back to cited text no. 11  [PUBMED]  [FULLTEXT]
12.CRASH2 [homepage on the Internet]. London: Clinical Randomisation of an Antifibrinolytic in Significant Haemorrhage [Last updated Tue 02-Nov-2004; cited 2005 Jan 13]. Available from: http://www.crash2.lshtm.ac.uk  Back to cited text no. 12    

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