Pre-hospital Anti-fibrinolytics for Traumatic Coagulopathy and Haemorrhage (The PATCH Study)
Overview
The purpose of this research is to determine whether giving severely injured adults a drug called tranexamic acid (TXA) as soon as possible after injury will improve their chances of survival and their level of recovery at six months. After severe injury, a person may have uncontrolled bleeding that places them at high risk of bleeding to death. Coagulation (the formation of blood clots) is an important process in the body that helps to control blood loss. Up to a quarter of people that are severely injured have a condition called acute traumatic coagulopathy. This condition affects coagulation and results in the break down of blood clots (fibrinolysis) that can lead to increased blood loss and an increased risk of dying. TXA is an anti-fibrinolytic drug that might help to reduce the effects of acute traumatic coagulopathy by preventing blood clots from breaking down and helping to control bleeding. In Australia, TXA is approved for use by the Therapeutic Goods Administration (TGA) to reduce blood loss or the need for blood transfusion in patients undergoing surgery (i.e. cardiac surgery, knee or hip arthroplasty). Recent evidence from a large clinical trial (CRASH-2) showed early treatment with TXA reduced the risk of death in severely injured patients, however the majority of patients involved in the study were injured in countries where prehospital care is limited and rapid access to lifesaving treatments is limited compared to that available in countries like Australia and New Zealand. It is unclear whether TXA will reduce the risk of death to the same degree when it is given alongside other lifesaving treatments that are available to patients soon after injury in these countries. The hypothesis is that TXA given early to injured patients who are at risk of acute traumatic coagulopathy and who are treated in countries with systems providing advanced trauma care reduces mortality and improves recovery at 6-months after injury.
Full Title of Study: “A Multi-centre Randomised, Double-blinded, Placebo-controlled Trial of Pre-hospital Treatment With Tranexamic Acid for Severely Injured Patients at Risk of Acute Traumatic Coagulopathy.”
Study Type
- Study Type: Interventional
- Study Design
- Allocation: Randomized
- Intervention Model: Parallel Assignment
- Primary Purpose: Treatment
- Masking: Quadruple (Participant, Care Provider, Investigator, Outcomes Assessor)
- Study Primary Completion Date: May 9, 2022
Interventions
- Drug: Tranexamic Acid
- Tranexamic acid is a synthetic lysine derivative that inhibits fibrinolysis by blocking the lysine binding sites on plasminogen therefore inhibiting the conversion of plasminogen to plasmin. Intravenous injection of 1g Tranexamic Acid will be administered in the pre-hospital setting followed by 1g Tranexamic Acid infused intravenously over 8 hours initiated in the hospital emergency department.
- Drug: Placebo
Arms, Groups and Cohorts
- Experimental: Tranexamic Acid
- As soon as possible after injury, emergency medical services clinicians will administer 1g Tranexamic Acid (10ml ampoule containing 100mg/ml Tranexamic Acid in water for injection) delivered intravenously using a slow push of the syringe. As soon as possible after the patient arrives at hospital, clinicians will administer 1g Tranexamic acid (10ml ampoule containing 100mg/ml Tranexamic Acid in water for injection) added to up to one litre 0.9%w/v Sodium Chloride and the entire volume infused intravenously over 8 hours.
- Placebo Comparator: Placebo
- As soon as possible after injury, emergency medical services clinicians will administer a 10ml ampoule containing 0.9%w/v Sodium Chloride via intravenous injection using a slow push of the syringe (ampoules containing Sodium Chloride appear identical to the ampoules containing Tranexamic Acid). As soon as possible after the patient arrives at hospital, clinicians will administer a second 10 ml ampoule containing 0.9%w/v Sodium Chloride added to up to one litre 0.9%w/v Sodium Chloride and the entire volume infused intravenously over 8 hours.
Clinical Trial Outcome Measures
Primary Measures
- The proportion of patients with a favourable outcome (moderate disability or good recovery, GOSE scores 5-8) compared to those who have died (GOSE 1), or have severe disability (GOSE 2-4).
- Time Frame: 6 months
Secondary Measures
- Units of blood products used (red blood cells, plasma, platelets, prothrombin complex concentrate, fibrinogen, Factor VIIa, cryoprecipitate)
- Time Frame: 24 hours
- Coagulation assessed using the international normalised ratio (INR)
- Time Frame: Immediately upon patient arrival to hospital
- Coagulation assessed using the international normalised ratio (INR)
- Time Frame: At the end of 8 hour infusion of study drug
- Coagulation assessed using the international normalised ratio (INR)
- Time Frame: 24 hours after pre-hospital dose of study drug
- Coagulation assessed by activated partial thromboplastin time (APTT)
- Time Frame: Immediately upon patient arrival to hospital
- Coagulation assessed by activated partial thromboplastin time (APTT)
- Time Frame: At the end of 8 hour infusion of study drug
- Coagulation assessed by activated partial thromboplastin time (APTT)
- Time Frame: 24 hours after pre-hospital dose of study drug
- Platelet count
- Time Frame: Immediately upon patient arrival to hospital
- Platelet count
- Time Frame: At the end of 8 hour infusion of study drug
- Platelet count
- Time Frame: 24 hours after pre-hospital dose of study drug
- Vascular occlusive events (myocardial infarction, stroke, deep venous thrombosis (DVT), pulmonary embolus (PE))
- Time Frame: Hospital discharge (or up to 28 days in hospital)
- Ventilator-free days
- Time Frame: 28 days
- Mortality
- Time Frame: 24 hours
- Mortality
- Time Frame: 28 days
- Mortality
- Time Frame: 6 months
- Proportion of deaths due to bleeding, vascular occlusion (pulmonary embolus, stroke, acute myocardial infarction), multi-organ failure, or head injury
- Time Frame: 24 hours
- Proportion of deaths due to bleeding, vascular occlusion (pulmonary embolus, stroke, acute myocardial infarction), multi-organ failure, or head injury
- Time Frame: 28 days
- Proportion of deaths due to bleeding, vascular occlusion (pulmonary embolus, stroke, acute myocardial infarction), multi-organ failure, or head injury
- Time Frame: 6 months
- Cumulative incidence of sepsis
- Time Frame: Hospital discharge (or up to 28 days in hospital)
- Quality of life measured using WHODAS 2.0
- Time Frame: 6 months
- Quality of life measured using the EuroQOL 5 dimensions questionnaire (EQ-5D)
- Time Frame: 6 months
- Number of participants with serious adverse events
- Time Frame: hospital discharge (or up to 28 days in hospital)
- Coagulation assessed by fibrinogen
- Time Frame: Immediately upon patient arrival to hospital
- Coagulation assessed by fibrinogen
- Time Frame: At the end of 8 hour infusion of study drug
- Coagulation assessed by fibrinogen
- Time Frame: 24 hours after pre-hospital dose of study drug
Participating in This Clinical Trial
Inclusion Criteria
- Adult patients (estimated age 18 years or older) – Injured through any mechanism – Coagulopathy of severe trauma (COAST) score of 3 points or greater – First dose of study drug can be administered within three hours of injury – Patients to be transported to a participating trauma centre COAST score – Entrapment (ie in vehicle) [Yes = 1, No = 0] – Systolic blood pressure [<90 mmHg = 2, <100 mmHg = 1, ≥100 mmHg = 0] – Temperature [<32℃ =2, <35℃ = 1, ≥35℃ = 0] – Major chest injury likely to require intervention (e.g. decompression, chest tube) [Yes = 1, No = 0] – Likely intra-abdominal or pelvic injury [Yes = 1, No = 0] Exclusion Criteria:
- Suspected pregnancy – Nursing home residents
Gender Eligibility: All
Minimum Age: 18 Years
Maximum Age: N/A
Are Healthy Volunteers Accepted: No
Investigator Details
- Lead Sponsor
- Monash University
- Collaborator
- National Health and Medical Research Council, Australia
- Provider of Information About this Clinical Study
- Principal Investigator: Russell Gruen, Professor of Surgery and Public Health – Monash University
- Overall Official(s)
- Russell L Gruen, MBBS PhD, Principal Investigator, Monash University
References
Gruen RL, Jacobs IG, Reade MC; PATCH-Trauma study. Trauma and tranexamic acid. Med J Aust. 2013 Sep 2;199(5):310-1. doi: 10.5694/mja13.10747. No abstract available.
Reade MC, Pitt V, Gruen RL. Tranexamic acid and trauma: current status and knowledge gaps with recommended research priorities. Shock. 2013 Aug;40(2):160-1. doi: 10.1097/SHK.0b013e31829ab240. No abstract available.
Mitra B, Mazur S, Cameron PA, Bernard S, Burns B, Smith A, Rashford S, Fitzgerald M, Smith K, Gruen RL; PATCH-Trauma Study Investigators. Tranexamic acid for trauma: filling the 'GAP' in evidence. Emerg Med Australas. 2014 Apr;26(2):194-7. doi: 10.1111/1742-6723.12172.
Gruen RL, Mitra B. Tranexamic acid for trauma. Lancet. 2011 Mar 26;377(9771):1052-4. doi: 10.1016/S0140-6736(11)60396-6. No abstract available.
Mitra B, Cameron PA, Mori A, Maini A, Fitzgerald M, Paul E, Street A. Early prediction of acute traumatic coagulopathy. Resuscitation. 2011 Sep;82(9):1208-13. doi: 10.1016/j.resuscitation.2011.04.007. Epub 2011 Apr 21.
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