14.2 - Massive Haemorrhage

Question 1

A 45-year-old man has a major haemorrhage following significant trauma and is admitted to your emergency department. He does not have a head injury.

a) Give one definition of major haemorrhage. (1 mark)

Answer 1

> > Loss of more than one blood volume within 24 hours (70 ml/kg or 5 l in a 70 kg adult).

> > 50% of total blood volume loss in less than three hours.

> > Bleeding in excess of 150 ml/min.

> > Bleeding that results in systolic blood pressure less than 90 mm Hg or heart rate greater than 110 bpm.

Question 2

b) What are the principles of management of major haemorrhage in this patient? (11 marks)

Answer 2

This is a medical emergency. I would call for help and follow an ABCDE trauma team management approach to this patient, assessing and treating him simultaneously as issues are revealed

Institute the major haemorrhage protocol:
» Immediate release of blood components (packed red cells and fresh frozen plasma) for initial resuscitation without prior approval by
haematologist.

> > Communication to key personnel: on-call anaesthetists, surgeons, portering staff, blood bank staff.

> > Nominated individual to liaise with the laboratory.

Immediate patient management:
» Recognition of major haemorrhage: concealed or revealed, may have
multiple sources, start to control.
» A and B:
• 100% oxygen, definitive airway if indicated, cervical-spine control.
» C:
• Early haemorrhage control: pressure, tourniquets, immobilisation and
splinting until definitive intervention.
• Large-bore intravenous access (intraosseous if intravenous not
feasible).
• Take blood for cross-match, coagulation, full blood count, urea and
electrolytes, arterial blood gas. Repeat checks during resuscitation to
guide ongoing management. Use point-of-care testing if available.
• Use pressure infusers, blood warmers, cell salvage if applicable.
• Do not give clear fluids unless profoundly hypotensive and no blood
products imminently available.

• Allow permissive hypotension whilst the patient is actively haemorrhaging, avoid vasopressors.

• Follow protocol regarding patient identification prior to giving blood products.

• O negative should be immediately available in clinical area and can be used if there is a delay in blood issue from the blood bank. O positive may be used as patient is an adult male.

• Group specific blood should be ready in 15–20 minutes.

• Fresh frozen plasma should be given 1:1 with packed red cells to replace volume loss.

• Consider cryoprecipitate two pools and platelets one dose until bleeding is controlled and blood test results are available.

• Consider tranexamic acid 1 g.

• Establish whether the patient is taking drugs that interfere with coagulation. Discuss with haematologist and treat as indicated.

• Monitor resuscitation with point-of-care and laboratory tests:

– Fresh frozen plasma if INR greater than 1.5.
– Cryoprecipitate if fibrinogen less than 1.5 g/l.
– Platelets if platelet count less than 75 × 109/l.
• Catheterise to help guide ongoing fluid management.

> > D:
• The question states that there is no head injury. Monitor neurological status as another indicator of cardiovascular stability. Give paracetamol and cautious opioid-based pain relief as required.

> > E:
• Full exposure to check for all sources of bleeding.

• Initiate patient warming.

Question 3

c) What complications might follow a massive blood transfusion? (8 marks)

Answer 3

> > Haemolytic reaction:
• Immediate: ABO incompatibility due to error. Delayed: Rhesus, Kidd, other minor blood groupings.

> > Non-haemolytic febrile reactions: reaction to donor leucocyte antigens.

> > Allergic reaction: recipient immunoglobulin E versus donor proteins.

> > Transfusion-related acute lung injury (TRALI): donor leucocyte antibodies reacting with human leucocyte antigens (HLA) and human neutrophil antigens (HNA) in the recipient.

> > Reaction due to bacterial contamination.

> > Transfusion-associated circulatory overload (TACO).

> > Hyperkalaemia: potassium content in stored blood rises with time due to loss of activity of red blood cell Na/K ATPase pump.

> > Citrate toxicity: large amounts of citrate in fresh frozen plasma and platelets, binds calcium resulting in hypocalcaemia, impacts on cardiac conduction and coagulation.

> > Acid base disturbance: citric acid from anticoagulant and lactic acid from stored cells. Metabolism of both usually rapid so may result in alkalosis.

> > Hypothermia.

> > Air embolism.

> > Thrombophlebitis.

> > Coagulation abnormalities if other blood components not given appropriately.

Late:
» Infection:
• Viral: Hepatitis A, B or C, HIV, CMV.

• Bacterial.

• Parasitic: malaria, toxoplasma.

• Prion: vCJD (risk reduced since universal leucodepletion of donated blood, exclusion of donors who have received blood transfusions in UK, sourcing of plasma for fractionation from abroad).

> > Immune sensitisation, e.g. to rhesus.