Haemolytic Reactions

Haemolysis may be intravascular or extravascular. Extravascular haemolysis is more common and occurs when donor red blood cells coated with immunoglobulin G (IgG) or complement are attacked in the liver or spleen [10]. Intravascular haemolysis can be caused by ABO antibodies following the administration of group-incompatible blood. Symptoms include fever; rigours; nausea; vomiting; dyspnea; hypotension; diffuse bleeding; haemoglobinuria; oliguria; anuria; pain at the infusion site; and chest, back and abdominal pain. Associated complications are acute or exacerbated renal failure, disseminated intravascular coagulation, need for dialysis and death secondary to complications [11].

Non-haemolytic Febrile Reactions

A rise in body temperature of at least 1°C above 37°C within 24 hours of transfusion. Febrile reactions result from the release of antibody-mediated endogenous pyrogens or the release of systemic cytokines [12].

Allergic Reactions to Proteins, IgA

A range of allergic reactions can occur from mild (urticarial reaction) to life threatening anaphylaxis.

Transfusion-Related Acute Lung Injury (TRALI)

TRALI is defined as new, acute lung injury during or within 6 hours of blood product administration in the absence of temporally associated risk factors for acute lung injury.

Activation of the recipient’s immune system by antineutrophil cytoplasmic antibodies or anti-HLA antibodies results in massive pulmonary oedema.

TRALI is clinically characterized by a rapid onset of dyspnoea, tachypnoea, fever, cyanosis and hypotension. Clinical examination reveals hypoxic respiratory distress with evidence of bilateral pulmonary oedema on chest radiograph which is not associated with heart failure (non-cardiogenic pulmonary oedema) [13].

Circulatory Overload

Rapid infusion of large volumes of blood products can result in symptoms of circulatory overload. Signs and symptoms include tachycardia, dyspnoea, hypertension, elevated central venous pressure and elevated pulmonary wedge pressure. Cardiomegaly and pulmonary oedema can sometimes be seen on chest radiography [12].

Hyperkalaemia

The potassium concentration of blood increases during storage, by as much as 5–10 mmol per unit [14]. Large-volume transfusion can result in elevated levels of serum potassium concentration in the transfusion recipient and may require treatment.

Citrate Toxicity

Stored blood is mixed with sodium citrate to prevent it from clotting. During a massive transfusion, the recipient may be administered large amounts of citrate. Citrate is usually metabolised rapidly into bicarbonate unless there is liver dysfunction. However, during a massive transfusion, this metabolic pathway may become overwhelmed and metabolic alkalosis may occur [15].

Hypothermia

Red blood cells are refrigerated at 4°C during storage. Hypothermia may be caused by the rapid transfusion of blood stored. A drop in body temperature can be minimised by administering blood through a warming device.

Clotting Abnormalities (After Massive Transfusion)

A massive transfusion of plasma-reduced red blood cells that contain neither coagulation factors nor platelets may lead to a dilutional coagulopathy and increased risk of bleeding. In addition, haemorrhage can result in disseminated intravascular coagulation, which causes consumption of platelets and coagulation factors [16].

Transmission of Infection

Although UK donor blood is routinely screened for transmissible diseases, transmission is still possible, although incredibly rare. Transmitted infections can be viral (hepatitis A, B, C, HIV, CMV), bacterial (Treponema pallidum, Salmonella), or parasitic (malaria, toxoplasma) [14, 17].

Graft-vs.-Host Disease

This complication is very rare because of the implementation of the universal leucodepletion of blood products before transfusion. Donor-derived immune cells, particularly T lymphocytes, can cause an immune response against host tissue. Clinical features include maculopapular rash (typically affecting the face, palms and soles), abdominal pain, diarrhoea and abnormal liver function tests. Pancytopenia occurs because of the destruction of bone marrow stem cells by donor T lymphocytes [14].

Iron Overload

Some patients may require repeated blood transfusions, such as patients with haemoglobinopathies. Chronic transfusion of blood may result in elevated levels of total body iron and the patient may develop a clinical syndrome such as haemochromatosis.

Immune Sensitization

Red blood cells carry a number of surface antigens including the Rhesus D antigen. Patients who carry the antigen are referred to as Rhesus positive and those without the antigen are referred to as Rhesus negative. Rhesus carrier status is inherited and therefore the Rhesus status of the fetus may differ from that of the mother. If a Rhesus negative mother is carrying a Rhesus positive baby, maternal sensitisation (the formation maternal of anti-Rhesus antibodies) can occur if fetal blood cells enter the maternal circulation. This presents a particular risk for subsequent pregnancies when the maternal immune system mounts an immunological attack on Rhesus antigen positive blood cells that may cross from the fetal circulation into the maternal circulation, but also within the fetal circulation. This can cause severe, in utero fetal anaemia and in severe cases may result in pregnancy loss.

The 2017 Serious Hazards of Transfusion (SHOT) report described pulmonary complications as the leading cause of transfusion-related death in the period of 2010–2017. Two deaths were reported from ABO group incompatible transfusion [8].