18 - Haematology Principles Flashcards
What will tests show if there is haemolytic anaemia?
- Low Hb
- High bilirubin
- Reticulocytosis
- Raised LDH
- Raised urinary urobilinogen
- Decreased haptoglobin
What are the different classifications of haemolytic anaemia and give some examples of each?
- Hereditary v Acquired
- Immune (Coombs +ve) v Non-immune (Coombs -ve)
- Extravascular v Intravascular
What can inherited haemolytic anaemias be classified by?
- Erythrocyte membrane
- Haemoglobin molecule e.g sickle cell, thalassemia
- Metabolic disturbance e.g G6PD deficiency
What can acquired haemolytic anaemias be classified by?
Immune Mediated
- Haemolytic transfusion reactions
- Haemolytic disease of the newborn
- Cold and Warm AIHA
Non-immune mediated
- Mechanical trauma - due to heart/large blood vessel pathology
- Microangiopathic haemolytic anaemia (e.g. HUS, TTP, DIC)
- Burns
- Infections
- Drugs & chemicals
- Hypersplenism
RBCs may become mechanically damaged from the impact on abnormal surfaces such as metallic heart valves or as they pass through abnormal, intravascular fibrin strands that may be seen in microangiopathic haemolytic anaemias
What are some signs and symptoms of haemolytic anaemia?
Symptoms
- Fatigue
- Weakness
- Paraesthesia
- Dyspnoea
- Gastrointestinal symptoms (e.g. nausea, dyspepsia)
- Weight loss
Signs
- Atrophic glossitis
- Pallor
- Fever
- Splenomegaly
- Evidence of underlying disease
Haemolysis
- Jaundice
- Abdominal pain (e.g. gallstones)
- Dark urine (e.g. haemoglobinuria secondary to intravascular haemolysis)
Underlying aetiology
- Neurological signs (e.g. TTP)
- Splenomegaly
What tests do you need to do for a haemolysis screen and what will they show if there is hameolysis?
- FBC inc Reticulocyte count
- Blood film: spherocytes which is prominent feature in AIHA
- Direct Coombs Test
- Bilirubin
- LDH
- Haptoglobin
What is the MCV in haemolytic anaemia?
Normocytic
What might you see on blood film with haemolytic anaemia?
- Spherocytes (e.g. hereditary spherocytosis)
- Schistocytes (e.g. microangiopathic haemolytic anaemia)
- Sickle cells (e.g. sickle cell disease)
What is the pathophysiology of immune mediated haemolytic anaemia?
Binding of antibodies (allo or auto) to erythrocyte membrane, which can lead to fixing of complement and phagocytosis by macrophages
- Alloantibodies: antibodies produced by one individual that will react with antigens of another individual of the same species e.g haemolytic transfusion reaction
- Autoantibodies: generated against components of the individuals own tissue, may be seen in AIHA
What is the difference between cold and warm AIHA?
Warm AIHA:
Antibody reaction against erythrocytes at higher temperatures (e.g. > 37°), which then leads to agglutination
May be idiopathic, or associated with immune dysfunction secondary to infection, chronic inflammation or malignancy. (HIV, EBV, SLE, CLL, NHL)
Cold AIHA
Reaction against erythrocytes at lower temperatures (e.g. < 32°), which then leads to agglutination.
May be idiopathic or associated with systemic diseases such as lymphoma, Mycoplasma pneumoniae infection and infectious mononucleosis.
Why can it be difficult to cross match patients with AIHA?
Autoantibody can react with several or all of the red cell antigens resulting in agglutination reactions with the entire panel of red cells
Can make it very difficult, if not, impossible to provide compatible blood. It may be impossible to tell if a patient has an alloantibody as all the tests are positive due to the presence of the pan-reacting autoantibody
How are patients with AIHA crossmatched?
To exclude the presence of alloantibodies (in addition to the known autoantibodies) the autoantibody must be removed from the serum
Done in National Blood Service laboratories so acquiring compatible blood can take a long time
How is AIHA managed?
- Blood transfusions
- Prednisolone (steroids)
- Rituximab (a monoclonal antibody against B cells)
- Splenectomy
How are hereditary spherocytosis and elliptocytosis managed?
- Folate supplementation
- Splenectomy
- Cholecystecomy if gallstones are an issue
What can trigger haemolytic anaemia in the X-Linked recessive disease G6PD deficiency?
- Infections
- Medications: primaquine (antimalarial), ciprofloxacin, sulfonylureas, sulfasalazine
- Broad beans
Usually Heinz bodies on blood film. Diagnosis can be made by doing a G6PD enzyme assay
What are some causes of Microangiopathic Haemolytic Anaemia (MAHA)?
Small blood vessels have structural abnormalities that cause haemolysis of the blood cells travelling through them
What is paroxysmal nocturnal haemoglobinuria?
Mutation of haemopoietic stem cells leading to loss of the proteins on the surface of red blood cells that inhibit the complement cascade. Results in activation of clotting cascade against RBC
Red urine in the morning containing haemoglobin and haemosiderin. They are also predisposed to thrombosis (e.g. DVT, PE and hepatic vein thrombosis) and smooth muscle dystonia (e.g. oesophageal spasm and erectile dysfunction)
What is the significance of a raised reticulocyte count in anaemia?
Bone marrow is responsive to EPO
What are the different pathways in the coagulation cascade?
What tests are done on a clotting screen?
PT/INR (12-13 seconds/0.8-1.2)
Time taken for blood to clot via the extrinsic pathway
Measure of overall clotting factor synthesis or consumption.
This test can be affected by liver disease, DIC, vit K deficiency and warfarin
APTT (35-45 seconds)
Time time taken for blood to clot via the intrinsic pathway
APTT, however, can indicate issues with factors VIII (vWF), IX, and XI
Bleeding time (1-6 minutes for finger prick)
Patelet specific disorders will increase the overall bleeding time
Thrombin time (10-15 seconds)
This is a test of how fast fibrinogen is converted to fibrin by thrombin.
Similar to prolonged PT, this can be due to DIC, liver failure, malnutrition, abnormal fibrinolysis and many other conditions.
What are the main conditions leading to an abnormal APTT result?
- Haemophilia A (VIII – X-linked recessive)
- Haemophilia B (IX – X-linked recessive)
- Haemophilia C (XI – autosomal recessive)
- von Willebrands disease (as vWF pairs up with factor VIII)
Note: anti-phospholipid syndrome can cause a high APTT despite being a disorder that causes clots, due to it inactivating the phospholipid used in APTT.
What are the main conditions that increase the bleeding time?
- von Willebrand’s disease (vWF deficiency – autosomal dominant)
- TTP/ITP/HUS/DIC
- Thrombocytopaenia
- Bernard Soulier syndrome
What are some additional tests that can help you to interpret abnormalities on a clotting screen?
- FBC for platelet levels
- LFTs for general liver function
- Albumin
- D-Dimer
- Levels of specific factors
- Antibodies
- Thrombophillia screens
- ADAMTS13 (for TTP)
How can you tell the difference between DIC and ITP/TTP/HUS on a coagulation screen?
What should you never give to patients with ITP/TTP/HUS?
Platelets
What do anticoagulants and antiplatelets do to a clotting screen?
- Anticoagulants: increase PT/INR and APTT
- Antiplatelets: increase bleeding time but normal PT/INR and APTT
What do the following conditions do to a clotting screen?
What are some cause of a high INR?
How do you manage a high INR?
If concern regarding head injury and intracranial haemorrhage, consider CT head
Major bleeding
- Stop anticoagulants
- Administer IV vitamin K
- Administer FFP or prothrombin complex
Minor bleeding
- Stop anticoagulants
- Administer IV vitamin K
- Repeat INR after 24 hours, may need further vitamin K
No bleeding with INR > 8
- Stop anticoagulants
- Administer IV or oral vitamin K
- Repeat INR after 24 hours
No bleeding with INR > 5
- Withhold 1-2 doses of anticoagulant
- Review maintenance dose of anticoagulant
What questions should you ask a patient with a high INR and what should you look for on examination/basic investigations?
History
- Dosing history of anticoagulant/compliance
- Concurrent illness
- Change in medications
- Change in diet/lifestyle (including alcohol and tobacco use)
- History of any falls/injuries
- History of blood loss
- Haemoptysis
- Haematemesis
- Melaena
- Bleeding from the gums
Bloods
- FBC to check for concurrent anaemia, signs of infection
- Clotting screen to check for other clotting abnormalities
Examination
- Evidence of bleeding
- Overt blood loss
- Bruising
What are the inherited and acquired risk factors for VTE?
Hormone therapy with oestrogen