Haemolytic Anaemias Flashcards
What is a haemolytic anaemia
Abnormal breakdown (haemolysis) of red blood cells in blood vessels (intravascular haemolysis) or the spleen (extravascular haemolysis)
What are the symptoms of haemolytic anaemia
Shortness of breath and fatigue
Chronic induced haemolysis leads to accumulation of bilirubin leading to jaundice and possible gallstones
What complications are there of haemolytic anaemia
Massive actue haemolysis can cause cardiac arrest due to lack of O2 delivery to tissues and hyperkalaemia (release of intracellular contents)
Overworking of red pulp of spleen can lead to splenomegaly
What are the types of acquired haemolytic anaemias
Mechanical damage - eg. microangiopathic anaemia
Antibody damage - eg. autoimmune haemolytic anaemia
Oxidant damage
Heat damage
Enzymetic damage - eg. snake venom
Osmotic changes
What is microangiopathic haemolytic anaemia, give some examples and what are the RBCs produced called
Group of haemolytic anaemias where red cells are damaged by phyiscal trauma.
Examples: cells getting snagged as they try passing through small vessels laden with fibrin strands, disseminated intravascular coagulation (DIC), RBCs can be damaged by shear stress produced by defective heart vavles
RBCs produced are schistocytes
What are immune haemolytic anaemias and what are the types
Haemolytic anaemias resutling from infection, lymphoproliferative disorders and reactions to drugs
Classified as either warm or cold
Warm - IgG autoantiboides bind to epitopes on RBC membrane. Macrophages in spleen recognise and break down
Cold - IgM autoantibodies bind to epitopes, also complement fixed to the RBCs. IgM bind to multiple RBCs at more distal parts (colder parts), forming agglutinations . Macrophages in spleen recognise complement and break down
What are the types of inherited haemolytic anaemias
Glycolysis defect - pyruvate kinase deficiency
Pentose-P pathway - G6PDH deficiency
Membrane protein - eg. hereditary spherocytosis
Haemoglobin defect - sickle cell
What is pyruvate kinase deficiency and how does it cause haemolytic anaemia
PKD is an inherited disorder due to mutations in the PKLR gene meaning there is a deficiency in PK in erythrocytes/cells
As RBCs lack mitochondria they need PK for ATP production and without it cellular processes stop
Na/K ATPase pump is inhibited by lack of ATP so RBC loses K to plasma, causing water to move out of the cell causing them to shrink resulting in cellular death and haemolytic anaemia
What is G6PDH deficiency and how does it cause haemolytic anaemia
G6PDH deficiency is X-linked recessive inborn error of metabolism.
G6PDH supplies reducing energy (NADPH). Without this the level of reduced glutathione decreases and the cell becomes susceptable to oxidative stress during infection or exposure to chemicals. This causes haemolytic anaemia
What is hereditary spherocytosis and how does it cause haemolytic anaemia
It is an autosomal dominant disease resulting in abnormalities te RBC membrane proteins (spectrin, ankyrin, band 3, protein 4.2) which impedes ability of RC to change shape
This results in reduction in membrane surface area and spherocyte RBCs. These are less deformable and become trapped and damaged in the spleen resulting in decreased RBC lifespan and haemolytic anaemia
