haemoglobin Flashcards
haemolytic anaemia: list and explain the causes of haemolytic anaemia and recall the principles of diagnosis
define haemolytic anaemia
anaemia resulting from shortened survival of red cells in circulation
what can haemolysis result from
intrinsic abnormality of red cells, or from extrinsic factors acting on normal or abnormal red cells
classifications of haemolytic anaemia
intrinsic vs extrinsic; inherited vs acquired; intravascular vs extravascular (normally partly both)
what can result in inherited haemolytic anaemia (3 things with examples)
abnormalities in cell membrane (e.g. hereditary spherocytosis), haemoglobin (e.g. sickle cell) or enzymes in red cell (e.g. pyruvate kinase or G6PD deficiency)
what can result in acquired haemolytic anaemia, and what can this lead to with regard to inherited anaemia
extrinsic factors e.g. micro-organisms, chemicals or drugs, that damage red cells (e.g. membrane, whole cell, Hb); precipitation of episodic haemolysis in individuals with G6PD deficiency can exacerbate any inherited haemolysis
when does intravascular haemolysis occur
if very acute damage to red cell
when does extravascular haemolysis occur
when defective red cells are removed by spleen
4 reasons when to suspect haemolytic anaemia
otherwise unexplained, which is normochromic and usually either normocytic or macrocytic; evidence of morphologically abnormal red cells; evidence of increased red cell breakdown (increased billirubin causing gallstones); evidence of increased bone marrow activity
inherited haemolytic anaemia: example of condition causing membrane defect
hereditary spherocytosis (haemolytic anaemia or chronic compensated haemolysis)
inherited haemolytic anaemia: example of condition causing Hb defect
sickle cell anaemia
inherited haemolytic anaemia: example of condition causing glycolytic pathway defect
pyruvate kinase deficiency (very rare)
inherited haemolytic anaemia: example of condition causing pentose shunt defect
G6PD deficiency
acquired haemolytic anaemia: example of situation causing immune membrane defect
autoimmune haemolytic anaemia
acquired haemolytic anaemia: example of situation causing mechanical whole red cell defect and production of fragments
microangiopathic haemolytic anaemia
acquired haemolytic anaemia: example of situation causing oxidant whole red cell defect
drugs and chemicals
acquired haemolytic anaemia: example of situation causing microbiological whole red cell defect
malaria
hereditary spherocytosis: effect of membrane defect on spleen removal
enter circulation and lose membrane in spleen, so red cells become less flexible and are removed prematurely by spleen (extravascular haemoloysis)
hereditary spherocytosis: effect of premature removal on bone marrow
increases output of red cells, leading to polychromasia and reticulocytosis
hereditary spherocytosis: what does haemolysis lead to in the liver
increased bilirubin production, jaundice and gallstones
hereditary spherocytosis test
spherocytes more prone to haemolyse when osmotic pressure is reduced
hereditary spherocytosis treatment
splenectomy in severe cases, but not until 5-6 years old
hereditary spherocytosis: why is a good diet important, and alternative
avoids secondary folic acid deficiency, or take one folic acid tablet daily
glucose-6-phosphate dehydrogenase (G6PD) deficiency: G6PD use
used in pentose phosphate shunt which protects red cell from oxidant damage
glucose-6-phosphate dehydrogenase (G6PD) deficiency: how are oxidants generated in blood stream
during infection, or may be exogenous
