Anaemia, Vit B12 Flashcards
Reasons for reduced erythropoiesis
- Lack of response to the haemostatic loop e.g. kidney disease, the kidney stops making erythropoietin
- Empty bone marrow e.g. aplastic anaemia
- Marrow infiltrated e.g. cancer or fibrosis tissue
Dyserythropoiesis example
- Anaemia of chronic disease
- Myelodysplastic syndromes
Anaemia of chronic disease: seen in, features
- Inflammatory conditions such as rheumatoid arthritis, inflammatory bowel disease (Crohn’s and Ulcerative Colitis)
- Chronic infection e.g. TB
- Iron stored in macrophages not released, red cells have reduced life span, marrow shows lack of response to erythropoietin
- Anaemia may be microcytic, normocytic or macrocytic
Myelodysplastic syndromes: seen in, features, diagnosis made by, type of anaemia, treatment
- Usually elderly, but can occur earlier
- Production of abnormal blood cells which are not fully developed (abnormal clones of marrow stem cells)
- Diagnosis made by microscopy of cells
- Macrocytic anaemia
- Red cells are prematurely destroyed
- Acute leukaemia develops in high proportion of cases
- Treated by chronic blood transfusions
Haemoglobin abnormalities
- Lack of iron
- Deficiency in building blocks for DNA synthesis ( Vit B12 and folate)
- Mutations in genes that encode the globin protein (thalassaemia, sickle cell)
Why is B12 and folate important in red blood cell production?
- Necessary for nuclear divisions and nuclear maturation
- When deficient, both lag behind cytoplasm development
- Leads to large red cell precursors, with inappropriately large nuclei and open chromatin
Absorption of B12
- Haptocorrins
- B12 pairs with the glycoprotein intrinsic factor(IF) produced by parietal cells in stomach
- IF B12 complex binds in ileum, B12 gets absorbed, IF destroyed
- In portal blood B12 is bound to the plasma protein transcobalamin, which delivers B12 to the bone marrow and other tissues
Deficiency of B12 could result from:
- Dietary deficiency
- Pernicious anaemia (affects gastric parietal cells causing lack of intrinsic factor)
- Disease of the terminal ileum (Crohn’s, IF-B12 unable to bind)
- Congenital deficiency in transcobalamin
Absorption of folate
- Occurs in the duodenum and jejunum
- All dietary folates converted to methyltetrahydrofolate (methylTHF)
- MethylTHF is needed for DNA synthesis
- Stored in the liver
Deficiency of folate could result from:
- Dietary deficiency or increased use (pregnancy, increased erythropoiesis, severe skin disease)
- Proximal small bowel disease (Crohn’s and coeliac)
- Drugs can inhibit dihydrofolate reductase enzume (something to do with methylTHF)
- Alcoholism, urinary loss of folate in liver disease, heart failure
What can occur as B12 and folate deficiencies progress?
Pancytopenia (low platelets and neutrophils)
What is vit B12 deficiency also associated with?
Neurological disease - focal demyelination affecting spinal cord, peripheral nerves and optic nerve
Clinical presentation in sickle cell
- Symptoms of anaemia usually mild as HbS readiy gives up oxygen in comparison to HbA
- Crisis (vasoocclusive, aplastic, haemolytic)
- Other organ damage
How does a cell become sickle shaped?
When the cell becomes deoxygenated the HbS polymerise, repeated cycles of deoxygenation cause the erythrocyte to become irreversibly sickled. Could lead to thrombosis
Things that may cause a sickle cell crisis
Cold, infection, stress
Sickle cell critical blood vessel locations
- Stroke
- Lung infarcts
- Atrophic spleen due to multiple infarcts
- Avascular necrosis and ulceration of skin at femoral head
Where is thalassaemia prevalent?
South Asia, Mediterranean and Far East
Extramedullary haematopoiesis
An attempt to compensate for lack of erythrocytes but results in splenomegaly, hepatomegaly and expansion of haemopoiesis into the bone cortex, this impairs growth and causes classical skeletal abnormalities
