1.1 Erythropoiesis and Anaemia

Question 1

What are the definitions of hematopoiesis and erythropoiesis?

Answer 1

Hematopoiesis = generation of blood cells (hematopoietic stem cells) predominantly in bone marrow

Erythropoiesis = formation of red blood cells (erythrocytes) from HSC

Question 2

What is myelopoiesis and thrombopoiesis?

Answer 2

Myelopoiesis = formation of white blood cells

Thrombopoiesis = formation of platelets (clotting)

Question 3

What is the general progression of erythropoiesis?

Answer 3

1. Haematopoietic stem cells differentiate into erythroblasts
2. Erythoblasts loose some organelles and nuclei and mature into reticulocytes
3. Reticulocytes loose remaining organelles and mature into erythrocytes (RBC) with no nucleus

Question 4

What is the lifespan of red blood cells, white blood cells, and platelets?

Answer 4

RBC = about 120 days

WBC = vary between hours and years

Platelets = 7 - 10 days

Question 5

Where does hematopoiesis occur?

Answer 5

Predominantly in the bone marrow

Alternate sources when foetus (egg sac, liver, spleen)

Question 6

Progenitors make up the first phase of erythropoiesis. What key changes occur during this phase?

Answer 6

1. Hematopoietic stem cells (HSC) become Bust-Forming Unit Erythroids (BFU-E)
2. BFU-E cells differentiate into Colony Forming Unit Erythroids (CFU-E)
3. CFU-E eventually become Proerythoblasts

Question 7

What is the significance of Bust-Forming Unit Erythroids (BFU-E)?

Answer 7

First progenitors committed solely to the erythroid lineage

Question 8

Precursors (ranging from proerythroblasts to reticulocytes) make up the second phase of erythropoiesis. What are the changes that occur during the 7 days of this phase?

Answer 8

1. Proerythroblasts > Basophilic erythroblasts
2. Basophilic erythoblasts > Polychromatophilic erythoblasts
3. Polychromatic erythoblasts > Orthochromatic erythroblasts
4. Orthochromatic erythoblasts > Reticulocytes

Question 9

Maturation marks the final phase of erythropoiesis. How is this process undergone?

Answer 9

1. Reticulocytes move from bone marrow into peripheral blood
2. Final maturation = repeated passage through spleen/marrow into blood circulation (48hrs) = strained until mature into RBC

Question 10

What are the key differences of reticulocytes and erythrocytes?

Answer 10

Reticulocytes = No nucleus, reduced size, some RNA

Erthrocytes = Mature RBC = No DNA, no RNA, cannot synthesis Hb

Question 11

What are erythroblastic islands?

Answer 11

A central macrophage (WBC) surrounded by up to 30 erthroid cells of varying degrees of maturation

Question 12

What is the purpose of erythoblastic islands?

Answer 12

Anchors erythoblasts + drives differentiation via phagocytosis of extruded nucelus

Haemoglobin synthesis via transfer of iron

Question 13

What is haemoglobin synthesis / biosynthesis in erythropoiesis?

Answer 13

Occurs 2nd phase

Binds heme to developing erythrocytes

Heme = iron rich and 35% of RBC volume, gives colour + oxygen binding

Question 14

Erythropoietin (EPO) is a hormone secreted by kidneys to regulate RBC production. How is this done?

Answer 14

Oxygen regulates EPOs (less oxygen = more EPO produced = more RBC for oxgen transport increase)

EPO binds to receptors on erythroblasts (CFU-E) which stimulate proliferation of erythroid precursors (STAT5 signalling)

Question 15

What is the complete life cycle of a an erythrocyte?

Answer 15

1. Haematopoietic stem cells develop into reticuolcytes in bone marrow
2. Reticulocytes move into blood stream and mature into erythrocytes and criculate for 120 days
3. Once old or damaged, they are phagocytised in bone marrow, liver, and spleen

Question 16

What happens when an erythrocyte is phagocytised?

Answer 16

Lysosomes break down the cell components and the globin portion of Hb is metabolised into amino acids and recycled

Globin, amino acids, and cell components return to hematopoietic bone marrow to be used in haematopoiesis again

Question 17

After globin is removed from Hb, the remainder is split into heme groups and iron ions. What happens to these?

Answer 17

Heme groups = broken down to biliberdin and either recycled for haematopoiesis or used as bilirubin in the liver

Iron ions = bound to transferrin and either recycled for haematopoiesis or stored in the liver as ferritin

Question 18

What is anaemia?

Answer 18

When erythopoiesis goes wrong = deficiency in number or quality of RBCs

Question 19

What are some causes of anaemia?

Answer 19

Deficient production of RBCs

Excesive destruction of RBCs

Blood loss or haemorrhaging

Question 20

What are 4 different presentations of anaemia?

Answer 20

1. Hypochromatic = ion deficiency, thalassemia
2. Microcytic = smaller RBCs, can also be hypochromic, ion deficiency
3. Macrocytic = RBCs are larger than normal
4. Normocytic = Normal RBCs, but fewer of them

Question 21

Iron deficiency anaemia is responsible for 50% of all anaemia. What is the presentation of iron deficiency anaemia?

Answer 21

Presentation = hypochromic and microcytic

Question 22

What are the causes of iron deficiency anaemia?

Answer 22

1. Increased iron requirements (growth demands)
2. Lmiited external supply of iron (malabsorption)
3. Blood loss

Question 23

What is the presentation and causes of microcytic anaemia?

Answer 23

Blood smear = small, often hypochromic RBCs

Mean corpuscular volume (MCV) is low
MCV = <70fL (normal = 80-90fL)

Question 24

What are the causes of microcytic anaemia?

Answer 24

1. Iron deficiency
2. Thalassaemia (genetic disorder resulting in abnormal Hb)

Question 25

Only 3-6% of adults habe macrocytic anaemia. What is the presentation of this rare form of anaemia?

Answer 25

Unusually large RBCs

MCV (mean copuscular volume) is high, >100fL

Question 26

What are the causes of macrocytic anaemia?

Answer 26

Insufficient uptake or absroption of vitamin B12 (eg pernicious anaemia or redcued gastric acid)

Alcoholism

Question 27

What is the presentation of normocytic anaemia?

Answer 27

Normal RBC size and Hb content, but fewer present

Question 28

What are the causes of normocytic anaemia?

Answer 28

Decreased production (eg from chronic disease)

Increased destruction / loss (eg acute bleeding or hyper splenism)

Increased plasma volume (eg pregnancy)

Question 29

What are the clinical signs and symtpoms of anaemia?

Answer 29

Signs = tiredness, dizziness, palpitation, headache

Symptoms = jaundice (yellow skin/membrane) and koilonychia (spoon nails)

Question 30

What are the oral manifestations of anaemia?

Answer 30

1. Pallor of mucous membrane
2. Atrophic glossitis (smooth/gloosy appearance)
3. Angular cheilitis (inflamed and cracked skin at angle of mouth eg iron deficiency)