S3 Haemopoiesis, the Spleen and Bone Marrow

Question 1

Where does production of blood cells occur? What is the bone marrow distribution in adults and infants?

Answer 1

In the bone marrow

Adults - limited distribution (pelvis, sternum, skull, ribs, vertebrae)

Infants - extensive distribution throughout skeleton

Question 2

What is differentiation of haemopoietic stem cells determined by?

Answer 2

• hormones - erythropoietin and thrombopoietin
• transcription factors
• interactions with non-haemopoietic cell types e.g. endothelial cells

Question 3

Where is erythropoietin secreted? What does it stimulate?

Answer 3

In the kidneys

RBC production

Question 4

Where is thrombopoietin produced? What does it regulate?

Answer 4

The liver and kidney

Production of platelets

Question 5

What are haemopoietic stem cells (HPSCs) able to do more than other adult tissue?

Answer 5

Self-renew

Question 6

What are the sources of haemopoietic stem cells (HPSCs)?

Answer 6

• bone marrow aspiration
• GCSF mobilised peripheral blood stem cells, collected by leucopharesis
• umbilical cord stem cells, “cord bank”

Question 7

What is the reticuloendothelial system (RES)? What is it made up of? Where does it mainly occur?

Answer 7

It is part of the immune system.

Made up of monocytes in the blood and a network of tissues that contain phagocytic cells.

Mainly in the spleen and liver

Question 8

What tissues are each, Kupffer cell, tissue histiocyte, microglia, peritoneal macrophage, red pulp macrophage, Langerhans cell, found in?

Answer 8

• Kupffer cell - liver
• tissue histiocyte - connective tissue
• microglia - central nervous system
• peritoneal macrophage - peritoneal cavity
• red pulp macrophage - spleen
• Langerhans cell - skin and mucosa

Question 9

What is the role of macrophages?

Answer 9

To remove dead/damaged cells and identify and destroy foreign antigens in blood and tissues

Question 10

What do RES cells in the spleen do?

Answer 10

Dispose of blood cells, e.g. damaged/old RBCs

Question 11

Describe the structure of the red pulp in the spleen.

Answer 11

Contains sinuses (vessels/tracts) lined by endothelial macrophages and cords

Question 12

Describe the structure of the white pulp in the spleen.

Answer 12

Has a similar structure to lymphoid follicles

Question 13

What is the function of the spleen in adults?

Answer 13

• sequestration and phagocytosis
• blood pooling
• extramedullary haemopoiesis
• immunological function

Question 14

What is blood pooling?

Answer 14

Platelets and RBCs can be rapidly mobilised during bleeding

Question 15

What is extramedullary haemopoiesis?

Answer 15

Haemopoiesis happening outside the bone marrow e.g. in the spleen.

Pluripotent stem cells proliferate during haematological stress/if bone marrow fails

Question 16

What is myelofibrosis?

Answer 16

Bone marrow cancer that leads to scarring of the bone marrow

Question 17

What % of T and B cells are present in the spleen?

Answer 17

T cells - 25%

B cells - 15%

Question 18

How does blood enter the spleen?

Answer 18

Splenic artery

Question 19

What is splenomegaly?

Answer 19

Spleen enlargement

Question 20

Why would splenomegaly occur?

Answer 20

• red or white pulp being over worked
• back pressure from the hepatic portal system (portal hypertension in liver disease)
• extramedullary haemopoiesis
• expanding as cells infiltrate e.g. cancer cells or blood origin or cancer metastases
• expanding as materials infiltrate

Question 21

What is hypersplenism?

Answer 21

Low blood counts can occur due to pooling of blood in enlarged spleen

Question 22

Why should you avoid contact sports and vigorous activity if you have an enlarged spleen?

Answer 22

To avoid the risk of rupture as it is no longer protected by the rib cage

Question 23

What are some major causes of splenomegaly?

Answer 23

• chronic myeloid leukaemia
• myelofibrosis
• malaria
• schistosomiasis

Question 24

What are some moderate causes of splenomegaly?

Answer 24

• lymphoma
• leukaemias
• myeloproliferative disorders
• liver cirrhosis and portal hypertension
• infections e.g. glandular fever

Question 25

What are some mild causes of splenomegaly?

Answer 25

• infectious hepatitis
• endocarditis
• infiltrative disorders e.g. sarcoidosis
• autoimmune diseases e.g. AIHA

Question 26

How do you feel for an enlarged spleen?

Answer 26

Never normal for the spleen to be palpable below the costal margin

1. Start to palpate in the right iliac fossa (RIF)
2. Feel fo spleen edge moving towards your hand on inspiration
3. Feel for the splenic notch
4. Measure in cm from the costal margin to midclavicular line

Question 27

What is hyposplenism?

Answer 27

Lack of functioning splenic tissue

Question 28

What are some causes of hyposplenism?

Answer 28

• splenectomy
• sickle cell disease
• gastrointestinal diseases e.g. coeliacs, crohn’s and ulcerative colitis
• autoimmune disorders e.g. systemic lupus, rheumatoid arthritis, hashimoto’s disease

Question 29

What are Howell Jolly bodies?

Answer 29

DNA remnants in RBCs

Seen on a blood film, usually removed by spleen so appearance of them is a sign of hyposplenism

Question 30

What are patients with hyposplenism at risk of?

Answer 30

Sepsis from encapsulated bacteria e.g. streptococcus pneumonia, haemophilus influenzae and meningococcus

Question 31

What do you give the patients with hyposplenism?

Answer 31

Life long antibiotic prophylaxis immunisations

Question 32

When does fetal Hb switch to adult Hb

Answer 32

About 3-6 months of age

Question 33

What are the membrane proteins of a RBC?

Answer 33

• spectrin (peripheral)
• ankyrin (peripheral)
• band 3 (integral)
• protein 4.2 (peripheral)

Question 34

What organ recognises changes in RBC shape/membrane structure? What does it do? To prevent what?

Answer 34

The spleen - it removes them from circulation to prevent haemolytic anaemia occurring

Question 35

What does spectrin do?

Answer 35

It links the plasma membrane to the actin cytoskeleton

Question 36

What does ankyrin do?

Answer 36

Links integral membrane proteins to the underlying spectrin-actin cytoskeleton

Question 37

What does band 3 do?

Answer 37

Facilitates chloride and bicarbonate exchange across the membrane and involved in the physical linkage of the membrane to the cytoskeleton (binds to ankyrin an protein 4.2)

Question 38

What does protein 4.2 do?

Answer 38

An ATP-binding protein that may regulate the association of band 3 with ankyrin

Question 39

What is cytopenia?

Answer 39

Reduction in the number of blood cells

Question 40

What is …cytosis or …philia?

Answer 40

An increase in the number of blood cells

Question 41

What happens when haem is degraded?

Answer 41

1. Senescent RBC engulfed by macrophages in the RES
2. Haem released, Fe2+ is recycled
3. Haem breaks down into bilirubin which is transported in blood bound to albumin
4. Bilirubin is conjugated with glucuronic acid and is secreted in the bile where it is removed via the faeces or urine
5. If there is excess bilirubin in the blood, jaundice occurs

Question 42

What do you call an increase and decrease in RBCs?

Answer 42

Increase - polycythaemia or erythrocytosis

Decrease - anaemia

Question 43

What do you call an increase and decrease in WBCs?

Answer 43

Increase - leucocytosis

Decrease - leucopenia

Question 44

What do you call an increase and decrease in lymphocytes?

Answer 44

Increase - lymphocytosis

Decrease - lymphocytopenia

Question 45

What do you call an increase and decrease in monocytes?

Answer 45

Increase - monocytosis

Decrease - monocytopenia

Question 46

What do you call an increase and decrease in neutrophils?

Answer 46

Increase - neutrophilia

Decrease - neutropenia

Question 47

What do you call an increase and decrease in eosinophils?

Answer 47

Increase - eosinophilia

Decrease - eosinopenia/low eosinophils count

Question 48

What do you call an increase and decrease in basophils?

Answer 48

Increase - basophilia

Decrease - basopenia/low basophil count

Question 49

What do you call an increase and decrease in platelets?

Answer 49

Increase - thrombocytosis/thrombocythaemia

Decrease - thrombocytopenia

Question 50

What do you call an increase and decrease in all blood cell types?

Answer 50

Increase - panmyelosis

Decrease - pancytopenia

Question 51

What controls the maturation of neutrophils?

Answer 51

G-CSF

Question 52

What part of the immune system are neutrophils part of, innate or adaptive?

Answer 52

Innate

Question 53

How long to neutrophils live for?

Answer 53

1 to 4 days

Question 54

What does G-CSF control?

Answer 54

• neutrophil production
• chemotaxis
• phagocytosis and killing of pathogens

Question 55

What is neutrophilia?

Answer 55

An increase in the absolute number of circulating neutrophils

Question 56

What causes neutrophilia?

Answer 56

• infection (most common)
• tissue damage
• smoking
• drugs e.g. steroids
• myeloproliferative diseases (rare)
• cytokines (G-CSF)
• cancer

Question 57

What can cause neutropenia?

Answer 57

• reduced production - B12/folate deficiency, aplastic anaemia, radiation, drugs, viral infection, congenital
• increased removal/use - immune destruction (autoantibodies), sepsis, splenic pooling

Question 58

What are the consequences of neutropenia?

Answer 58

• severe life threatening bacterial infection
• severe life threatening fungal infection
• mucosal ulceration

Question 59

How long do monocytes circulate fro before migrating to tissues to differentiate into macrophages/dendritic cells?

Answer 59

About 1 to 3 days

Question 60

What are some causes of monocytosis?

Answer 60

• bacterial infection e.g. TB
• inflammatory conditions e.g. rheumatoid arthritis
• carcinoma

Question 61

What can cause eosinophilia?

Answer 61

• common - allergic diseases, parasitic infection, drug hypersensitivity, skin diseases
• rare - Hodgkin lymphoma, acute lymphoblastic leukaemia, acute myeloid leukaemia, eosinophilic leukaemia

Question 62

What do eosinophils do?

Answer 62

Responsible for immune response against multicellular parasites like helminths

Mediator of allergic responses

Phagocytosis of antigen-antibody complexes

Question 63

When are basophils active?

Answer 63

(Least common)

Active in allergic reactions and inflammatory conditions e.g rheumatoid arthritis, hypersensitivity reactions and ulcerative colitis

Question 64

Where do lymphocytes originate from?

Answer 64

Bone marrow

Question 65

What rate the 3 types of lymphocytes?

Answer 65

B cells, T cells and natural killer cells

Question 66

What type of immunity, humoral and cellular, are B and T cells involved in?

Answer 66

B cells - humoral

T cells - cellular

Question 67

What are some causes of lymphocytosis?

Answer 67

• viral infections
• bacterial infections e.g. whooping cough
• post splenectomy
• smoking
• T-/NK- cell leukaemia
• lymphoma