Session 8 - Specialized Blood Groups

Question 1

What are the 5 classification of bones?

Answer 1

Long - Longer than they are wide (femur, phalanges, metatarsals and metacarpals etc.)
Short - About the as wide as they are long, squarish (tarsals and carpals)
Flat - Somewhat flattened (occipital, sternum, ribs)
Irregular - Complex shape (vertebrae, sacrum)
Sesamoid - small round bones found in tendons of hands, knees and feet (patella)

Question 2

What are the 2 types of bone and what are their different names?

Answer 2

Cortical/ Compact - forms the external surfaces of bones and comprises of ~80% of the skeletal mass
Cancellous/Spongy/Trabecular - forms a network of fine bony columns or plated to combine strength with lightness (filled with bone marrow)

Question 3

What is bone marrow and what does it do?

Answer 3

Red bone marrow - Heamopoeisis, rich blood supply

Yellow bone marrow - Poor blood supply, full of adipocytes, acts as a shock absorber and energy source, can convert to red marrow

Question 4

Describe the structure of cancellous bone

Answer 4

Spongy structure made up of many interwoven trabeculae. Each trabecula consists of numerous osteocytes embedded within irregular lamellae of bone.
Osteoblasts and osteoclasts on their surface act to remodel them

Question 5

Name 7 major corpuscles circulating in the blood and how they are grouped

Answer 5

1) RBC - erythrocytes
2) Platelets (released by megakaryocyte breakup)
White Blood cells:
- Granulocytes:
- Basophils
- Eosinophils
- Neutrophils
- Agranulocytes:
- Lymphocytes
- Monocytes

Question 6

What is the difference between the systemic and pulmonary circulation?

Answer 6

Systemic carries blood around the body to supply oxygen. Pulmonary send deoxygenated blood to lungs to be oxygenated

Question 7

Describe the route new blood cells take into circulation and maturation

Answer 7

RBCs - travel from bone marrow through venule to intermediate vein to larger vein to vena cava.
It takes 2 days during circulation for RBCs to become mature (i.e. haemoglobin becomes active and can up take O2)

WBCs - take same route. but immature cells need to be activated:

• T cells need activating in thymus and lymphatic system
• B cells are already mature

Question 8

How is blood flow in capillaries controlled?

Answer 8

Flow in capillaries is controlled by precapillary sphincters.
- These are small rings of smooth muscle that are located between arterioles and capillaries

A metarteriole acts as a shunt for blood to pass through the thoroughfare channel and bypass the capillary bed

Arteriovenous Anastomosis - allows for large cells to bypass the capillary bed that other-wise wouldn’t fit

Question 9

What are the 3 main layers of a vien?

Answer 9

1) Tunica Intima - Endothelial Cells
2) Tunica Media - Elastic fibres and smooth muscle
3) Tunica Externa - Elastic fibrous capsule

Question 10

Veins can be categorised into 4 main types, what are they?

Answer 10

Pulmonary - Carry oxygenated blood from lungs to left atrium
Systemic - return oxygen- depleted blood from lungs to right atrium
Superficial - Located near surface of the skin, not located near a corresponding artery
Deep - Located deep between tissues and are typically located near a corresponding artery with same name

Question 11

What are the 3 main layers of an artery?

Answer 11

Tunica Intima - Elastic membrane lining and smooth endothelium
Tunica media - Composed of smooth muscle and elastic fibres, 2 distinct elastic layer
Tunica Externa - Strong outer layer of collagen and elastic fibres

Question 12

What are collateral blood vessels?

Answer 12

These are vessels (usually arterioles) that provide an alternative path for blood flow. They are normally generated from chronic diseases as they take time to develop

Question 13

What is the difference between vasculogenesis and angiogenesis?

Answer 13

Vasculogenesis - is the formation of new blood vessels (occurs during embryo development and newly formed cancers)
Angiogenesis - The formation of blood vessels from existing blood vessels (FGF and VEGF)

Question 14

Explain the 2 types of vasculogenesis during embryogenesis

Answer 14

1) (the common step) - production of a single vessel, VEGF produced by endoderm forms primary plexus which folds into the primary vessel
2a) Spouting - Angiogenesis - FGF produced by mesenchymal cells
2b) Division of primary vessel: Intussusception - twinned vessels (explains why veins and arteries can be so close)

Question 15

What is a pericyte and what is it’s role?

Answer 15

Function: They prevent endothelial cell proliferation and maintain tight capillary junctions
Structure: Immature “smooth muscle-like” cell, have contractile properties, and can differentiate into endothelial, smooth muscle or a fibroblast

Question 16

Erythropoietin, Thrombopoietin, Interleukins and G-CSF are hormones that regulate the production of blood corpuscles what specifically are they?

Answer 16

Erythropoietin - Common Myeloid Progenitor to RBC
Thrombopoietin - Common Myeloid Progenitor to Megakaryocyte (platelet)
Interleukins - Common Lymphoid Progenitor to Lymphocytes
G-CSF =Granulocyte - Colony Stimulating Factor - Increasing number of circulating neutrophils

Question 17

Outline the adaptations RBCs have to make them efficient oxygen transporters

Answer 17

• Biconcave shape to increase surface area for diffusion of gases
• No nucleus/minimal organelles to maximise holding capabilities
• No mitochondria to ensure O2 is not being used up. Only respire anaerobically
• Haemoglobin to increase affinity of oxygen

Question 18

What are reticulocytes?

Answer 18

They are immature circulating RBCs. They contain a small amount of RNA which helps to make haemoglobin. This is removed in 1-2 days
High amounts of reticulocytes can be present in the blood when the body is recovering from blood loss

Question 19

How is RBC generation stimulated?

Answer 19

The kidney senses hypoxia and releases erythropoietin. This acts on erythrocyte progenitors and acts to stop apoptosis.

Question 20

What are granulocytes/polymorphonuclear cells?

Answer 20

Sub-group of white blood cells that fight infection/inflammation and get there name due to the presence of granules within their cytoplasm.
Neutrophils, Basophils, Eosinophils

Question 21

What are neutrophils and outline their function

Answer 21

Most abundant form of granulocytes, multilobed nucleus, 3 granule types
They phagocytose pathogens, signal for an immune response and present antigens

Question 22

What are basophils?

Answer 22

• They are stained by basic dies (haematoxylin)
• Release histamine stimulating inflammation (as such they mediate hypersensitivity reactions like asthma)#
• Bilobed nucleus

Question 23

What are eosinophils?

Answer 23

• Phagocytose pathogens
• 2 nuclear lobes
• Acid loving granules (stained by acidic dyes like eosin)

Question 24

What is the role of a monocyte/macrophage?

Answer 24

Monocyte in the blood - Macrophage in the tissue

• Phagocytose pathogens, cell debris, senescent cells
• Antigen presenting
• Unilobular “horseshoes” shaped nucleus
• Largest of all mature blood cells

Question 25

What are B lymphocytes?

Answer 25

• Main function resolves around the production of antibodies (each B cell is specific to an antigen)
• Can activate T cells
• Play a part in humoral adaptive immunity

Question 26

What are T lymphocytes?

Answer 26

• Kill virus-infected cells, neoplastic cells and transplanted tissue
• They carry out cell mediated immunity
• Proliferation and activation caused by IL 2
• Microscopically indistinguishable from B cells

Question 27

Describe how platelets are generated

Answer 27

The liver produces thrombopoietin to upregulate the formation of megakaryocytes and as such their break down and platelet formation
- Platelets contain vast amounts of proteins and clotting factors as well as surface receptors that allow for the formation of platelet aggregates

Question 28

What may be of concern for someone with Alcoholic Liver Disease?

Answer 28

Lack of blood clotting as the liver doesn’t produce enough thrombopoietin to stimulate platelet production. Also the liver isn’t producing enough clotting factors. As such the blood isn’t clotting well leading to the rick of blood loss.