Phase 1 - Week 3 (Blood)

Question 1

List the regions of the abdomen

Answer 1

1. Right hypochondrium (top right)
2. Epigastric (top middle)
3. Left hypochondrium (top left)
4. Right lumbar (middle right)
5. Umbilical (middle)
6. Left lumbar (middle left)
7. Right iliac (bottom right)
8. Hypogastric (bottom middle)
9. Left iliac (bottom left)

Question 2

List the cell types that B cell precursors can mature into

Answer 2

B cells

Question 3

When is definitive Haemostasis achieved?

Answer 3

When Fibrin formed by blood coagulation is added to the platelet mass and platelet- induced clot retraction/compaction occurs.

Question 4

Adduction

Answer 4

Motion that pulls structure closer to the midline of the body or limb

Question 5

Erythropoiesis

Answer 5

Production of new Erythrocytes, constant process as old RBCs are replaced

Question 6

Describe the classificatios of Hypovolaemic Shock in terms of pulse rate

Answer 6

Class I = <100

Class II = >100

Class III = >120

Class IV = >140

Question 7

Stages of Haemostasis

Answer 7

1. Vasoconstriction
2. Platelet aggregation (formation of primary platelet plug)
3. Blood coagulation (formation of definitive fibrin clot)

Question 8

Describe the standard precautions involved in SICP

Answer 8

• Hand hygiene at the 5 moments
• Care in use and disposal of sharps
• Correct use of personal protective equipment for contact with all blood, body fluids, secretions + excretions
• Providing care in a suitably clean environment with adequate decontaminated equipment
• Safe disposal of waste
• Safe management of use linen

Question 9

Describe the mechanism of action of Haemoglobin

Answer 9

Iron combines reversibly with oxygen. The individual globin chains interact to facilitate the offloading of oxygen at lower oxygen saturations. Haemoglobin has a high affinity for oxygen in the lungs and a low affinity for oxygen in the tissues.

Question 10

What is the main protein found in plasma and what is its function?

Answer 10

Albumin - controls osmotic pressure

Question 11

Describe the first aid response to wounds which may contain foreign objects

Answer 11

• Ensure airway is clear (if bleeding from mouth/nose)
• Wear gloves to protect from infection
• Remove clothing around wound
• Don’t pull foreign objects out of wound - could be acting as a plug to reduce bleeding
• Apply pressure on either side of the object
• Lie patient down/raise legs to treat for shock (unless legs are injured)
• Apply bandage
• check circulation

Question 12

What is the role of Von Willebrand’s factor in platelet function

Answer 12

Adhesion of platelets to the vascular endothelium is mediated by VWF that also carries factor VIII coagulation factor.

Question 13

List the cell types that T cell precursors can mature into

Answer 13

• Natural Killer Cells
• T cells - Cytotoxic or Helper

Question 14

Explain the cause of Shock

Answer 14

After blood loss, the drop in oxygen carrying capacity due to the decrease in RBCs means that oxygenation of tissues is not adequate to maintain normal metabolic functions

Question 15

Explain the observations made in the Breathing stage of ATLS

Answer 15

• Check for fractures (sternum/scapula)
• Can have ‘flail’ - loose part of ribs due to fracture, falls in when inhaling
• Haemothorax - collection of blood in pleural space
• Pneumothorax - collection of air in pleural space (collapsed lung)

Question 16

Describe the function of the primary platelet plug

Answer 16

The unstable primary haemostatic plug produced by these platelet reactions in the first minute or so following injury is usually sufficient to provide temporary control of bleeding.

Question 17

Define differentiation

Answer 17

The process by which relatively unspecialised cells, e.g. stem cells, acquire specialised structural and/or functional features that characterise the cells, tissue or organs of the organism

Question 18

Elevation

Answer 18

Movement in a superior direction

Question 19

List the cell types that granulocyte CFUs can mature into

Answer 19

• Monocytes (which mature into Macrophages or Neutrophils)

Question 20

Explain the structure and role of the cytoskeleton in RBCs

Answer 20

Responsible for maintaining shape, proteins include spectrin, actin, ankyrin. Spectrin is most abundant consists of Alpha and Beta chains wound around each other.

Question 21

Describe the structure of the plasma membrane of platelets.

Answer 21

Coated by glycoprotein 1b and GP2b-GP3a, involved in the attachment of platelets of platelets to Von Willebrand’s factor. Membrane is invaginated to form a system of cytoplasmic channels called the invaginated membrane system.

Question 22

Unipotent

Answer 22

Can give rise to one specific adult body tissue cell

Question 23

Describe the classifications of Hypovolaemic Shock in terms of respiration rate

Answer 23

Class I = 14-20

Class II = 20-30

Class III = 30-40

Class IV = >40

Question 24

How are proteins encoded?

Answer 24

Read from mRNA in codons of 3 bases according to the genetic code

Question 25

Explain the observations made in the Circulation stage of ATLS

Answer 25

• Check for cardiac tamponade - bleeding between surface of heart and pericardium limiting movement of heart
• Tension pneumothorax
• Major haemothorax - >1l blood in chest

Question 26

List the possible types of post-translational modifications

Answer 26

1. Glycosylation (sugar chains added)
2. Phosphorylation
3. Other - hydroxylation, Prenylation, Acyl lipidation etc.

Question 27

Describe the steps involved in the Intrinsic Pathway of blood coagulation

Answer 27

1. Factor VII and Factor V = Factor VIIa

and Factor Va by the small amounts of thrombin generated during initiation

2. XII = XIIa due to exposed collagen

XI = XIa due to XIIa

IX = IXa due to XIa (and calcium)

3. Factor IXa and Factor VIIa = Intrinsic Xase

Question 28

How can more than one protein be produced from one gene?

Answer 28

Post-translational modifications

Question 29

Describe the steps involved in the Extrinsic Pathway of blood coagulation

Answer 29

1. Tissue factor + plasma factor VII = Factor VIIa-Tissue factor (Extrinsic Factor Xase)
2. Factor IX = Factor IXa

and

Factor X = Factor Xa by Extrinsic Factor Xase

3. Factor IXa and Factor Xa convert Prothrombin = Thrombin

Question 30

Describe the structure of erythrocytes

Answer 30

• Non-nucleated, biconcave-shaped cells - Lack organelles - only have a plasma membrane, cytoskeleton, haemoglobin and glycolytic enzymes

Question 31

Describe bites + treatment

Answer 31

• Small entry wound - Possibly deep - Foreign body contamination - Animal -Human - Human blood borne viruses - Antibiotics, tetanus, vaccines - Irrigation, delayed closure?(infection)

Question 32

How is spontaneous clotting of blood prevented in blood vessels?

Answer 32

• Structure of the endothelial lining - smooth vessel walls. - Chemicals to prevent clotting - thrombomodulin, nitric oxide, prostacyclin

Question 33

Describe the structure of a Haemoglobin molecule

Answer 33

2 x Alpha chains 2 x Beta Chains 4 x Haem molecules with 4 Iron atoms

Question 34

Why must coagulation be amplified after the Extrinsic Pathway

Answer 34

Not enough thrombin is produced during extrinsic pathway to initiate fibrin polymerisation.

Question 35

Describe the production of platelets

Answer 35

Platelets are small cytoplasmic discoid fragments derived from megakaryocytes under the control of thrompoietin, a glycoprotein produced in the kidneys and liver. Magekaryocytes develop cytoplasmic projections that become proplatelets which fragment into platelets (takes 7-10 days). Platelets bind and degrade thrombopoietin, a mechanism that regulates platelet production.

Question 36

Multipotent

Answer 36

Can give rise to tissue specific cell type of the human body

Question 37

Outline the 5 moments of hand hygiene

Answer 37

1. Before touching patient
2. Before clean/aseptic procedures
3. After touching a patient
4. After touching a patient’s immediate surroundings
5. After body fluid exposure

Question 38

Transcriptome

Answer 38

All the mRNA molecules expressed from the genome

Question 39

Briefly explain the steps involved in the clotting cascade.

Answer 39

1. Initiation (Extrinsic Pathway)
2. Amplification (Intrinsic Pathway)
3. Common pathway

Question 40

Abduction

Answer 40

Motion that pulls structure away from the midline of the body or limb

Question 41

List some examples of wounds

Answer 41

1. Abrasions
2. Degloving
3. Incision
4. Laceration
5. Bites
6. Burns

Question 42

Describe the symptoms associated with shock

Answer 42

• Increase in pulse
• Decrease in blood pressure - last sign
• Increase in respiratory rate (v. reliable measure)
• Decrease in urine output
• Altered mental status

Question 43

Describe how the components of blood other than RBCs are replaced after blood loss

Answer 43

Plasma is mostly water, so water retention by kidneys helps make up lost plasma. Salts in plasma are absorbed through the digestive system. All blood proteins are synthesised in the liver.

Question 44

Describe the role of the triage nurse

Answer 44

• First point of contact for patients in emergency setting
• Assess patients - type of injury or illness, its severity, symptoms, patient explanation of emergency, and vital signs - and decide who will be seen first (traffic light system)

Question 45

Medial

Answer 45

Closer to the midline of the body

Question 46

How is RBC replacement stimulated after blood loss?

Answer 46

1. Peritubular cells in the kidneys recognise that the oxygen level in the blood has decreased (due to loss of RBC) and secrete the hormone Erythropoietin.
2. Erythropoietin travels in the bloodstream to bone marrow which stimulates an increase in the activity of HSCs to produce more cells required to replace lost cells

Question 47

Role of the Smooth ER

Answer 47

Lipid synthesis + metabolism

Question 48

List the sources of potential infection

Answer 48

1. Blood and other body fluids
2. Secretions or excretions (excluding sweat)
3. Non-intact skin
4. Mucous membranes
5. Equipment or items in care environment that could be contiminated

Question 49

List the types of Personal Protective Equipment (PPE)

Answer 49

1. Non-latex disposable gloves
2. Disposable aprons
3. Sterile gloves
4. Sterile aprons
5. Eye protection
6. Masks and respirators

Question 50

Describe treatment of abrasions

Answer 50

• Clean debris (may be moved to theatre to scrub)
• Bleeding is not usually an issue

Question 51

Describe the transition from platelet to fibrin of the Haemostatic plug

Answer 51

The fibrin component of the Haemostatic plug increases as the fused platelets completely degranulate and autolyse and after a few hours the entire Haemostatic plug is transformed into a solid mass of cross-linked fibrin.

Question 52

List the cells found in blood.

Answer 52

• Red blood cells (erythrocytes)
• White blood cells (leukocytes)
• Platelets (thrombocytes)

Question 53

Explain the observations made in the Airway stage of ATLS

Answer 53

• Check for foreign body, swelling fractures
• Check OPA - oral/pharyngeal airway and NPA - nasal/pharyngeal airway

Question 54

Alpha granules

Answer 54

Store proteins involved in Haemostatic functions, including platelet adhesion (fibrinogen, thrombospondin, vitronutin, laminin and VWF), blood coagulation (plasminogen), growth factors for endothelial cell repair and microbial proteins

Question 55

Describe lacerations + treatment

Answer 55

• Due to blunt force trauma only
• Skin splitting, tissue bridging, irregular depths/edges
• Irrigate/clean
• Close - glue/steristrips/staples/stitches

Question 56

Describe the cell types that can be produced from:

a) Eosinophil CFUs
b) Basophil CFUs
c) Megakaryocyte CFUs
d) Erythroid CFUs

Answer 56

a) Eosinophils
b) Basophils
c) Megakaryocytes which mature into platelets
d) Red Blood cells (Erythrocytes)

Question 57

Describe the effects of blood loss on the body

Answer 57

• All components of blood are lost equally
• Oxygen carry capacity of blood drops - causes shock
• Clotting ability drops

Question 58

Describe the major planes used in anatomy

Answer 58

1. Transverse = divides body into superior and inferior structures
2. Sagittal = divides body into left and right structures
3. Coronal = divides body into anterior and posterior structures

Question 59

Describe the function of erythrocytes

Answer 59

Transport of respiratory gases - oxygen/carbon dioxide. Oxygen goes from lungs to tissues and is then exchanged for carbon dioxide.

Question 60

List the major groups of Haematopoietic Growth Factors

Answer 60

1. Colony stimulating factors
2. Erythropoietin and Thrombopoietin
3. Cytokines

Question 61

Lysosomal granules

Answer 61

Containing hydrolytic enzymes participating in the dissolution of thrombi

Question 62

Deep

Answer 62

Further from the surface of the body

Question 63

Fibrinolysis

Answer 63

The process that prevents clots from growing and becoming problematic

Question 64

Explain how the structure of erythrocytes makes them suited to their function

Answer 64

• No nucleus means reduced weight and space for haemoglobin
• Biconcave disc for flexibility
• Membrane structure gives ability to withstand stress of turbulent circulation

Question 65

Dorsal

Answer 65

Structures derived from the back of the embryo

Question 66

Eversion

Answer 66

Movements that tilt the sole of the foot away from the midline of the body

Question 67

How does Plasmin prevent growth of thrombi at the site of injury?

Answer 67

Plasmin is capable of digesting fibrinogen, fibrin, factors V and VIII etc.

Question 68

List the divisions in lineage which can result from Haematopoietic Stem Cells

Answer 68

1. Lymphoid stem cells - mature into T cell precursors and B cell precursors
2. Myeloid Stem Cells - mature into Granulocyte CFUs, Eosinophil CFUs, Basophil CFUs, Megakaryocyte CFUs and Erythroid CFUs

Question 69

How many amino acids are there?

Answer 69

20

Question 70

Anterior

Answer 70

Front/closer to the front

Question 71

Supination

Answer 71

Rotation of the forearm/foot so that the palm or sole is facing anteriorly

Question 72

Describe the process of Erythropoiesis

Answer 72

Erythroid CFU –> Proerythroblasts –> Basophilic erythroblast –> Polychromatophilic erythroblast –> Orthochromatic erythroblasts –> Reticulocyte –> Erythrocyte

Question 73

Describe the classifications of Hypovolaemic Shock in terms of total % blood loss

Answer 73

Class I = up to 15% Class II = 15-30% Class III = 30-40% Class IV = >40%

Question 74

Cranial

Answer 74

Structures close to the top of the body

Question 75

Describe the stages of ATLS

Answer 75

Advanced Trauma Life Support:

A - Airway with cervical spine control (risk of broken neck)

B - Breathing with oxygenation

C - Circulation with haemorrhage control

D - Disability (neurological)

E - Exposure (prevent cold/expose more injuries)

Question 76

Plasma

Answer 76

• Fluid component of blood - Contains salts and organic compounds (including amino acids, lipids, vitamins, proteins and hormones)

Question 77

Describe the classifications of Hypovolaemic Shock in terms of urine output

Answer 77

Class I = >30 mls/hr Class II = 20-30 mls/hr Class III = 5-15 mls/hr Class IV = negligible

Question 78

Explain how Thrombin converts Fibrinogen to cross-linked Fibrin.

Answer 78

Thrombin hydrolyses Fibrinogen releasing Fibrinopeptides A and B to form Fibrin monomers. Fibrin monomers link spontaneously by hydrogen bonds to form a loose insoluble fibrin polymer. Factor XII is also activated by thrombin and stabilises the Fibrin polymers with the formation of covalent bond cross-links.

Question 79

Describe the classifications of Hypovolaemic Shock in terms of mental status

Answer 79

Class I = Normal Class II = Mild anxiety Class III = Anxious Class IV = Confused

Question 80

Pluripotent

Answer 80

Can give rise to any type of cell in the adult human body

Question 81

Dense core granules

Answer 81

Containing mediators of vascular tone (serotonin, ADP, phosphate)

Question 82

List the populations of cells found in bone barrow

Answer 82

1. Haematopoietic stem cells capable of self-renewal 2. Committed precursor cells responsible for the generation of distinct cell lineages 3. Maturing cells, resulting from the differentiation of the committed precursor cell population

Question 83

Describe the steps involved in the Common Pathway of blood coagulation

Answer 83

1. Extrinsic + Intrinsic Xase activate Factor X = Factor Xa
2. Factor Xa + Va + PL (phospholipid) + calcium = Prothrombinase complex
3. Promthrombinase activates Prothrombin = Thrombin
4. Thrombin converts Fibrinogen = Cross linked Fibrin Thrombin activates Factor XIII = Factor XIIIa which also contributes to the Fibrinogen = Fibrin reaction

Question 84

What is the role of Vitamin K in blood coagulation?

Answer 84

The activity of factors II, VII, IX and X is dependent on Vitamin K which is responsible for carboxylation of a number of terminal glutamic acid residues on the molecules.

Question 85

List the types of Shock

Answer 85

1. Hypovolaemic - Haemorrhagic (external/internal) - loss of blood from intravascular space 2. Cardiogenic - Pump failure 3. Septic - Fluid redistribution - leaking capillaries, vasodilation 4. Spinal/neuro - Altered/loss of vascular tone 5. Anaphlylactic - Combination (fluid leaking/cardiac failure etc.)

Question 86

Proteome

Answer 86

All the proteins that can be expressed by an organism

Question 87

Role of the invaginated system in platelets

Answer 87

Allows for the absorption of clotting factors and the release of secretory products stored in granules in thrombin-activated platelets

Question 88

Describe the structure of the periphery of platelets

Answer 88

Hyalomere - contains microtubules and microfilaments that regulate platelet shape change, motility towards the site of injury and infection and release of granule contents.

Question 89

Describe degloving wounds

Answer 89

• Skin/blood supply torn off - Major trauma - Commonly limbs/digits

Question 90

Describe the structure of a RBC’s membrane

Answer 90

Made of collapsible lattice of specialised proteins (cytoskeleton) and outer lipid bilayer. Lipid bilayer provides hydrophobic skin, consists mainly of a mixture of phospholipids and cholesterol.

Question 91

Haematocrit

Answer 91

Number of RBC in blood (normal = 40%)

Question 92

Compare adult (tissue) and embryonic stem cells

Answer 92

Adult (tissue) -Multipotent or single type - Able to become specialised cell types within residing tissue or specific cell type of the tissue - Useful for transplant - Difficult to culture + expand - Less controversial ethically Embryonic - Pluripotent - Able to become any cell type in body - Rejection problem - Easier to culture + expand - Extremely controversial - any embryo has potential to grow into baby

Question 93

Flexion

Answer 93

Movement that decreases the angle between body parts

Question 94

Inversion

Answer 94

Movements that tilt the sole of the foot away from the midline of the body

Question 95

Distal

Answer 95

Further from the centre of the body

Question 96

Depression

Answer 96

Movement in an inferior direction

Question 97

Describe the life-cycle of erythrocytes

Answer 97

• RBCs circulate for 120 days - Senescent RBCs are removed by phagocytosis or destroyed by haemolysis in the spleen - RBCs are replaced in the circulation by reticulocytes which complete haemoglobin synthesis and maturation 1-2 days after entering the circulation - Reticulocytes are produced by haemopoietic tissue in red bone marrow - Before release from bone marrow RBCs shed their nuclei

Question 98

Describe the classifications of Hypovolaemic Shock in terms of blood pressure

Answer 98

Class I = Normal Class II = Normal Class III = Decreased Class IV = Decreased

Question 99

Lateral

Answer 99

Further from the midline of the body

Question 100

Superior

Answer 100

Above another part of the body

Question 101

How is blood coagulation initiated?

Answer 101

After vascular injury, when the membrane-bound Tissue factor is exposed and activated.

Question 102

Caudal

Answer 102

Structures close to the bottom of the body

Question 103

Proximal

Answer 103

Closer to the centre of the body

Question 104

Role of the Rough ER

Answer 104

Protein secretion

Question 105

Where are the cellular components of blood produced?

Answer 105

In bone marrow by Haematopoietic stem cells

Question 106

Ventral

Answer 106

Structures derived from the front of the embryo

Question 107

Describe the process of primary platelet plug formation

Answer 107

1. Break in endothelial lining
2. Initial adherance of platelets (via glycoprotein receptors - GP1A/GP1B - on platelet surface which interact with the extracellular matrix) to exposed connective tissue mediated by VWF
3. Collagen exposure and thrombin generated through activation of Tissue Factor produced at the site of injury cause the adherent platelets to release their granule contents and activate platelet prostaglandin synthesis leading to the formation of TXA2 (causes further vasoconstriction)
4. Released ADP from granules causes platelets to swell and aggregate
5. Platelets roll over exposed VWF in direction of blood flow and GP11a/GP111b receptors become activated, resulting in firmer binding of platelets. Additional platelets from circulating blood are drawn to the area of injury.
6. Continuing platelet aggregation promotes the growth of the Haemostatic plug, which soon covers the exposed connective tissue

Question 108

Pronation

Answer 108

Rotation of the forearm/foot so that the palm or sole is facing posteriorly

Question 109

Explain the events of the vasoconstriction phase of haemostasis

Answer 109

• Immediate vasoconstriction of injured vessel and reflex constriction of adjacent small arteries/aterioles responsible for initial slowing of blood flow in injured area to prevent blood loss
• Reduced blood flow allows contact activation of platelets and coagulation
• Vasoactive amines TXA2 (thromboxane A2) serotonin etc. liberated from adherent platelets releasing their granule contents during platelet aggregation have vasoconstrictive activity
• Involves contraction of smooth muscle cells in BVs
• Becomes more effective as damage increases, more effective in small BVs

Question 110

Describe the classifications of Hypovolaemic Shock in terms of blood loss (ml)

Answer 110

Class I = up to 750 Class II = 750-1500 Class III = 1500-2000 Class IV = >2000

Question 111

Genome

Answer 111

All genes an organisms an organism posesses

Question 112

Describe the structure of the central region of platelets

Answer 112

Granulomere - contains mitochondria, rough endoplasmic reticulum (RER), the Golgi apparatus and 3 distinct types of granules

Question 113

Describe the components of blood in terms of percentages.

Answer 113

43-48% - Cells 52-57% - Plasma

Question 114

Inferior

Answer 114

Below another part of the body

Question 115

Posterior

Answer 115

Back/closer to the back

Question 116

Describe incisions + treatment

Answer 116

• Sharp/penetrating - Stab (deep not wide)/slash - Look less dramatic but v. deep - Must investigate for underlying damage - Can loss blood into chest, abdomen, pelvis, long bones

Question 117

Extension

Answer 117

Movement that increases the angle between body parts

Question 118

What are the functions of blood?

Answer 118

• Carries oxygen from lungs to tissue - Carries carbon dioxide from tissues to lungs - Clotting - Healing - Contains cells which fight infection

Question 119

Describe the process of fibrinolysis

Answer 119

Plasminogen = Plasmin by activators either from the vessel wall (Intrinsic activation) or from the tissues - extrinsic activation

Question 120

Define Standard Infection Control Precautions (SICP)

Answer 120

Used by all staff, in all care settings, at all times, for all pateints/persons whether infection is known to be present or not to ensure the safety of those being cared for, staff and visitors in the care environment

Question 121

Superficial

Answer 121

Closer to the surface of the body

Question 122

List the granules found in platelets

Answer 122

1. Alpha granules
2. Dense core granules
3. Lysosomal granules

Question 123

Totipotent

Answer 123

Can give rise to embryonic membrane - any type of cell in the adult human body