PPoP

Question 1

What are the fractions of blood?

Answer 1

Plasma - 50%
Haematocrit - 40-45%
White blood cells & platelets - 1-5%

Question 2

What are the sites of haematopoesis?

Answer 2

In foetus:
spleen, bone marrow, liver, yolk sac, lymph nodes

In adults:
bone marrow and lymph nodes

Question 3

What are the features of red blood cells?

Answer 3

Biconcave
no nucleus, golgi body or mitochondria
120 day life span

Question 4

What are the precursors of RBCs?

Answer 4

Normoblast in bone marrow
nucleus removed and moves to blood = reticulocyte
reticulocyte matures and loses organelles

Question 5

What are some features of platelets?

Answer 5

produced in bone marrow from megakaryocytes
discoid 
anuclear
8-12 day life span
increase surface area when activated

Question 6

What are some features of megakaryocytes?

Answer 6

giant cells

large irregular nucleus

Question 7

What are some features of neutrophils

Answer 7

most common, make up 60% of leukocytes
polymorphonuclear
rapidly respond to chemotactic substances
first cell type recruited to inflammation sites

Question 8

What are some features of eosinophils

Answer 8

rare 
pholymorphonucleus
involved in parasite healing 
can live several days
cytotoxic secretory substances

Question 9

What are some features of monocytes?

Answer 9

mononuclear
highly phagocytic and motile
mature into macrophages

Question 10

What is the process leading to platelet plug formation?

Answer 10

Damage to blood vessel -> platelets exposed to collagen, vWF and thrombin -> platelets adhere and activate -> release mediators -> vasoconstriction and aggregation of platelets -> soft platelet plug formation

Question 11

What are the 3 stages of clotting?

Answer 11

initiation, amplification and propagation

Question 12

What activates initiation of clotting

Answer 12

Tissue factor expressed on cells

Question 13

What activates amplification and propagation of clotting?

Answer 13

Thrombin (FIIa) on activated platelets

Question 14

What cofactors are required for initation clotting?

Answer 14

calcium ions and phospholipid

Question 15

What are the features of a plaque

Answer 15

fibrous cap and lipid rich core

Question 16

What are the features of an arterial plaque?

Answer 16

white
platelets are the major component
treated with anti-platelet drugs
caused by MI and stroke

Question 17

What are the features of a venous plaque?

Answer 17

red
fibrin and RBCs are major component
treated with anti-coagulants
caused by trauma and surgery

Question 18

What are the 3 components of Virchow’s triad?

Answer 18

blood flow
endothelial injury
hypercoagulability of blood

Question 19

What are the 3 types of anti-platelet drugs?

Answer 19

Aspirin - COX inhibition -> no TXA2 production
P2Y12 antagonists -> receptor on platelet for aggregation
GPIs -> compete with fibrinogen and vWF

Question 20

What is the main anticoagulant drug?

Answer 20

Heparin

• inhibits factors in clotting pathway
• for prevention and rapid treatment

Question 21

What are the pros and cons of unfractioned heparin

Answer 21

Pros:
cheap, effective, short half life

Cons:
variable bioavailability, risk of HIT and haemorrhage

Question 22

What are the pros and cons of low molecular weight heparin (LMWH)?

Answer 22

Pros:

• increased bioavailability and half life
• less risk of HIT

Cons:

• expensive
• risk of haemorrhage

Question 23

What is heparin induced thrombocytopenia (HIT)?

Answer 23

When heparin binds to PF4 and an antibody is produced

2nd exposure of heparin leads to immune-mediated platelet activation

Question 24

What is pharmacodynamics?

Answer 24

The actions of a drug on the body

Question 25

What is pharmacokinetics?

Answer 25

The actions of an organism on a drug

Includes absorption, distribution, metabolism and excretion

Question 26

What are the 3 types of names a drug is given?

Answer 26

Proprietary (brand), common and chemical names

Question 27

What is Emax?

Answer 27

the maximum effect of a drug (max heigh of log dose-response graph)

Question 28

What is LogEC50?

Answer 28

The concentration of a drug that gives 50% of the maximum response
- value on x axis at 50% of y axis

Question 29

What is KD?

Answer 29

The molar concentration of a drug needed to occupy 50% of receptors at equilibrium
measures affinity of a drug - high KD = low affinity

Question 30

What do agonists need to be effective?

Answer 30

affinity and efficacy

Question 31

What is the difference between full and partial agonists?

Answer 31

full agonists have high efficacy, partial agonists have low efficacy

Question 32

What are the properties of reversible antagonists?

Answer 32

affinity but no efficacy
surmountable (effects can be overcome)
shifts dose-response graph to the right

Question 33

What is pA2?

Answer 33

affinity of an agonist (extent of shift in curve)

-log[antagonist] that requires 2x[agonist] to get the same response

Question 34

`What is a key properties of irreversible antagonists?

Answer 34

The effects are not summountable

Question 35

What type of kinetics are most drugs?

Answer 35

first order kinetics

Question 36

how do you calculate the half life of drugs?

Answer 36

Ln(A0) / K

A0 = initial concentration
K = elimination rate constant

Question 37

How do you calculate the volume of distribution?

Answer 37

Dose A/AO

Question 38

What limits clearance of drugs?

Answer 38

organ blood flow

Question 39

How do you calculate clearance?

Answer 39

Cl = K x Vd
or
Cl = dose/AUC

Question 40

How do you calculate hepatic clearance?

Answer 40

liver blood flow (Q) x extraction ration (Eh)

Question 41

How do you calculate bioavailability (F) ?

Answer 41

For IV = 100%

For oral administraton = AUC (oral)/ AUC (IV)

Question 42

What is the funny current?

Answer 42

mixed Na+ and K+ current in pacemaker cells
causes unstable resting membrane potential
triggers contraction

Question 43

Which ion channels are involved in pacemaker cell contraction?

Answer 43

Ca2+ influx -> K+ loss -> If triggers next contraction

Question 44

What ion channels are involved in cardiac cell contraction?

Answer 44

Fast Na+ influx -> Ca2+ entry through L-type channels -> K+ lost

Question 45

What are the 7 stages of the cardiac cycle?

Answer 45

1. atrial systole
2. isovolumetric ventricular systole
3. ventricular ejection
4. reduced ventricular contraction
5. isovolumetric ventricular relaxation
6. rapid ventricular filling
7. reduced ventricular filling

Question 46

What 3 factor regulate cardiac pumping?

Answer 46

preload
afterload
autonomic nervous system (SNS increases, PNS decreases)

Question 47

What is preload?

Answer 47

End diastolic pressure

stretch in ventricles prior to contraction

Question 48

What is afterload?

Answer 48

The resistance the heart needs to overcome to eject blood into the systemic circulation

Question 49

Why does pulmonary circulation have low resistance?

Answer 49

the arteries are short and wide

allows low pulmonary artery pressure generated by the RV

Question 50

What is pulse pressure?

Answer 50

systolic-diastolic

Question 51

How do you calculate mean arterial pressure?

Answer 51

MAP = diastolic + (systolic - diastolic)/3

Question 52

how is change in pressure calculated?

Answer 52

CO x TPR

Question 53

What are some features of the venous system?

Answer 53

Low resistance
skeletal muscle pump
respiratory pump

Question 54

What factors can change CVP?

Answer 54

blood volume
venous constriction
posture/orthostasis

Question 55

How do you calculate stroke work from a pressure-volume loop?

Answer 55

area inside the loop

Question 56

How do you calculate stroke volume from a pressure-volume loop?

Answer 56

End-diastolic volume - end-systolic volume

max vol on graph - min volume on graph

Question 57

What are the features of the jugular venous pressure wave?

Answer 57

biphasic
low pressure
affected by bulging, stenosis and regurgitation of tricuspid valve

Question 58

What are the components of the jugular venous wave?

Answer 58

a wave = atrial contraction
c wave = carotid pulse 
x descent = atrial relaxation
v wave = atrial filling
y descent = passive atrial emptying

Question 59

What are the features of the peripheral arterial pressure wave?

Answer 59

Monophasic

influenced by reflected waves, compliance, resonance, interference and damping

Question 60

How is CVP measured?

Answer 60

From the internal jugular vein pulse

• needs to be at 45 degrees to see pulse and avoid collapse
• measures height of pulse above the manubriosternal angle

Question 61

Why is the internal rather than external jugular vein used to measure CVP?

Answer 61

closer to RA
valveless
visible
external is superficial and prone to kinks

Question 62

How does the shape of the JVP wave change in tricuspid stenosis?

Answer 62

A wave is enhanced

V wave is diminished

Question 63

How does the shape of the JVP wave change in tricuspid regurgitation

Answer 63

A wave is diminished

V wave is enhanced

Question 64

What are the features of the arterial pressure pulse wave?

Answer 64

• big pulse followed by a reflected wave
• elastic in arteries maintains pressure
• shape is affected by aging, hypertnesion, drugs etc

Question 65

What are the primary heart sounds?

Answer 65

s1 = AV valve closure
s2 = semilunar valve closure

Question 66

What are the additional heart sounds?

Answer 66

s3 = av valve opening
s4 = atrial systole

Question 67

What is gallop rhythm and when is it heard?

Answer 67

When additional heart sounds are heard

occurs when end-diastolic pressure is raised

Question 68

What are murmurs?

Answer 68

Sounds heard due to turbulence of blood

occur in valve stenosis or regurgitation

Question 69

What kind of murmur is heard in mitral stenosis?

Answer 69

diastolic

Question 70

what kind of murmur is heard in aortic incompetence?

Answer 70

early diastolic murmur

Question 71

what kind of murmur is heard in aortic stenosis?

Answer 71

systolic murmur

Question 72

what kind of murmur is heard in mitral incompetence?

Answer 72

pan systolic lush

Question 73

When is jugular venous pressure considered pathological?

Answer 73

if it is more than 3cm above the manubriosternal angle

Question 74

Why is jugular venous pressure important?

Answer 74

indicates right atrium pressure
can indicate cardiac or pulmonary disease
e.g. congestive heart failure or pulmonary embolism

Question 75

What determines preload?

Answer 75

central venous pressure (CVP)

• vasconstriction (e.g. excercise) increases
• blood loss decreases

Question 76

What factors influence afterload?

Answer 76

TPR and aortic stiffness

Question 77

what are the 4 factors that directly influence Cardiac output?

Answer 77

• afterload
• preload
• contractility
• heart rate

Question 78

What is Starling’s law?

Answer 78

Stroke volume increases with volume due to stretch

Question 79

Why is cardiac muscle more sensitive to starling’s law than skeletal?

Answer 79

It becomes more sensitive to calcium with stretch

- steeper graph

Question 80

What are the consequences of starling’s law?

Answer 80

• stroke volume of LV and RV are matched
• CVP (and therefore preload) determines CO
• CO is maintained in increased afterload or decreased contractility

Question 81

What happens to the frank-starling curve in heart failure?

Answer 81

becomes lower

• decreased bp -> less water and salt excretion -> increased blood volume
• activation of SNS and RAAS increase HR = compensated heart failure

Question 82

What is the effect of afterload on `CO

Answer 82

No real effect, as it causes a reduction in stroke volume, but this is overcome by secondary effects:

• increased blood in heart = increased SV (frank-starling)
• ANREP effect
• depression of CO by barroceptor reflex

Question 83

What is the main regulator of contractility?

Answer 83

intracellular calcium concentration

Question 84

What is the effect of the ANS on the funny current?

Answer 84

SNS increases If to increase heart rate

PNS decreases current

Question 85

What are the features of a cardiac action potential?

Answer 85

long duration
long refractory period
short relative refractory period
RMP is very permeable to K+ 
AP duration changes with HR

Question 86

How are SAN cells adapted for pacemaker activity?

Answer 86

lots of membrane and little cytoplasm

Question 87

What are the 2 theories for the unstable RMP in cardiac pacemaker cells?

Answer 87

• membrane clock (funny current)

- calcium clock (cyclic release of Ca2+ from intracellular stores)

Question 88

What allows fast ventricular conduction?

Answer 88

interdigitated junctions
(fast along fibre, slower across fibre as less connexons)

Question 89

What direction is the cardiac dipole in?

Answer 89

depolarisation spreads from base (top right) to apex (bottom left) of the heart

Question 90

What are the 2 electrodes in ecg called?

Answer 90

Recording and reference

Question 91

What are the 3 standard limb leads?

Answer 91

limb lead I - LA-RA
limb lead II - LF-RA
limb lead III - LF-LA

Question 92

Which limb lead gives the standard ECG?

Answer 92

limb lead II

Question 93

What do the different stages of the ECG indicate?

Answer 93

p = atrial depolarisation
q = septum depolarisation 
r = depolarisation of ventricles towards apex
s = depolarisation of ventricles towards atria 
t = ventricle repolarisation

Question 94

What happens during the P-Q interval, and name a pathology this affects?

Answer 94

atrial conduction & AV delay

AV block

Question 95

What happens during the QRS interval, and name a pathology this affects?

Answer 95

ventricular conduction

bundle branch block

Question 96

What happens during the S-T interval, and name a pathology this affects?

Answer 96

ventricle depolarisation

myocardial infarction

Question 97

What happens during the Q-T interval, and name a pathology this affects?

Answer 97

action potential duration

long QT syndrome

Question 98

What is excitation-contraction coupling?

Answer 98

• in contraction of cardiac cells
• action potential opens L-type calcium channels in membrane -> rise in Ca2+
• Ca2+ bind RyR receptors on sarcoplasmic reticulum to induce more calcium release

Question 99

How does relaxation occur in cardiac myocytes?

Answer 99

SERCA takes Ca2+ up into SR

Na+/Ca2+ exchanger on membrane removes Ca from cell

Question 100

What do chronotropic agents affect?

Answer 100

heart rate

Question 101

what do inotropic agents affect?

Answer 101

strength of contraction

Question 102

what do lusitropic agents affect?

Answer 102

rate of relaxation

Question 103

what are some chronotropic agents?

Answer 103

Positive = SNS e.g. adrenaline and noradrenaline
Negative = PNS e.g. Ach

Question 104

what is vascular tone?

Answer 104

balance between constriction and dilation

Question 105

what are some constricting factors?

Answer 105

noradrenaline (main), angiotensin II, adrenaline

Question 106

what is the myogenic response?

Answer 106

increased pressure causes vasoconstriction

Question 107

What factors cause dilation?

Answer 107

NO and EDH released from endothelial cells

Question 108

How does oxidative stress affect endothelial function of blood vessels?

Answer 108

superoxide binds NO, preventing it from mediating dilation

Question 109

What are the 2 main types of vasodilation?

Answer 109

No-mediated and hyperpolarisation

Question 110

what is autoregulation of blood vessels?

Answer 110

constant maintenance of blood flow to important vascular beds over a wide range of pressures

Question 111

What is the main mediator of autoregulation?

Answer 111

myogenic resposne

Question 112

What is the effect of tissue metabolites on vasculature?

Answer 112

cause vasodilation

Question 113

what is metabolic hyperaemia?

Answer 113

increased metabolism in excercise, get build up of metabolites causing vasodilation
increases blood flow

Question 114

what is reactive hyperaemia

Answer 114

cutting off local blood flow e.g. in isometric exercise

metabolites accumulate to cause vasodilation

Question 115

what types of endothelium are in capillaries?

Answer 115

continuous
fenestrated (kidneys, joints, intestinal mucosa)
sinusoidal (liver, bone marrow, spleen)

Question 116

What are the pressure gradients driving fluid movement in capillaries?

Answer 116

hydrostatic pressure and osmotic pressure

Question 117

What are the units between valves in lymphatics called?

Answer 117

lymphangion

Question 118

what is the baroreceptor reflex

Answer 118

rapidly limits changes to blood pressure

Question 119

where are the baroreceptors?

Answer 119

carotid sinus and aortic arch

Question 120

what regulates long term control of blood pressure?

Answer 120

blood volume

- mainly determine salt intake

Question 121

what is pressure natriuresis?

Answer 121

when high blood pressure increases perfusion to kidneys, so there is increased Na+ excretion

Question 122

What stimulates the RAAS system?

Answer 122

decreased blood volume, Na+ conc or blood pressure

Question 123

What is the neurogenic model of BP control?

Answer 123

that the SNS can contribute to long term control of BP as well as the kidneys

Question 124

Permeability of which ion determines the resting membrane potential in the heart?

Answer 124

potassium

Question 125

does a positive charge moving into a cell generate an inward or outward current?

Answer 125

inward

Question 126

does a negative charge moving into a cell generate an inward or outward current?

Answer 126

outward

Question 127

why is the ventricular action potential long?

Answer 127

to prevent tetany and arrhythmias

Question 128

What formula is used to calucate a corrected QT interval and normalise the AP duration?

Answer 128

Bazett or Fredericia’s formula

Question 129

What is the bradycardic agent that blocks the funny current?

Answer 129

Ivabradine

Question 130

What are the common forms of connexons in the heart?

Answer 130

connexin 43
connexin 45
connexin 40

Question 131

What does anisotropic mean?

Answer 131

a substance that has different properties when measured in different directions
- e.g. in heart fibre orientation

Question 132

list the major E-C coupling proteins phosphorylated by PKA?

Answer 132

L-type Ca channels
RyRs 
PLB
PLB 
Myofilament proteins (troponin I and myosin binding protein C).