Cardiovascular System II - ECG

Question 1

What is an electrocardiogram (ECG

Answer 1

Measured by electrodes put on skin pick up electrical fields from signals conducted in heart

Question 2

Describe an ECG

Answer 2

Body fluids are saline, conduct electrical signals well, EKGs recorded from limb leads/chest leads

Question 3

What do different leads emphasise?

Answer 3

Different aspects of electrical signals

Question 4

What are the different parts of a heartbeat shown on an ECG?

Answer 4

P wave, PR interva;, QRS complex, S-T segment, T-wave, QT interval

Question 5

What is the P wave?

Answer 5

Atrial depolarisation

Question 6

What is the PR interval?

Answer 6

Time from onset of atrial activation to onset of ventricular activation

Question 7

What is the QRS complex?

Answer 7

Ventricular depolarisation

Question 8

What is the S-T segment?

Answer 8

Isoelectric, Ventricles before repolarisarion

Question 9

What is the T-wave?

Answer 9

Ventricular repolarisation

Question 10

What is the OT interval?

Answer 10

Duration of ventricular activation and recovery

Question 11

How is the paper divided on an ECG sheet?

Answer 11

Paper divided into small 1mm and large 5mm squares

Question 12

How many smalls squares in 1 large square?

Answer 12

1 large square = 5 small squares

Question 13

What length per time does the paper at?

Answer 13

25mm per second

Question 14

Describe the time calculated from small and large squares

Answer 14

1 small square (1/25) = 0.04sec
1 large square = ⅕ = 0.2 sec
5 large squares = 1 sec
300 large squares = 1 min

Question 15

What are the steps to calculating heart rate from an ECG sheet?

Answer 15

Count no. large squares btw consecutive beats eg R-R interval
Divide 300 by n.o of large squares in R-R interval
Eg large squares btw 2 beats = 4, 300 large squares = 1 min, time for 1 beat = 4 squares, N.o of beats per min = 300/4

Question 16

What is an arrythmia?

Answer 16

Abnormalities in heart rhythm

Question 17

What are the 2 causes of arrythmias?

Answer 17

Malfunction of the conductive system

Abnormal impulse generation (ectopic beats)

Question 18

Describe malfunction of the conductive system

Answer 18

Partial damage to AV node, lead to heart block causing more than one P wave in each QRS-T complex

Question 19

Describe abnormal impulse generation

Answer 19

Originate in atria/ventricle in absence of nodal damage/initiate extra systoles

Question 20

Describe ectopic beats

Answer 20

Loss or addition of a beat
If many ectopic foli form, discharge asynchronously means cardiac tissue is fibrillating - Heart may not pump blood when this occurs

Question 21

Describe the difference between atrial and ventricular fibrillation

Answer 21

Atrial fib - QRS complex can form but superimposed on irregular baseline with no clear P waves
Ventricular fib - No QRS-T waves, causing no cardiac output result in death

Question 22

What is tachycardia?

Answer 22

Heart rate over 100 beats/min

Question 23

What are the causes and other types of tachycardia?

Answer 23

Benign factors (very dangerous)
Atrial fibrillation, atrial flutter, atrial tachycardia, ventricular tachycardia

Question 24

What is bradycardia?

Answer 24

Heart rate under 60 beats/min

Question 25

Describe bradycardia

Answer 25

Leads to fatigue, weakness

Atrial bradycardia caused by vagal nerve stimulation, AV node, absence of electrical impulse from sinus node

Question 26

What is a heart block?

Answer 26

Blockage of part of the electrical system of heart

Question 27

What is caused (symptoms) and what can a heart block lead to?

Answer 27

Lightheadedness, syncope (fainting), palpitations (as opposed to coronary heart disease (CAD) - Blood vessels of heart)
CAD leads to angina/MI

Question 28

What are the 5 types of blood vessels?

Answer 28

Arteries, Arterioles, Capillaries, Venules, Veins

Question 29

What are the 3 layers of a muscular arteriole?

Answer 29

Tunica intima (innermost layer)
Tunica media (middle layer)
Tunica adventitia (outer layer)

Question 30

Describe tunica intima

Answer 30

Single monolayer of endothelial cells on thin layer of connective tissue
Endothelial cells from main barrier to other circulating blood factors eg plasma proteins
Endothelium secrete vasoactive substances which contribute in regulating vascular tone (nitric oxide, prostacyclin)

Question 31

Describe tunica media

Answer 31

Consists of spindle-shaped smooth muscle cells embedded in matrix of elastin/collagen
Provides mechanical strength, contractile power for blood vessel (contraction and dilation)

Question 32

Describe tunica adventitia

Answer 32

Connective tissue sheath, no distinct outer border, binds to vessel loosely in place
Consists mostly of fibroblasts and nerve endings

Question 33

Describe elastic arteries

Answer 33

Conducting vessels - Diameter 1-2cm in man

Question 34

Name examples of elastic arteries and what are they characterised by?

Answer 34

Pulmonary artery, Aorta, Major aortic branches (eg iliac arteries)
Distensible walls - High elastin in medial layer

Question 35

What does elastin allow?

Answer 35

Vessels to expand/receive stroke volume during ventricular ejection (and recoil during diastole)

Question 36

Why is collagen within the medial layer?

Answer 36

Provides rigid support preventing vessels from over-distending

Question 37

Describe the classification of arterioles (resistance arteries)

Answer 37

Diameter (20-100M), relatively thick walls (20-30M)
Provide main resistance to blood flow - High resistance due to narrow lumen
Regulate blood flow locally by inc/dec flow

Question 38

Describe the classification of capillaries (exchange vessels)

Answer 38

Diameter (6-10M)
Single layer of endothelial cells
Thickness (0.2-1M) facilitates rapid transfer of metabolites between blood/tissue

Question 39

Describe the classification of capacitance vessels (venules and veins)

Answer 39

Thinner walls than arteries
Allows easy distension/collapse - Act as reservoir of blood
Many veins innervated by vasoconstrictor nerve fibres - Allows volume of blood in vessels to be actively controlled

Question 40

Define blood pressure

Answer 40

Pressure exerted by circulating blood upon walls of blood vessels

Question 41

Describe blood pressure

Answer 41

Systemic arterial pressure measured on upper arm - Measure of pressure in brachial artery

Question 42

How is blood pressure expressed?

Answer 42

As systolic pressure over diastolic pressure (mmHg) eg 120/80

Question 43

Describe pressure gradient in blood vessels

Answer 43

Mean systemic blood pressure = 93mmHg in arteries to 10mmHg in vena cava
Velocity of flow depends on total cross sectional area
Flow is slowest in caps, fastest in aortic major arteries

Question 44

Why does pressure never reach zero?

Answer 44

Arteries aren’t completely empty of blood

Question 45

What is the equation for pulse pressure?

Answer 45

PP = SP - DP
SP = Systolic pressure
DP = Diastolic pressure

Question 46

What is the magnitude of pulse pressure due to?

Answer 46

Stroke volume, Speed of ejection from heart, Arterial compliance

Question 47

Describe pulse pressure

Answer 47

Average - 30-40mmHg - Incr with exercise due to inc stroke volume, Lowered by low stroke volume (eg trauma, blood loss), Long term inc due to aortic stiffening

Question 48

Define mean arterial blood pressure

Answer 48

Average bp over entire body

Average arterial pressure during single cardiac cycle

Question 49

Equation for mean arterial blood pressure: MAP = (CO x SVR) + CVP
What do they mean?

Answer 49

CO = Cardiac output
SVR = Systemic vascular resistance
CVP = Central venous pressure