Cardiovascular system: Lecture 9 -Cardiovascular responses to stress

Question 1

How do we calciulate cardiac output?

Answer 1

cardiac output = heart rate x stroke volume

Question 2

How do we calculate mean systemic arterial pressure? (blood pressure)

Answer 2

mean systemic arterial pressure = cardiac output x total peripheral resistance

Question 3

What is total peripheral resistance?

Answer 3

the amount of resistance to blood flow present in the vascular system of the body

Question 4

Intrinsic cardiac regulation: Draw the Frank-starling curve

Answer 4

Question 5

What is preload?

Answer 5

What you put into the heart - best measured by end diastolic volume (amount of blood in the ventricles before the ventricles contract)

Question 6

How do we measure end diastolic volume?

Answer 6

An echo cardiogram

Question 7

What is the relationship between pre load and stroke volume?

Answer 7

• increase in preload increases stroke volume
• high levels of preload eventually lead to decrease in stroke volume

Question 8

Give 8 ways we can increase preload

Answer 8

Increasing preload is achieved by increasing stroke volume by:

• increase circulating volume (e.g giving fluids)
• increase central venous pressure
• increase respiratory pump
• decrease venous compliance (stiffer veins = reduced resistance = increased SV)
• increase atrial filling or contraction
• increase ventricular compliance (greater force of contraction = greater SV)
• decrease heart rate (prolongs diastole)
• increase aortic and pulmonary pressure

Question 9

What is central venous pressure?

Answer 9

blood pressure in the vena cava

CVP reflects the amount of blood returning to the heart and the ability of the heart to pump the blood back into the arterial system.

Question 10

What is the Bowditch effect?

Answer 10

• increase in heart rate increases force of contraction and vise versa
• High heart rate eventually leads to decreased force of contraction

Question 11

Is the bowditch effect related to Frank-Sterling?

Answer 11

No they’re independent as length of muscle not affected in the Bowditch effect

Question 12

What happens to your contractility if you suffer from heart disease?

Answer 12

It decreases

Question 13

Whats the relationship between peak contractibility and left ventricular ejection fraction? (%)

Answer 13

Question 14

What is venous return?

Answer 14

Flow of blood back to the heart

Question 15

What is the Bainbridge reflex?

Answer 15

• increased venous return
• baroreceptors in the atria detect increased stretch
• heart rate increased via sympathetic stimulation to SAN
• involved in sinus arrhythmia

Question 16

What is sinus arrhythmia?

Answer 16

Irregular heartbeat thats either too fast or too slow

Question 17

what is the bainbridge reflex antagonistic to?

Answer 17

the carotid baroreceptor response

Question 18

What are the 3 mechanisms of intrinsic cardiac regulation?

Answer 18

1. frank sterling
2. Bowditch effect
3. Bainbridge reflex

Question 19

What are the two body parts involved in the sympathetic nervous system but not the parasympathetic nervous system?

Answer 19

Kidneys and adrenals

Question 20

What are the 4 direct cardiac sympathetic actions to increase heart rate?

Answer 20

1. Positive chronotropy - affects the SA node
2. Positive dromotropy - affects the AV node so speeds up conduction
3. Positive Inotrophy - increases contraction of ventricles and atria
4. Positive Lusitrophy - relaxation of ventricles and atria

Question 21

what are two systemic sympathetic actions to increase heart rate?

Answer 21

1. Activation of Renin-Angiotensin-Aldosterone system (RAAS)
2. Suprarenal stimulation (Catecholamines e.g adrenaline)

Question 22

What is the relationship between inotropy/preload and chronotropy and cardiac performance?

Answer 22

dobutamine - drugs mimic the sympathetic system so can increase hwart rate

Question 23

Explain how the Renin Angiotension Aldosterone System works (RAAS)

Answer 23

1. liver produces angiotensinogen
2. Renin (produced in kidney) coverts angiotensinogen into angiotensin I
3. ACE (angiotensin converting enzyme) converts Angiotensin I into Angiotensin II
4. Angiotensin II acts on the adrenal galdn
5. Adrenal gland secretes Aldosterone which causes water retention
6. Blood pressure increases!

Question 24

What are the actions of angiotensin II in RAAS?

Answer 24

• Vasoconstriction
• increased Na+ and H2O retention

Question 25

What is the action of aldosterone in RAAS?

Answer 25

-Increased Na+ and H2O retention

Question 26

What is the action of vasopressin in RAAS?

Answer 26

Antidiuretic hormone

Promotes H2O retention

Question 27

Why does vasoconstriction increase blood pressure?

Answer 27

Increases total peripheral resistance

(cardiac output x total peripheral resistance = mean systemic arterial pressure)

Question 28

What are catecholamines?

Answer 28

Vasocontricting compounds released into blood

Question 29

Give 3 parasympatheitc actions that decrease heart rate?

Answer 29

1. Negative chronotrophy - decreased heart rate (SAN)
2. Negative dromotrophy - decreased AV conduction
3. Negative inotrophy - decreased atrial contractility

Ventricular contractiity and RAAS have no significant parasympathetic action

Question 30

How is the ANS (autonomic nervous system) regulated?

Answer 30

• Baroreceptors
• local
• ‘higher’ e.g fear

Question 31

Where are baroreceptors located in th heart?

Answer 31

Carotid sinuses, aortic arch

Question 32

How would decreased arterial pressure effect sympathetic and parasympathetic tone?

Answer 32

• decreased arterial pressure
• decreased baroreceptor firing of impulses
• increases sympathetic response
• decreases parasympathetic response

Question 33

How would increased arterial pressure effect sympathetic and parasympathetic tone?

Answer 33

• increased firing
• decreases sympathetic tone
• increases parasympathetic tone

Question 34

Why would a patient who has been bleeding and lost a lot of blood have a decreased preload?

Answer 34

loosing blood means theres reduced central venous pressure (less blood going into heart) so preload decreases

Question 35

Give two overall summaries of initial response mechanisms to blood loss

Answer 35

slide 53 and 54

Question 36

What are the signs of haemorragic shock?

Answer 36

• low BP e.g 90/50
• large pulse/ high HR e.g 130
• confused- reduced BP meaning less 02 getting to the brain
• poor urine output: reduced renal perfusion
• tachypnoeic (abnormally rapid breathing)

Question 37

What is the initial intervention for blood loss and why?

Answer 37

Giving IV/ blood transfusion

This will increase central venous pressure and therefore preload and therefore stroke volume

Question 38

When might this treatment not work?

Answer 38

too much fluid is given

central venous pressure becomes too great

preload increases too much

cardiac outut actually falls

Question 39

How do you treat fluid overload?

Answer 39

Diuretics e.g furosemide

Question 40

Which test is the most comprehensive in evaluating functional aspects of the heart and lungs and physical fitness?

Answer 40

cardiopulmonary exercise testing

Question 41

What measurements are taken in a cardiopulmonary exercise test?

Answer 41

• Oxygen consumption at rest and during exercise
• The anaerobic threshold - the level of exercise when the exercising muscles begin to have anaerobic metabolism and release copious amounts of lactic acid;
• Haemodynamic variables including HR, BP, CO, from which we can calculate other parameters such as CPO, vascular resistance, etc.

VO2 max is the value we used to know how bad someones cardiac situation is