Blood Pressure - L6+L7

Question 1

1.Normal bp?
2. Elevated bp?
3. Hypertension - high bp: stage 1?
4. Hypertension - high bp: stage 2?
5. Hypertensive crisis - doctor asap?
-> Remember in US guidelines have changed

Answer 1

1. Systolic: less than 120 and diastolic less than 80
2. Systolic: 120-120, diastolic less than 80
3. Systolic: 130-139, diastolic 80-89
4. Systolic: 140 or higher, diastolic 90 or higher
5. Systolic: higher than 180, diastolic higher than 120

Question 2

How much of CVS disease is preventable?

Answer 2

80%

Question 3

CVD deaths every year? and % globally?

Answer 3

18.6 million and 33%

Question 4

Raised b.p. estimated to cause how many deaths - what % of total of all deaths?

Answer 4

7.5 million deaths and about 12.8% of all deaths

Question 5

With bp how does risk of CVD double?

Answer 5

The risk of cardiovascular disease doubles for each increment of 20/10 mmHg of blood pressure, starting as low as 115/75 mmHg.

Question 6

Mean arterial pressure is determined by?

Answer 6

Heart rate, stroke volume and total peripheral resistance

Question 7

What is total peripheral resistance?

Answer 7

Combined resistance of all blood vessels

Question 8

MAP = ?

Answer 8

CO V TPR
CO = HR X SV

THUS MAP = HR X SV X TPR

Question 9

What is arterial pressure?

Answer 9

Systolic Pressure (120 mmHg) - occurs with ventricular contraction
Diastolic Pressure (80 mmHg) - occurs with ventricular refilling

Bp thus 120/80 mmHg

Question 10

Normotension- state in which arterial bp is within the normal range so what is this value?

Answer 10

BP < 120/80 mmHg

Question 11

What is pulse difference?

Answer 11

Difference between Sys. P. & Dias. P.
Normally 40 mmHg at rest

Question 12

What can high pulse pressures at rest be indicative of?

Answer 12

Vascular disease

Question 13

MAP= diastolic + pulse/3 -> what is it?

Answer 13

Mean arterial pressure - average pressure: regulated pressure

Question 14

Effect of CO on MAP?

Answer 14

Increase in CO leads to an increase in the volume of blood contained in the aorta and an increase in MAP when TPR remains the same

Question 15

Effect of TPR on MAP?

Answer 15

A constant cardiac output leads to an increase in the volume of blood contained in the aorta and an increase in MAP when total peripheral resistance increases

Question 16

What is MAP the driving force for?

Answer 16

MAP is the driving force for blood flow

Question 17

F = ?

Answer 17

F = Delta P / R
Change in pulse / resistance

Question 18

What is critical to normal function of bp?

Answer 18

Regulating MAP

Question 19

If MAP is less than normal, what happens?

Answer 19

Hypotension - inadequate blood flow to tissues

Question 20

If MAP is more than normal, what happens?

Answer 20

Hypertension - stress on heart and walls of blood vessels

Question 21

How do you measure bp?

Answer 21

1. Recorded at heart level via brachial Artery
   Korotkoff sounds via turbulent flow, upon cuff
   pressure release
2. Inflate cuff above expected systolic pressure.
3. Slowly deflate cuff: blood flows when BP > cuff P
4. Generates Korotkoff sounds.
5. Clear tapping audible via stethoscope-> Indicates Systolic Pressure
6. Diastolic pressure indicated at disappearance
   of muffled sound

Question 22

What indicates systolic pressure?
What indicates diastolic pressure?

Answer 22

Clear tapping audible via stethoscope-> Indicates Systolic Pressure and Diastolic pressure indicated at disappearance of muffled sound

Question 23

Short term regulation of MAP from seconds to minutes:
1. Mainly what control?
2. Involves what?
3. Regulates?

Answer 23

1. Primarily neural control
2. Involves heart and blood vessels
3. Regulates CO and TPR

Question 24

Long term regulation of MAP from minutes to days:
1. Control?
2. Involves?
3. Regulates?

Answer 24

1. Primarily hormonal control
2. Involves kidneys
3. Regulates blood volume

Question 25

Neural control of MAP:
1. Feedback?
2. Detectors?
3. Integration center?
4. Controllers?
5. Effectors?

Answer 25

1. Negative feedback loops
2. Baroreceptors
3. Cardiovascular centers in the brainstem
4. Autonomic nervous system
5. Heart and blood vessels

Question 26

Another word for baroreceptors?

Answer 26

Stretch receptors

Question 27

What are arterial baroreceptors?

Answer 27

High pressure baroreceptors
Sinoaortic baroreceptors

Question 28

Where are the arterial baroreceptors located?

Answer 28

Carotid sinus and aortic arch

Question 29

CV Control Center:

Answer 29

Medulla oblongata-> Integration center for blood pressure regulation
Output via Sympathetic nervous system and Parasympathetic nervous system

Question 30

Location of cardiac and venous (low-pressure) baroreceptors?

Answer 30

Walls of large systemic veins and walls of the atria

Question 31

Low pressure baroreceptors = volume receptors
What does a decrease in blood volume do?

Answer 31

Decrease in blood volume activates receptors
triggering responses that act in parallel with
baroreceptor reflex

Question 32

Treatment of hypertension: 7

Answer 32

1. Non-pharmacological: lifestyle changes, salt restriction, diet, weight loss, exercise, smoking, alcohol
2. Drug treatment: antihypertensives: goal of use is to prevent endpoints ie MI, stroke
3. Thiazide diuretics: Inhibit Na+/K+/Cl- exchange in distal renal tubule
4. b-blockers: Reduce HR & contractility
5. a-blockers: Reduce sympathetic tone; dilate arteriolar smooth muscle
6. Mixed a-& b-blockers
7. L-type Ca2+ channel blockers: relaxation of vascular smooth muscle
   →reduced resistance

Question 33

Where does parasympathetic input go to and what does this cause?

Answer 33

SA node (decrease HR) and AV node

Question 34

Where does sympathetic input go to and what does this cause?

Answer 34

SA node (increase HR), AV node, Ventricular myocardium (increase contractility), Arterioles (increase resistance) and Veins (increase venomotor tone)

Question 35

What is the baroreceptor reflex?

Answer 35

Negative feedback loop to maintain blood pressure at normal level

Question 36

Components of baroreceptor reflex?
1. Detectors?
2. Afferent?
3. Integration center?
4. Efferents?
5. Effectors?

Answer 36

1. Detectors = baroreceptors
2. Afferents = nerves
3. Integration center = cardiovascular control
   center
4. Efferents = autonomic nervous system
5. Effectors = heart, arterioles, veins

Question 37

What are baroreceptors, what do they indirectly respond to?

Answer 37

Specialised nerve endings that respond to stretch of vessel wall
Indirect response to changes in BP

Question 38

Explain the types of baroreceptors?

Answer 38

Type: A fibres (myelinated)
Low pressure (30-90 mmHg)
Important at rest

Type: C fibres (unmyelinated)
High pressure (70-140 mmHg)
Increasingly active at higher pressures

Question 39

What happens to baroreceptors in hypertension?

Answer 39

They reset within 1-2 days

Question 40

Baroreceptors - short/long term?

Answer 40

Baroreceptors respond well to short term
(moment-to-moment) changes
Not important for long-term regulation of BP

Question 41

Example of baroreceptor reflex in action - a person who had been lying down stands up quickly what is happening?

Answer 41

—-Gravity causes venous pooling in the legs.
– This causes a decrease in VR, causing a decrease in CO
– This causes a decrease in blood pressure.
– Baroreceptors sense the decrease: reflex occurs
– The reflex causes increased sympathetic and decreased parasympathetic activity.
– CO and TPR are increased.
– Blood pressure is increased back to normal.

Question 42

EXAM Q describe understanding of hypertension in terms of population data, blood pressure, What are the determinants of it, how is it regulated and treated

Question 43

Baroreceptors, CNS and CVS control involves integrated responses from several brain regions:
1. Baroreceptor input?
2. Output from NTS?

Answer 43

1. Baroreceptor input to NTS in medulla (nucleus tractus solitarius)
2. Output from NTS to:
   - Parasympathetic NS (vagus) via nucleus ambiguus = Cardiac control (limits HR)
   - Sympathetic NS via rostral ventrolateral medulla
   = Cardiac and blood vessel control (↑ed contractile strength/tone)
   - Hypothalamus & amygdala
   Allows these areas to override the baroreceptor reflex during stress:
   Allows a stress-associated increase in BP to occur

Question 44

EXAM Q - Tell me about understnding of anatomy and physiology of reg of heart rate?

Answer 44

Describe SA + AV node, internodal pathways, what controls it, sympathetic control and effect

Question 45

What does hemorrhage cause?

Answer 45

Hemorrhage causes:
– Baroreceptor reflex
– Increase in sympathetic activity
– Decrease in parasympathetic activity

Question 46

Baroreceptor reflex in GI tract and Brain with hemorrhage and blood low?

Answer 46

GI tract:
* Increased resistance
* Decreased blood flow
Brain:
* Vasculature not subject of extrinsic control
* No change in resistance
* Blood diverted from GI tract to brain

Question 47

Hormones control MAP such as adrenaline:
1. Where is it released?
2. What does it do to MAP?
3. It acts on heart how?
4. Acts on smooth muscle of arterioles to do?
5. What does it do to smooth muscle of veins?

Answer 47

1. Released by adrenal medulla in response to sympathetic activity
2. Increases mean arterial pressure
3. Acts on heart: Increases HR and SV
4. Acts on smooth muscle of arterioles
   – Increases TPR
5. Acts on smooth muscle of veins
   – Increases venomotor tone

Question 48

Extra inputs to CVS?

Answer 48

Bainbridge reflex and atrial stretch receptors

Question 49

1. Bainbridge reflex?
2. Atria stretch receptors?

Answer 49

1. Vena cava stretch receptors → neural mediated ↑HR
   Avoids venous congestion
2. Myelinated vagal afferents sensitive to blood volume -Located at junction of great veins and atria

Question 50

NB some hormones are also vasoactive – mainly as vasoconstrictors to increase TPR

Question 51

Controls influence endocrine regulation of blood volume via?

Answer 51

Hypothalamic ADH → renal water retention
Renin-Angiotensin-aldosterone system (RAS)
→ renal salt & water retention
Atrial Natriuretic Peptide → renal salt & water excretion

Question 52

What do vasopressin and angiotensin 2 do, what are they?

Answer 52

Increase TPR and MAP
They are vasocontrictors

Question 53

Ideal CV Health 4 behaviours and 4 health indicators?

Answer 53

4 Behaviours
* Not Smoking
* 5 x Fruit and Veg
* Physical Activity x 150 mins
* Alcohol < than 8 drinks per
week

4 Health Indicators
* Blood Pressure
* Cholesterol
* Weight – BMI
* Blood Sugars

Question 54

SEE Angiotensin and renin diagrams slides

Answer 54

Learn the pathways

Question 55

exam Q explain angiotensin pathway?

Answer 55

Angiotensinogen -> angiotensin 1 -> angiotensin 2 -> angiotensin 2 type 1 receptor

**Angiotensin 2 biologically active form that stimulates blood pressure

Renin and ACE inhibitors -> pharmaceuticals