2. Pathophysiology of hypertension

Question 1

What is the Ideal blood pressure?

Answer 1

from 90/60 to 120/80 is the ideal healthy blood pressure

Question 2

What is the normal (average) blood pressure in our population?

Answer 2

The ‘normal’ blood pressure in the population is from 120/80 to 140/90 which is too high. Many of the population are at the stage of ‘pre-hypertension’

Question 3

What is classified as ‘high blood pressure’?

Answer 3

Any value over 140/90

Question 4

What are the values in the BP reading x/y?

Answer 4

Systolic pressure of the heart / Diastolic pressure of the heart

Question 5

What does Systolic and Diastolic mean?

Answer 5

Systolic is the pressure in the arteries during contraction of the heart muscle
Diastolic is the pressure in the arteries between contraction (between beats)

Question 6

What does blood pressure provide?

Answer 6

A driving force for blood to perfuse into organs

Question 7

What does BP determine?

Answer 7

It determines Tissue Perfusion Pressure

Question 8

Where is BP measured and why?

Answer 8

BP is measured at the level of the heart so normally on the left arm of the patient, because blood pressure varies through out the body due to reasons such as gravity.

Question 9

Why is BP cyclial (regular)?

Answer 9

Due to the Cardiac Cycle: the sequence of events that happens when the heart beats.

Question 10

What are the main 5 things that affect the BP?

Answer 10

Peripheral Resistance (arteries resistance)
Mean Arterial Pressure (MAP)
Blood Volume
Cardiac Output (CO)
Venous Return (VR)
Many of these affect each other and in the end can cause hypertension

Question 11

What does a decreased VR mean?

Answer 11

This means less blood is returning to the heart, which decreases the Filling Pressure, decreases CO, and therefore decreases BP.

Question 12

What is the Mean Arterial Pressure?

Answer 12

This is defined as the Average pressure in the arteries during one cardiac cycle.

Question 13

What is the major component that affects peripheral resistance, and what does this go on to affect?

Answer 13

Resistance to Flow affects Peripheral reistance which goes on to affect MAP

Question 14

What are the factors affecing resistance to flow?

Answer 14

Viscosity of the blood
Length of the vessles
Radius of the vessel.

Question 15

Which one of the factors affecting resistance to flow is the major determinant?

Answer 15

The radius of the vessel in the equation i to the power of 4, therefore a small change in the radius of the vessel will have a big effect on the Resistance to flow, which goes on to affect peripheral resistance and then MAP

Question 16

What is Vasoconstriction in relation to resistance to flow?

Answer 16

The radius of the vessels becomes smaller, and the resistance to flow increases.

Question 17

Why does vasoconstriction or vasodilation affect peripheral resistance?

Answer 17

Any change in the smooth muscle tone withe constrict or dilate, will change the radius of the vessels and therefore the resistance to flow and peripheral resistance.

Question 18

What does increased peripheral resistance result in?

Answer 18

Increased peripheral resistance leads to increased MAP which leads to Increased BP

Question 19

What type of vessel contributes the most to changes in the peripheral resistance?

Answer 19

The Arterioles = Branches of the arteries leading to the capillaries.

Question 20

What does ‘blood pressure; a regulated variable’ mean?

Answer 20

The blood pressure naturally changes throughout the day e.g. it decereases at night, and increases during exercise and these are all normal changes regulated by the body.

Question 21

What does a ‘continuous variable’ mean in relation to BP?

Answer 21

These are risk factors that don’t change the BP immediately e.g. obeisity and smoking. They cause a change in blood pressure continuously over time.

Question 22

Define Hypertension:

Answer 22

This is an increase in blood pressure that is associated with an increase risk of harm (not increase blood pressure that happens normally throughout the day like during excercise). It is related to the Continuous Variable of the BP.

Question 23

What is the protocol for a patient who is pre-hypertension’?

Answer 23

Pre-hypertension is anything above 120/80, but below 140/90. To avoid becoming hypertensive and cause end organ damage, lifestyle changes should be recommended, and educate the patient on why these changes need to be made.
Diet, alcohol, smoking, excercise, reduce salt intake, stress etc.

Question 24

What is the protocol for confirming hypertension for someone with a BP reading of >140/90?

Answer 24

If not previously diagnosed, offer Ambuatory Blood Pressure Monitoring to confirm the diagnosis of Hypertension.
If patient does not want ABPM, offer Home Blood Pressure Monitoring to confirm diagnosis.
These should rule out White-Coat Syndrome.

Question 25

What is the intervention if hypertension stage 1 is confirmed?

Answer 25

Stage 1 = >140/90 mmHg
If below 80 and has stage 1 hypertension with 1 of the following:
-End organ damage,
-Established CVD
-Diabetes
-Renal Disease
-10 year CV risk of 20% or more
then pharmacological intervention is required.
If do not fit into these categories, then life style advice should be sufficient to decrease BP.
If the patient is younger than 40, and does not fit to any of the list above, then referr for specialist evaluation of secondary causes of hypertension.

Question 26

What is stage 2 hypertension and what is the intervention?

Answer 26

Stage 2 hypertension is a BP of 160/100 mmHg.
All patients presenting with stage 2 hypertension should have pharmacological intervention regardless of age and complications.
Their target blood pressure is to get below 140/90, but if diabetic or have CV disease, then target is 130/80.

Question 27

Stage 3 hypertension is:

Answer 27

A BP reading of 180/110 mmHg or over and these are at serious risk of CVD.

Question 28

Other than the stages of hypertension, what are the different descriptions of hypertension?

Answer 28

1. Prehypertension
2. Essential/Primary Hypertension
3. Secondary Hypertension
4. Isolated systolic/diastolic hypertension
5. White coat hypertension
6. Malignant Hypertension - Emergancy

Question 29

Describe Primary / Essential Hypertension

Include the causes, what patients will suffer from, risk factors.

Answer 29

This is idiopathic hypertension and is >90% of cases of hypertension. It is multifactorial from the environment to the genes. Patients with this tend to suffer from increased total peripheral resistance.
There is altered renin output and increased salt sensitivity.
The risk factors include obeisity, alchohol, smoking, etc
There is often NO increase in Cardiac Output

Question 30

Describe Secondary Hypertension.

Answer 30

This accounts for about 5% of hypertension cases. It is hypertension as a consequence of an identibfiable physiological, pharmacological, or structural cause.

Question 31

Give examples of diseases that may cause Secondary Hypertension

Answer 31

Renovascular disease: Polycystic disease (genetic) or Renal Artery Stenosis which causes narrowing of the arteries in one or both kidneys
Adrenal Disease: Hyperaldosteronism (Conn’s syndrome) causing low renin levels
Pregnancy: Can be either Pre-eclamsia which is hypertension with protein in the urine or Gestastional which is hypertension without protein in the urine.
Drugs: Oral contraceptives, NSAIDs, Steroids, Codeine, Amphetamine

Question 32

What are the less common causes of Secondary Hypertension?

Answer 32

Sleep apnoea, Thyroid and parathyroid disease. Tumour of the adrenal gland, Congenital (from birth) structural abnormalities.

Question 33

Who should be considered to have secondary hypertension?

Answer 33

If below 40 and haven't got any of the below factors:
End organ damage,
Established CVD
Diabetes
Renal Disease
10 Year CV risk >20%

Question 34

Describe Pre-hypertension: And what is the intervention, if any:

Answer 34

120/80 - 140/90 mmHg
This is a warning of possible Hypertension. Lifestyle changes like improved diet and increased excercise will help to improve. REquires regular monitoring of BP

Question 35

Describe Isolated Hypertension

Answer 35

This can be systolic or diastolic, where on is too high, but the other in the healthy range.
If the systolic is over 160, but the diastolic 90, this is classed as Systolic Isolated Hypertension.
If systolic is 120, but diastolic 110, then this is described as Diastolic Isolated Hypertension.

Question 36

What is the intervention with Isolated Hypertension

Answer 36

Will have to be treated with pharmacological intervention, but lifestyle advice is beneficial if required e.g. if smoking then recommend to stop.

Question 37

Describe the White Coat hypertension and how to overcome.

Answer 37

This is when the patient’s blood pressure increases due to anxiety and stress of being in a medical environment so it does not give a true reading of the blood pressure.
To overcome this, tell patient to relax, breathe slowly, and to not be nervous about the readings.
If the BP reading is high, and hypertension needs to be confirmed, then give ABPM, or HBPM to rule out white coat.

Question 38

Malignant Hypertension: What is this?

Answer 38

This is a sudden onset of extremely high BP that can cause end organ damage. It is treated as a medical emergancy - A&E

Question 39

What are the 5 organ systems involved in Hypertension?

Answer 39

Heart
Brain (CNS)
Endocrine Systems
Blood Vessels
Renal System

Question 40

What must Hypertension be associated with (1 of 4 choices)

Answer 40

Increased Heart Rate
Increased Myocardial contractilty - muscular tissue of the heart contracting more
Increased arterial constriction
Increased blood volume

Question 41

What is often the primary cause of Hypertension?

Answer 41

Raised total peripheral resistance is often the primary cause, causing an increase in MAP, and therefore hypertension

Question 42

What causes elevated Total Peripheral Resistance?

Answer 42

30-60% is a genetic factor. There is greater incidence in African-Americans and in individuals with a family history of salt-sensitiviteis.
Liddle’s syndrome
Environmental influences e.g. obeisity, stress, alcohol
Vascular Remodelling
Vasoactive substances
Hyperinsulinemia and Hyperglycaemia

Question 43

What is Liddle’s syndrome?

Answer 43

A single gene causing increased activity of the epithelial Sodium channel resulting in the kidney excreting Potassium, but retaining Sodium and Water leading to hypertension.

Question 44

What are the vasocative substances that may cause elevated TPR?

Answer 44

Increased Endothelin-1 (ET-1) = vasoconstrictor
Increased Noradrenaline (NAd) = vasoconstrictor
Increased Angiotensin II = vasoconstrion
Decreased Nitric Oxide (NO) = vasoconstriction

Question 45

What is Hyperinsulinemia and Hyperglycemia

Answer 45

Hyperinsulinemia is too much insulin in the blood causing increased uptake in Sodium from the kidney = increased BP
Hyperglycemia is Diabetes which can cause hardening of the arteries, causing an increase in BP

Question 46

Renin Angiotensin Aldosterone system (RAAS). What is this system?

Answer 46

This involves the liver and the kidney. ANGIOTENSINOGEN is secreted from the liver and RENIN is secreted from the juxtaglomerular cells of the kidney and converts Angiotensinogen to Angiotensin I.
ACE enzyme then converts Angiotensin I to form Angiotensin II.

Question 47

What does Angiotensin II cause??

Answer 47

Angiotensin II causes:

• Increased ADH secretion which increases Water absorption in the kidney
• Increased sympathetic activity - increases the HR
• Increased Arteriolar Vasoconstriction causing an increase in resistance to flow and BP
• Increased aldosterone production causing an increase in Sodium Chloride and water reabsorption and increased Potassium excretion.

Question 48

What does Aldosterone do appart from increase in Sodium Chloride and water reabsorption and increased Potassium excretion?

Answer 48

It works in a negative feedback, causing a decrease in Renin production to then decrease the amount of Angiotensin I (and therefore Angiotensin II) produced.

Question 49

What are the two groups of renin-involved hypertension?

Answer 49

HIGH RENIN LEVELS AND LOW RENIN LEVELS

Question 50

How does High renin levels cause hypertension?

Answer 50

High renin levels causes an increase in Angiotensin I which is converted to Angiotensin II. This then causes all the things previously mentioned, but the most substantial effect on hypertension is the increased potassium excretion, increased sodium and water retention.

Question 51

How does Low renin cause Hypertension?

Answer 51

This is when there is a failure to increase the Renin levels if sodium levels are low in the blood. Low renin is associated with high levels of aldosterone, and the negative feedback loop is when there is high aldosterone levels, the renin levels decrease. Low-renin hypertensives have a higher juxta-glomerular perfusion pressure and a disease often associated with this is Conn’s disease

Question 52

What ethnic group is most likely to have Low-Renin hypertension and why?

Answer 52

It is more common in African-Americans due to differences in renal sodium handling.

Question 53

Salt sensitivity: How does salt effect the Blood pressure?

Answer 53

Salt is Sodium Chloride. The blood pressure responds to dietry salt intake. Some people can effectively increase salt without increasing their BP, but others cannot excrete dietry salt in High concentrations without causing an increase in blood pressure. These individuals are salt sensitive.
It is an alteration in the kidney where an increase in NaCl requires an increase in arterial pressure to excrete the NaCl.