Cardio lecture 2

Question 1

Normal BP is 120/80mmHg. After a certain point, high blood pressure causes damage to blood vessels and heart. How is hypertension categorised into stages?

Answer 1

Stage 1 hypertension: BP persistently between 135/85mmHg and 149/94mmHg.

Stage 2 hypertension: BP persistently >150/95mmHg.

Stage 1 and 2 – needs to be a persistently high BP measured at home. Pts may get white coat effect from doctor / dentist.

Stage 3 hypertension: causes organ damage. Systolic BP > 180mmHg or diastolic >120mmHg.
Call 111!

Malignant hypertension - medical emergency. Systolic BP > 220mmHg. Call 999!

Question 2

What are the consequences of hypertension on the body?

Answer 2

Chronic kidney disease
Hypertensive retinopathy
Aneurysms
Atheroma
Peripheral Vascular Disease
Heart Failure

Question 3

In hypertension, blood vessel walls are damaged and thickened e.g. thickened walls in arterioles leading to smaller diameter lumen with increased peripheral resistance = increase BP. What effect does this have on organs with smaller blood vessels? And what are the longer term effects?

Answer 3

Organs with a lot of tiny blood vessels e.g. kidneys and eyes are particularly at risk of damage in hypertension.
Chronically, this may lead to Chronic kidney disease and Hypertensive retinopathy.

Question 4

How does hypertension causes thickening of artery walls?

Answer 4

Increased tough collagen and calcium deposits in the artery walls due to hypertension, which makes them stiffer and less able to stretch with each pulse of blood. This in turn causes more damage to artery walls increasing risk of atheroma, aneurysms and peripheral vascular disease.

The heart has to work harder to create a higher pressure in the left ventricle than the pressure is in the aorta. The high BP in the aorta needs a higher pressure in the ventricle to push blood into it. This leads to ventricular hypertrophy – the muscle in the left ventricle becomes thickened and stiffer. Ultimately leading to heart failure.

Question 5

When atheromas develop in the vessels of the brain or heart, what happens?

Answer 5

Brain – stroke, seizures
Heart – acute cardiac ischaemia

Question 6

Most of the time, the cause of hypertension is unknown – essential hypertension. However, there are non-modifiable risk factors such as _____.

Answer 6

Genetics
Age
Ethnicity

Question 7

What are the modifiable risk factors of hypertension?

Answer 7

Obesity – modifiable through diet and exercise. Risks of being overweight – also linked to diabetes which also increases risk of hypertension.

Alcohol.

Sodium intake- Normally, the body removes salt through kidneys and water from blood follows. This would reduce the venous return and cardiac output & BP. High salt diet causes you to retain more water = hypertension.

Smoking (Chemicals in cigarette smoke impair vasodilation, and cause atherosclerosis (stiffening of blood vessels = hypertension).

Stress (sympathetic fight or flight response which increases BP)

Kidney and endocrine disease - Long term control of BP: salt excretion and hormones are controlled by kidneys. Kidney disease can cause hypertension. Other endocrine disorders such as those causing an increase in catecholamines (hormones / neurotransmitters) in sympathetic NS like adrenaline.

Drugs – increases BP either deliberate or as a side effect. Some medications may interact, preventing an anti-hypertensive from being effective.

Question 8

How does Conn’s syndrome affect BP?

Answer 8

Conn’s syndrome – where adrenal glands make excess aldosterone; which controls salt and potassium in the blood = hypertension.

Question 9

How does Phaeochromocytoma affect BP?

Answer 9

small vascular tumour of adrenal medulla leading to irregular secretion of adrenaline and noradrenaline = hypertension, palpitations, headaches.

Question 10

Drugs for hypertension typically act on the pathways controlling the long-term BP control mechanisms. What are diuretics?

Answer 10

Drug that increases urine production.

*Increases excretion of fluid via kidneys = reduce circulating volume and lower the BP.

Question 11

What are ACE inhibitors?

Answer 11

ACE-Inhibitors – end in ‘opiril’ - inhibit the ACE enzyme.

Prevent formation of angiotensin-2 (which increases BP), and prevents bradykinin (a vasodilator) from being broken down.

Side effect of stopping bradykinin causes dry cough or angioedema (facial swelling).

Question 12

How do angiotensin-receptor blockers work?

Answer 12

Angiotensin-Receptor Blockers – end in ‘sartan’ alternative to ACE inhibitors. Blocks angiotensin at the site of its’ action = reduces BP.

Block the arteriolar contraction and sodium retention effects of renin–angiotensin system.

Question 13

Calcium-channel blockers – prevent _________, and reduce rate & force of heart beat which is all dependent on Ca. These channels are blocked to reduce muscle contraction.

Answer 13

vasoconstriction

Question 14

Beta-Blockers – end in ‘olol’
Prevent HR and stroke volume from rising too high by blocking _________ pathways. Also decrease _______ release which is a component of blood pressure rising mechanism.

Answer 14

sympathetic

renin

Question 15

Alpha-Blockers- cause ________ to reduce BP. Clonidine & Methyldopa- rarely used. Block the sympathetic NS centrally in the brain.

Answer 15

vasodilation

Question 16

Patients who are on anti-hypertensive drugs may be more prone to _________________

Answer 16

postural hypotension (standing up after laying down = feel dizzy. Ask pt to get up slowly). Better to perform tx under LA rather than sedation.

Question 17

How does atherosclerosis occur?

Answer 17

Initially, a fatty streak in vessel wall due to lipids building up in the inner-most layer of the arterial wall (tunica intima).

Collagen deposition follows, making the vessel stiffer. A fibrotic cap forms over the fatty streak creating a fibrolipid plaque. This plaque can become damaged by the high BP or blood flowing past it e.g. in hypertension. Typically happens at bifurcations of arteries- where blood flow is more turbulent.

When the cap becomes damaged, a complicated fibrolipid plaque occurs.

Question 18

What is the link between atherosclerosis and periodontal disease?

Answer 18

Atherosclerosis and its’ outcomes such as coronary HD is shown to be correlated with periodontal disease. This may be due to pts propensity for inflammation or periodontal disease causing cytokine / endotoxin release = exacerbating atherosclerosis formation.

Question 19

Complicated plaques are a great place for thrombosis to occur. What is thrombosis?

Answer 19

A mass of platelets, RBC, and fibrin that sits in the vessel wall.

Question 20

A thrombus formation is predisposed by which factors of the Virchow’s triad?

Answer 20

the blood, the vessel and blood flow

e.g. the blood constituents themselves becoming sticky, or by the way the blood flows (turbulence, areas like bifurcations of arteries, or hypertension in stiff vessel walls), or damage to vessel wall itself e.g. fibrolipid plaque.

Question 21

Describe the effect of a thrombus on the vessel and subsequently on the structures the vessel leads to.

Answer 21

Thrombosis reduces the size of the lumen of the blood vessel. This reduces blood flow to the organ. After a certain point, this causes stress to the tissue leading to ischaemia (reduced/restricted blood flow) – eventually the tissue dies due to inadequate blood supply, leading to an infarction (tissue death).

Question 22

A thrombus can become dislodged becoming an _______.

Answer 22

embolus. This embolus travels around the circulation until it becomes lodged in a smaller vessel, blocking it = infarction.

Question 23

What happens in an obese patient with hypertension?

Answer 23

Obese patients with hypertension:
More fatty streaks build up to atheromatous plaques in blood vessels = narrowing of artery.

Turbulent blood flow due to hypertension damaging plaques causing thrombosis

Symptoms depend on location of thrombus / embolism

Question 24

What causes reduced perfusion to a heart muscle?

Answer 24

In a coronary artery, the thrombus will reduce perfusion of the cardiac muscle.

Question 25

Which other causes of reduced perfusion to heart muscle lead to acute cardiac ischaemia?

Answer 25

e.g. severe hypotension, severe anaemia reducing the O2 capacity of blood to get it to the heart.

Question 26

What are the symptoms of reduced blood perfusion to the heart?

Answer 26

Reduced blood perfusion – causes pain- felt as a crushing weight or tightness due to spinal level of the nerves that supply the heart. This spinal level also receives input from other areas of the body. Pt can experience referred pain where the body misinterprets the pain as coming from another part of the body e.g. neck, arm, jaw, back.

If the reduction in perfusion to the heart is significant enough, it can lead to cell death.

Question 27

We can identify whether the acute cardiac ischaemia has progressed to acute coronary syndrome by using THE DRS:

Answer 27

Trigger History Episodes Duration Resolution Severity

Question 28

Stable angina is ___________________.

Acute coronary syndrome is or __________________.

Answer 28

Stable angina is cardiac ischaemia
Acute coronary syndrome – is or soon will be an infarction.

Question 29

What happens as cardiac cells are damaged?

Answer 29

As cardiac cells are damaged or die off, the heart is unable to contract efficiently. This reduces stroke volume = this affects cardiac output and perfusion to other organs.

As pressure builds up behind the heart and pulmonary side of circulation (pulmonary vein) – blood isn’t being removed effectively, so it builds up and can cause fluid to leak out of blood vessels in the lungs leading to pulmonary oedema. This fluid reduces the efficiency of gas exchange in lungs. Hypoxia – potential sign of acute cardiac ischaemia – seen as cyanosis (peripherally bluish tinge to fingertips, or centrally – severe when you see it around the mouth – difficult to spot so you’re more likely to see hypoxia through a fast HR and RR).

Question 30

The symptoms of ACI include:

Answer 30

• Discomfort
• Breathlessness
• Lightheaded
• Clammy
• Nausea
• Palpitations

Question 31

What causes symptoms of lightheadedness and clammy appearance?

Answer 31

Reduced perfusion to brain due to affected cardiac output from the heart damage causes pt to feel lightheaded – blood pressure becomes lower as cardiac output drops. Sympathetic NS kicks in to attempt to increase HR and stroke volume and maintain cardiac output and BP. Pt may appear clammy - another affect of sympathetic NS – sweating more despite being cool to touch. May also have peripheral vasoconstriction – blood vessels in less essential areas of the body are constricted – in an attempt to redirect the blood volume from non- essential organs.

Question 32

What causes symptoms of nausea and palpitations?

Answer 32

Sympathetic NS – responsible for making pts feel nauseas – another symptom of acute cardiac ischaemia.

Cardiac damage in an ischaemia can result in abnormal electrical rhythms within the heart = causing irregular heart beat, leading to pt feeling palpitations – body trying to compensate. Would need to take a manual pulse to determine if pt having palpitations.

If there is an irregular heart rhythm, it may affect HR due to abnormalities in recovery period between heart beats or stroke volume (if heart beating very fast, it doesn’t have time to fill between heart beats).

Can have slow arrhythmias such as heart block, and certain types of arrhythmia will often proceed a cardiac arrest.

Question 33

How is an acute coronary syndrome managed?

Answer 33

Call 999
Aspirin
GTN spray

ECG at hospital and blood test

Thrombolysis – chemical breakdown with drugs like streptokinase, or manually by angioplasty that inflates a balloon inside a vessel to open it. Stent placed to keep vessel open. Can also remove a blood clot from coronary artery. Can strip out excessive thrombosis in an area.

Procedures such as artery bypass graft.

Long term management - statins, anti-hypertensive drugs, anticoagulants

Question 34

What is aspirin?

Answer 34

antiplatelet that prevents blood from clotting further.

taken long term to prevent clot build up

Question 35

What is GTN spray, and when should it be administered?

Answer 35

GTN spray (Glyceryl trinitrate) – vasodilator that dilates coronary arteries = increases blood flow to heart.

*Also dilates other arteries in body too which reduces BP which may already be low. Always check BP is >90 systolic before giving GTN. If BP is <90: may have a cardiac arrest rather than just a myocardial infarction.

Question 36

Why is an ECG taken in pts with suspected Acute coronary syndrome?

Answer 36

ECG - May distinguish infarction from ischaemia because the necrotic cells disrupt the normal electrical pattern in heart. Dying cardiac cells release troponin enzymes which can be measured by taking blood tests.

Question 37

Statin: _____________________ so atheromatous and so fatty streak / plaque build up.

Answer 37

reduces LDL cholesterol

Question 38

B blocker & ACE inhibitors may be given to pts with acute coronary syndrome to_______________.

Answer 38

reduces strain on the heart.

Question 39

Why are patients who have a heart attack at risk of developing arrythmias?

Answer 39

After a heart attack, pt at risk of developing arrhythmias due to scar tissue interrupting normal flow of electricity through the heart. Also risk of heart failure due to damage to heart muscle.

Question 40

What is a coronary artery bypass graft?

Answer 40

A vessel that is blocked can be replaced by taking a vessel from another part of the body.

Can be single to quadruple

Question 41

At the dentist, how are pts with heart problems managed?

Answer 41

Healthy diet & Exercise - to lower body weight and reduce fatty streaks

Stop smoking

Morning appointments? – e.g. Angina pts who are nervous about coming to the dentist – stress can trigger angina.

Manage anxiety.

Know the history!

Avoid elective dental treatment in the first year post-MI. Don’t treat a pt with unstable angina as they need to be treated as acute coronary syndrome – call ambulance.

Question 42

Why are patients advised to stop smoking?
- Heart disease

Answer 42

Smoking impedes vasodilation

Free radicals from cigarette smoking can flame the lining of blood vessels through oxidative stress making them more susceptible to atherosclerosis.

Can also affect components in thrombosis – makes platelets stickier, and stimulates clot formation whilst impairing clot breakdown.

CO reduces oxygen carrying capacity of RBC – body makes more to compensate but this makes the blood thicker and stickier making it more likely to clot.

Question 43

Peripheral Vascular Disease or Peripheral Arterial Disease is caused by Atherosclerosis. What causes this?

Answer 43

The same reduction in perfusion seen in the heart causes pain, and can progress to infarction if left unmanaged in a peripheral tissue.

Typically seen in the legs – called claudication – happens when muscle is used e.g. walking. Settles with rest.

When it worsens, pts struggle to keep legs elevated at night, they need effect of gravity to increase blood flow to the legs so they may dangle legs at edge of bed.

Question 44

Severe critical ischemia can lead to ____________

Answer 44

arterial ulcers, gangrene and pain that does not go away with rest -> need urgent vascular appointment. May need dilation or replacement of blood vessels.

Question 45

How is peripheral vascular disease monitored?

Answer 45

by comparing BP in arm and leg – (ankle-brachial index) if similar then this is good. If <0.9 it is diagnostic. <0.5 is critical ischemia.

critical ischemia – comes on chronically. Pt will be in pain at rest.

Question 46

How would an acute ischaemia present in leg?

Answer 46

Acute ischemia – emergency – leg is suddenly ischaemic. Due to thrombosis or embolism – needs to be treated within 4-6 hours to save pt from having limb amputated.

Question 47

How would an Atherosclerosis of carotid arteries be seen?

Answer 47

on a DPT – seen medial to vertebra (incidental finding). In the brain it causes strokes. Lifestyle management should be provided – advise the GP of findings for further investigation

Question 48

What are the symptoms of acute iscahemia?

Answer 48

• Pain.
• Pallor – pale
• Pulseless
• Paraesthesia – unable to feel in this area as nerves stop working properly
• Perishingly cold.
• Paralysis – muscles unable to work without blood supply.

Question 49

How does atherosclerosis cause aneurysms? And what are the effects of nearby structures?

Answer 49

Atherosclerosis can cause weakness in artery walls leading to aneurysms or ballooning of arteries.

Here, clots are more likely to form due to disruption in how the blood flows. Or the artery may rupture if stretched too far.

Aneurysm can cause a fistula into nearby vessels if it occurs gradually. Can compress nearby structures.

Question 50

what happens if an abdominal – aortic aneurysm ruptures?
- Aneurysms & venous disease

Answer 50

causes severe abdominal pain, cardiovascular collapse (BP drops rapidly) – 50% mortality. Needs urgent surgical attention to fix it.

-Pts therefor have regular long term radiological follow up to monitor aneurysm size.

Question 51

What are varicose veins?

Answer 51

Varicose veins – vascular disease typically in legs. Legs are swollen. Caused by incompetent valves in veins, causing blood flow to be slow. Can be painful, causing skin changes like swelling, itching.

Can lead to venous ulcers

Question 52

What are venous ulcers?

Answer 52

Venous ulcers: can be due to varicose veins. Look less punched out. Typically occurs in legs. Treated with compression bandaging to help blood flow returned out of legs – caused by static blood flow in legs. Elderly pts often given them.

Question 53

Where can an embolism affect depending on its location?

Answer 53

Brain – causes stroke

Heart – myocardial infarction

Acute limb ischaemia

Lungs- pulmonary embolism. Diagnosed with CT scan. Treated with blood thinners. May be from a deep vein thrombus in a calf of immobile pt. Need muscle pump to help keep blood moving e.g. bed-bound pt, long flight. Often prophylaxis tx given – compression socks.

Question 54

What are the symptoms of a pulmonary embolism?

Answer 54

Breathlessness.

Hypoxia – low O2 levels. Strain on heart & chest pain

Fast heart rate.

Pleuritic chest pain – sharp with in-breath