When the cardiovascular system goes wrong

Question 1

What mechanisms is hypertension associated with?

Answer 1

• Venous return
• Filling time
• Hormones
• Vasoconstriction/ dilation

Question 2

What mechanisms is Atherosclerosis/ thrombosis/CAD associated with?

Answer 2

• Venous return
• Vasodilation/constriction
• Contractility

Question 3

What processes are valve defects associated with?

Answer 3

• end diastolic volume

- end systolic volume

Question 4

What processes are arrhythmias associated with?

Answer 4

• EDV
• ESV
• Heart rate

Question 5

What mechanisms is heart failure associated with?

Answer 5

• Contractility

- Stroke volume

Question 6

What is hypertension?

Answer 6

associated with high blood pressure

Question 7

What are the two types of hypertension?

Answer 7

Primary and Secondary hypertension

Question 8

Give features of primary hypertension

Answer 8

• Unknown medical cause
• Essential/idiopathic
• Linked to: genetic predisposition, alcohol intake, obesity, lack of exercise, diabetes, intrauterine environment, etc

Question 9

Give features of secondary hypertension

Answer 9

• Of known medical cause
• Kidney disease – increased angiotensin II leading to vasoconstriction and expansion of extracellular fluid
• General endocrine disorders e.g. diabetes
• Adrenal medulla diseases (phaeochromocytoma) – excessive adrenaline secretion

Question 10

How can you treat hypertension?

Answer 10

• Angiotensin converting enzyme inhibiter or angiotensin II receptor blockers inhibit the actions of angiotensin II of aldosterone production thereby preventing renal Na+/H2O absorption and blood volume increase, and prevents vasoconstrictor actions of angiotensin II
• Calcium channel blockers inhibits Ca-channels in cardiac muscle and vascular smooth muscle cells preventing depolarization. Thereby decreasing CO and causing vasodilation, respectively
• Thiazide diuretics increase Na+ and water loss, thereby decreasing fluid volume which decreases venous return and cardiac output
• A-Adrenoceptor antagonists (a-blockers) reduce TPR by inhibiting the action of noradrenaline
• B-Adrenoceptor Antagonists (B-blockers) decreases Cardiac output and SNS activity centrally, decreases renin release leading to favourable secondary actions

Question 11

What is hypertension a risk factor for?

Answer 11

• Atherosclerosis
• Stroke
• Heart failure
• Renal failure
• Aneurysms (weakened arterial walls due to elevated pressures over a number of years – eventually ruptures – results in immediate death in major blood vessel such as aorta)

Question 12

What is atherosclerosis and how does it form?

Answer 12

• Associated with the occlusion of blood flow through blood vessels
• Fibrous cap of a dense extracellular matrix narrows lumen of vessel and restricts blood flow
• Cap formed from Lipid accumulation, macrophages, proinflammatory mediators, white cells, endothelial cells, smooth muscle cells etc

Question 13

What can atherosclerosis lead to and how?

Answer 13

• can lead to a thrombosis

- fragments of plaques can detach and lodge in small vessels

Question 14

What is a thrombosis?

Answer 14

When a blood clot forms in a vein

Question 15

where is a thrombosis most commonly found?

Answer 15

• Most commonly found in a leg vein: deep vein thrombosis (DVT)

• Most of the problems will start and progress around veins
• Stasis of blood in venous return
• Can lead to pulmonary embolisms as clots may travel around the circulatory system

Question 16

What is a blood clot in the lungs called?

Answer 16

A pulmonary Embolism

Question 17

What are other names for coronary artery disease (CAD)

Answer 17

• ischaemic heart disease

- heart attack

Question 18

When does CAD occur?

Answer 18

When blood flow to the myocardium is insufficient for its needs

Question 19

What is angina pectoris?

Answer 19

ischemia-induced pain mediated by endogenous vasodilators (coronary vasodilators)

• If tissue becomes compromised (dies) then molecules (endogenous vasodilators) become released and attach to pain receptors
• Angina pectoris is an early warning sign of a CAD

Question 20

Where is CAD most frequent?

Answer 20

• in the left ventricle

Question 21

What is the most common cause of CAD?

Answer 21

atherosclerosis of a coronary artery

Question 22

How quickly does the heart muscle start to die with insufficient supply of blood?

Answer 22

within 20 minutes

Question 23

What are valve defects?

Answer 23

• problems with the movement of blood through the heart

- defects in opening and closing times of the valves

Question 24

What is regurgitation?

Answer 24

inadequate closure of valve leading to backflow and turbulence; followed by a decrease in cardiac output

Question 25

What is Stenosis?

Answer 25

inadequate opening of valve obstructing blood flow

Question 26

What are the causes of stenosis?

Answer 26

thickening of the valve, papillary muscle or cordae tendinae following disease. Rheumatic fever can cause mitral valve stenosis up to 20 years after infection

Question 27

Hypertrophy happens after severe occlusion due to stenosis. What does this do?

Answer 27

• greater contractility to maintain the cardiac output
• leads to increased blood pressure
• leads to oedema and dilation of heart chambers (due to disharmony in electrical signals)
• leads to heart failure

Question 28

What are arrhythmias?

Answer 28

Deviation of the heart’s normal sinus (SAN) rhythm

Question 29

What is Bradycardia?

Answer 29

A slow rhythm <60 bpm

Question 30

What are the causes of Bradycardia and what is the treatment?

Answer 30

• Causes:
   Slowed signal from the SAN – sinus bradycardia
   ‘Pause’ in the normal activity of the SAN – sinus arrest
   Block of the electrical impulse due to SAN, AV or conducting tissue damage
• Treatment:
   Artificial pacemaker ad resetting of natural rhythm of heart

Question 31

What is Tachycardia?

Answer 31

A fast rhythm > 100bpm

Question 32

What is Sinus tachycardia?

Answer 32

Inappropriate Sinus Tachycardia (IST) (where pacemaker cells are generating too fast a signal) can involve caffeine, amphetamines, or overactive thyroid gland which would have an effect on the SNS

Question 33

What is non-sinus tachycardia?

Answer 33

 Independent of the SAN

 Results from the addition of abnormal impulses to the normal cycle (outside the SAN). Detected by an ECG

Question 34

What is non-sinus tachycardia caused by?

Answer 34

 Automaticity – enhanced pacemaker
 Triggered beats – early or delayed depolarization
 Re-entry activity/ circus activity – smooth conduction profile defect

Question 35

What is ventricular fibrillation?

Answer 35

• type of tachycardia
• Uncontrolled twitching or quivering of muscle fibres (fibrils)
• During ventricular fibrillation blood is not removed from heart because ventricles are twitching so much
• Results in sudden cardiac death

Question 36

What may lead to non-sinus tachycardia?

Answer 36

Congenital heart disease; electrocution accidents or injury to the heart; cardiomyopathies; heart surgery; ischaemia – can all lead to tachycardia
- If part of the heart becomes damaged (e.g. after ischaemia) then muscle cells may generate rogue electrical impulses

Question 37

What is triggered beat pathology (LQT syndrome)?

Answer 37

 Causes spontaneous multiple depolarizations leading to ventricular arrythmias
 Produce a sustained abnormal rhythm
 Extended action potential profile generating disharmony between mechanical and electrical pathways

Question 38

What do many cases of LQT syndrome arise from and who is LQT syndrome most prevalent in?

Answer 38

• many cases arise from defects in the ion channels that regulate ventricular action potentials
• most prevalent in under 25s

Question 39

What is chronic heart failure?

Answer 39

• Cardiac output is inadequate despite venous return

* Due to decline in contractility and an inability to develop forceful contracture

Question 40

What happens in systolic and diastolic heart failure?

Answer 40

• Diastolic – heart can’t fill properly because of stiff and thick chambers
• Systolic – heart can’t pump because of stretched and thin chambers (isn’t ejected from heart properly)

Question 41

What is chronic heart failure caused by?

Answer 41

• CAD
• Additional work of the heart
• Hypertension
• Valve defects

Question 42

What are the symptoms of chronic heart failure and why?

Answer 42

• Breathlessness and fatigue
• May affect the left, right or both sides of the heart
• Left ventricular failure: fluid will build up in the lungs due to congestion of the veins of the lungs
• Right ventricular failure, systemic capillary pressure increases and fluid will accumulate in the body, especially in the tissues of the legs and abdominal organs

Question 43

in angina pectoris when may someone feel pain and what does this pain feel like?

Answer 43

• they may feel pain during exertion or emotional stress
• may produce a sensation of pressure, chest constriction and pain that may radiate from the sternal area to the arms, back and neck

Question 44

What is a myocardial infraction?

Answer 44

A heart attack, linked with CAD

Question 45

What is an infract?

Answer 45

Death of an affected heart tissue

Question 46

How may coronary thrombosis occur?

Answer 46

: a vessel already narrowed by plaque formation may also become blocked by a sudden spasm in the smooth muscles of the vascular wall

Question 47

How can a myocardial infraction usually be diagnosed and why?

Answer 47

with an ECG and blood studies – damaged myocardial cells release enzymes into the circulation and these elevated enzymes can be measured in diagnostic blood tests

Question 48

Give features of premature atrial contractions (PACs)

Answer 48

often occur in healthy individuals. The normal atrial rhythm is momentarily interrupted by a surprise atrial contraction. Stress, caffeine and various drugs may increase the incidence of PACs by increasing the permeabilities of the SA pacemakers.

Question 49

What happens in paroxysmal atrial tachycardia (PAT)?

Answer 49

a premature atrial contraction triggers a flurry of electrical activity. The ventricles are still able to keep pace and the heart rate jumps to about 180 bpm

Question 50

What happens during atrial fibrillation?

Answer 50

the impulses move over the atrial surface at rates of about 500 bpm. The atrial walls quiver instead of producing an organized contraction. The ventricular rate cannot follow and may remain within normal limits. The atria are now non-functional but they have such a small contribution to the EDV that the condition may go unnoticed in older adults

Question 51

When do premature ventricular contractions occur and why?

Answer 51

occur when a purkingie cell depolarizes to threshold and triggers a premature contraction. Single PCVs are common and not dangerous. The ectopic pacemaker is the cell responsible. Epinephrine or other stimulatory drugs or ionic changes that depolarize cardiac muscle plasma membranes may increase the frequency of PSCs

Question 52

What is ventricular tachycardua (VT)?

Answer 52

is four or more PVCs without intervening normal beats. Multiple PVCs and VT may indicate that serious cardiac problems exist

Question 53

What is ventricular fibrillation responsible for?

Answer 53

cardiac arrest. The ventricles quiver and stop pumping blood

Question 54

What is focal calcification?

Answer 54

is the deposition of calcium salts following the gradual degeneration of smooth muscle in the tunica media. Some focal calcification is part of the aging process. It may also develop in association with atherosclerosis

Question 55

Why are young women less susceptible to atherosclerosis?

Answer 55

Because oestrogen slows plaque formation