L15 Cardiovascular diseases

Question 1

death rates and stuff with CVD

Answer 1

causes biggest amount of deaths
1 in 3 deaths are CVD
been a steady decline in deaths by CVD as treatments and lifestyle changes inc

Question 2

major diseases that you need to know

Answer 2

Affecting the vessels
- hypertension
- stroke
- coronary heart disease
- thrombosis

Affecting the heart
- valvular disease
- arrhythmia
- myocardial infarction
- heart failure

Question 3

diagram for what diseases affect bwhat part of the cardiac output,
see onenote

Answer 3

:)

Question 4

HYPERTENSION: what bp counts as high blood pressure

Answer 4

over 140mmHg/90mmHg

Question 5

how does hypertension affect afterload and therefore the SV

Answer 5

increases the afterload
which increases ESV
and thus decreased SV

see notes on bp regulation

Question 6

how does hypertension affect filtration

Answer 6

increases filtration
can lead to oedema (increase in fluid)
see notes on capillary exchange

Question 7

how many people on avg are affected by hypertension in UK

Answer 7

about 15mil people
and 1/3 of these usually goes undetected

Question 8

what is the main thing that makes hypertension so dangerous

Answer 8

its a big risk factor for many diseases

Question 9

how does hypertension lead to coronary artery disease & myocardial infarction

Answer 9

accelerates ATHEROSCLEROSIS
by increasing damage to endothelial walls of coronary arteries

Question 10

what is artherosclerosis btw

Answer 10

thickening or hardening of the arteries caused by a buildup of plaque in the inner lining of an artery

Question 11

how does hypertension lead to aneurysms

Answer 11

aneurysm is when weakness in blood vessel wall develops
so can bulge under pressure

increased wall stress
leads to aneurysms
and also makes it more liekly to rupture

Question 12

what vessel is prone to aneurysm

Answer 12

aorta

Question 13

what type of aneurysm can lead to stroke

Answer 13

saccular aeurysm - in the cerebral circulation

Question 14

what are the 2 types of stroke

Answer 14

haemorrhagic - when a blood vessel inside the skull bursts and bleeds into and around the brain
and ischaemic - when the blood supply to part of the brain is interrupted or reduced, preventing brain tissue from getting oxygen and nutrients

Question 15

how does hypertension lead to stroke

Answer 15

damage to endothelial cells in the cerebral arteries

increasing atherosclerosis
which can lead to ischaemia by blocking arteries
or hamorragic by aneurysms that may form

Question 16

how can hypertension damage the kidneys

Answer 16

can cause inc vasoconstriction of the renal arteries
and reduce blood supply to kidney

damaged the nephron and kidney function declines

causing chronic kidney disease

Question 17

how can hypertension cause heart failure

Answer 17

chronic hypertension puts more strain on ventricles
by increasing afterload
and reducing cardiac output

the heart tries to compensate by hypertophy (when the organ literally increases in size via bigger cells)
this increases contractility
but it’s temporary and will decrease over time

Question 18

Causes of hypertension:
2 classifications of causes - what is primary hypertension?

Answer 18

primary/essential hypertension:
= when no known cause
probs lots of contributing factors
e.g.
- genetic predisposition
- alcohol
- less excersise
- obesity
- diabetes
- intrauterine environment (maternal high bp can influence developing bp in later life)

Question 19

Causes of hypertension:
2 classifications of causes - what is secondary hypertension?

Answer 19

when known medical cause of hypertension

e.g.

adrenal gland diseases
- pheochromacytoma (a tumour affecting this gland)
- leads to increased catecholamine production
- leads to more adrenaline circulating

Question 20

how is chronic kidney disease a secondary cause of hypertension

Answer 20

chronic kidney disease
- less Na+ excretion
- more fluid retained
- so RAAS system is activated
(see BP reg notes)
- so inc vasoconstriction

Question 21

how is endocrine disorders a secondary cause of hypertension

Answer 21

endocrine disorders
- diabetes (inc fluid, and inc arterial stiffness)
- cushings disease (when pituitary gland releases too much cortisol ie ACTH, and increased RAAS activation)

Question 22

how is adrenal gland disease a secondary cause of hypertension

Answer 22

adrenal gland diseases
- pheochromacytoma (a tumour affecting this gland)
- leads to increased catecholamine production
- leads to more adrenaline circulating

Question 23

treatment of hypertension: what are the 2 main things that treatments aim to fix for hypertension

Answer 23

reducing cardiac output
or
reducing vasocontriction

cuz BP = CO x total peripheral resistance

Question 24

explain the 3 types of drugs that affect the RAAS system that is used to treat hypertension

Answer 24

all lead to RAAS inhibtion

1. Angiotensin Converting Enzyme inhibitor (ACEi)
2. Angiotensin II receptor blocker (ARB)

• these 2 both reduce vasoconstriction cuz angiotensin causes vasoconstric

3. Aldosterone antagonist (Spironalactone)

• aldosterone stimulates Na+ and water reabsorption
• so when this is stopped, this reduces Na+ and water reabsorption
• reducing cardiac output

Question 25

in treating hypertension, what do Ca2+ channel blockers do?

Answer 25

Ca2+ stiulates muscle contrarction
so this drug inhibits entry of Ca2+ into cardiac and vascular muscle cells

reducing contractility and strok volume
therefore reducing CO

Question 26

in treating hypertension, what are thiazide diuretics

Answer 26

diuretics - effects kidney

this inhibits renal Na+ reabsorption
increasing water loss in uring

thus decreasing venous return
and EDV

reducing CO

Question 27

in summary, what are the 3 main types of drugs used to treat hypertension

Answer 27

• RAAS inhibitors
• Ca2+ channel blockers
• thiazide diuretics

Question 28

what are the levels and classes of drugs used to treat hypertension

Answer 28

1 drug = target angiotensin or Ca2+ blocker

if dont respond,

2 drugs = add in more angiotensin blocker, Ca2+ blocker or a thizide diuretic

if still dont respond,

3 drugs = all 3 classes of drugs

Question 29

what is it called when the patient doesnt respond to all 3 classes of drugs?

Answer 29

resistant hypertension

add in aldosterone antagonist OR a beta blocker (which blocks sympathetic pathway)

this is last step

Question 30

vascular disorders: ATHEROSCLEROSIS, what is it

Answer 30

narrowing of vessels,
fatty plaque narrow the blood vessel

Question 31

what are the 2 main triggering factors for atherosclerosis

Answer 31

endothelial damage (BP, smokeing, diabetes)

high LDL cholesterol

Question 32

describe plaque formation

Answer 32

the triggering factors increase the mrisk of inflammatory cells
e.g. macrophages and lipid accumulation
and fibrous tissure forms a little cap
and fatty streak which forms plaque

also thrombus formation because theres high chance of rupturing
this can lead to clot formation

Question 33

see onenote for atherosclerosis diagram

Answer 33

:)

Question 34

what ar the 2 circulations where this damage is most common

Answer 34

cerebral
coronary

Question 35

Effects of atherosclerosis in coronary circulation

Answer 35

redued blood supply to myocardium
causes chest pains = angina pectoris
or
if complete blockage in vessel = ischaemic heart disease

Question 36

Effects of atherosclerosis in cerebral circulation

Answer 36

complete cut off = stroke

partial cut off = brain cells die = vascular dementia

Question 37

how do we treat therosclerosis

Answer 37

statins

inhibits cholesterol synthesis = lowers LDL

acc the most prescribed drugs in the uk

Question 38

vascular diseases - THROMBOSIS, what is it

Answer 38

blood clots

Question 39

what might cause thrombosis

Answer 39

static/low blood flow
e.g. immobility and atrial fibrilation (where heart rate is slower than avg)

Question 40

where is thrombosis most likely to occur

Answer 40

in legs

cuz mobility helps venous return so immobility means skeletal muscle pumps not working

Question 41

explain formation of thrombosis venous circulation

Answer 41

e.g. starts in leg
in immobility
swelling and thrombus forms usually in veins near valves

risk of part of this breaking off and embolise
to form embolus
this goes up minto the circulation back through heart
will be fine on the way to the heart cuz vessels get bigger

but when leaves the heart to the pulmonary circ
will evetually encounter vessel it cant get trhoguh
= pulmonary embolism

blood supply to lungs cut off vry bad

Question 42

explain formation of thrombosis in arterial circulation

Answer 42

e.g. if atrial fibrilation - so blood flow in heart is not very good
thrombus happens in atria and breaks off
can go from L atrium to L ventricle
gets pumped into aorta
and get lodged
or could go into cerebral circ and cause stroke

or into coronary circulation and cause myocardial infarction

Question 43

how do we treat thrombosis

Answer 43

anticoagulants:
e.g. warfarin

anti platelet therapy:
e.g. aspirin

Question 44

cardiac disorders: CORONARY ARTERY DISEASE and myocardial infarction, what is it

Answer 44

biggest killer worldwide

starts with ATHEROSCLEROSIS of coronary artery
can restrict myocardial blood flow
can lead to angina (due to lack of O2)

Question 45

what treatment for angina in CAD

Answer 45

GTN spray
basically nitric oxide - leads to vasodilation

Question 46

what can the atheroscleorsis of coronary artey lead to

Answer 46

atherothrombosis
where the plaque ruptures or there’s an embolism
this causes the vessel to get completely cut off

leading to MI
any muscle that is supplied by the vessel that’s blocked starts to die pretty quickly

Question 47

whats the most commmon vessel to be affected by this

Answer 47

the left anterior descending coronary artey

supplies the left ventricle

Question 48

what is the treatment for myocardial infarction

Answer 48

percutaneous coronary intervention
= minimally invasive operation using catheter (inserted via femoral or radial artery)
inserts a stent to reopen blocked artery

and also given thrombolyitcs
= medication to break up clot

Question 49

cardiac disorders - VALVULAR DISEASE, what are the 2 types

Answer 49

stenosis
and regurgitation

Question 50

what is stenosis

Answer 50

thick/stiff valves that fail to open properky
this increases the afterload, reducing ejection

Question 51

common cause of stenosis

Answer 51

rheumatic fever
these symptoms can appear years after infection

Question 52

what can stenosis lead to

Answer 52

LV hypertrophy -> eventual heart failure

Question 53

what is regurgitaion

Answer 53

valves fail to close properly
so backflow of blood
reduces stroke volume and cardiac output

Question 54

treatments for valvular disease

Answer 54

surgery to repair valves
or can replace w/ sythetic valves

Question 55

cardiac disorders- HEART FAILURE, what are the 2 types

Answer 55

heart cant keep up with body’s demands

normally is secondary to other diseases, e.g. hypertension or myocardial infarction

diastolic and systolic

Question 56

what is diastolic heart failure

Answer 56

caused by thickening or stiff chambers in ventricles
so heart cant relax properly
and can’t fill with blood

this reduces EDV and reduces SV

Question 57

what is sytolic heart failure

Answer 57

heart cant pump
stretched thin chambers
arent effecient at contracting

so reduced contractility and reduced SV

Question 58

causes of heart failure

Answer 58

is secondary so

diseases that increase workload:
- hypertension
- aortic stenosis
causes pressure overload on ventricle
increases afterload
hypertrophy occurs and you get thinner walls and larger chambers

damage to myocardium -
after myocardial infarction
can happen years after
lose a lot of myocytes
so the rest of heart tissue has to work harder
myocytes arent replaced- instead you get a fibrous scar
leads to heart failure

Question 59

how can heart failure affect pulmonary circulation

Answer 59

if left sided heart failure
then not enough blood pumping out of the aorta
causes a backflow through the LA and LV
means the blood in the pulmonary circ gets backed up also
inc pressure in pulmonary veins
causing pumonary oedema
which is why shortness of breath and coughing

Question 60

how can heart failure affect systemic circ

Answer 60

right sided failure
blood pools in peripheral as increased pressure in systemic veins
= peripheral oedema

Question 61

what is it caleld when heart failure affects both sides of heart

Answer 61

congestive heart failure

Question 62

how does heart failure affect cardiac output and how is this a cycle

Answer 62

reduced cardiac output naturally leads to activation of RAAS and SNS
this might be alright short term but
it icreases the amount of fluid, vasoconstriction (thus resistance), and workload increases
this again reduces cardiac output cua the heart cant deal

Question 63

how do we treat heart fialure then, 4 key treatments

Answer 63

no curative treatments

damaged myocardiocytes cant be replaced

but can use
> beta blockers

> anti-hypertensives

surgical:
> left ventricular assist device

> heart transplant

Question 64

explain beta blockers in heart failure treatment

Answer 64

specifically beta adrenoreceptor antagonists
reduces SNS activity to reduce worload
and to prevent desensitisation (which tends to happen after constant activation of SNS, so this means when SNS is acc needed its sensitive to it)

Question 65

explain anti hypertensives in heart failure treatment

Answer 65

same drugs used in hypertension treatment
reduces fluid to relieve symptoms
reduces vasoconstriction
reduces workload

Question 66

explain left ventricular assist device and heart transplant as treatment

Answer 66

mechanical heart pump or transplant from healthy donor
but
surgical risks
immunorejection
also heart failure candidates usually older and frail so not good for these high risk surgeries

Question 67

cardiac disorder: ARRHYTHMIAS, what is it

Answer 67

devation heart’s normal sinus rhythm
can be asymptomatic
or
palpitations, faitning, heart failure, cardiac arrest, death

Question 68

2 main arrhythmias

Answer 68

bradychardia

tachycardia

Question 69

what is bradycardia

Answer 69

<60bpm
slow signals from SA node
SINUS BRADYCARDIA

or can be caused by damage to SA node, AV node or conductive tissue
which will block signals

Question 70

treatment for bradychardia

Answer 70

pacemaker

Question 71

what is tachycardia

Answer 71

> 100bpm

2 type:
> sinus tachycardia
(normal PQRST wave, but quicker)
caused by: drugs, hormones(e.g. thyroid)

> non-sinus tachycardia
= additional abmornal impulses in ECG

Question 72

some types of arrythmia

Answer 72

atrial fibrilation (AF)

long QT syndrome (LQTS)

Ventricular tachcardia(VT)

Ventricular fibrilation (VF)

Question 73

what is atrial fibrilation (AF)

Answer 73

most common
- rapid impulses
- so it quivers but doesnt quite contract
- can go undetected
- cause palpitations, fatining
- increases risk of stroke (due to the statis in blood flow cuz less contraction)

Question 74

what is long QT syndrome

Answer 74

prolongs the QT interval

affects mostly young people under 25

caused by genetic channelopathies (leading to prolonged action potential)

can cause additional ventricular depolarisations

can lead to ventricular tachycardia

Question 75

what is ventricular tachycardia

Answer 75

early depolarisation
leads to premature ventricul contraction
and not adequate filling before the heart contracts

prolonged VT can lead to ventricular fibrilation

Question 76

what is ventricular fibrilation

Answer 76

ie cardiac arrest
ventricles dont pump
w/o treament - death