Cardiovascular medicine

Question 1

irreversible risk factors for cardiovascular disease

Answer 1

• age
• sex
• family history

Question 2

reversible risk factors for CVD

Answer 2

• smoking
• obesity
• diet
• exercise
• hypertension
• hyperlipidaemia

Question 3

primary prevention of CVD

Answer 3

• increasing exercise, eating a better diet and stopping smoking
• altering risk factors BEFORE the onset of disease
• opper

Question 4

secondary prevention of CVD

Answer 4

• reducing the risk once the disease is present

- easier to get patients to comply as they don’t want a relapse

Question 5

antiplatelet drugs

Answer 5

1. aspirin
2. clopidrogel
3. dipyridamole

Question 6

oral anticoagulants

Answer 6

stop the coagulation pathway

WARFARIN

Question 7

drugs to treat atherosclerosis

Answer 7

statins

Question 8

how do diuretics help patients with CVD

Answer 8

reduce fluid volume of the blood by decreasing water retention and increasing salt retention
- reduces preload and controls blood pressure

Question 9

nitrates

Answer 9

long or short acting
- dilate veins to reduce preload in the heart (angina)

• dilates resistance arteries to reduce cardiac workload, oxygen consumption
• dilates the coronary artery supply (headaches)

Question 10

calcium channel blockers

Answer 10

• treatment for hypertension

- blocks calcium channels in smooth muscles and some heart muscles

Question 11

dental aspect of calcium channel blockers

Answer 11

can cause gingival hyperplasia

Question 12

ace inhibitors

Answer 12

• enalapril
• inhibits conversion of angiotensin 1 to angiotensin 2
• important vasoconstrictor, therefore reducing BP

Question 13

dental aspect of ace inhibitors

Answer 13

can cause oral angio-oedema (top lip oedema)

Question 14

blood vessel narrowing atherosclerosis

Answer 14

• results in inadequate O2 delivery

- muscle cramps due to lack of oxygen, leading to lactic acid build up causing FIBROSIS

Question 15

blood vessel occlusion atherosclerosis

Answer 15

• no oxygen delivery due to blocking of the blood vessel
• the tissue becomes narcotic
• severe pain and loss of function results

Question 16

full requirement for atherosclerosis diagnosis

Answer 16

1. FULL medical history
2. ECG

• STEMI
• nSTEMI
  3. biomarkers
• increased coronary enzymes (troponin) levels after an MI

Question 17

during which action is blood able to flow into the coronary arteries

Answer 17

• disastole as the vessels are relaxed

Question 18

why does an increased HR reduce BF to the coronary arteries

Answer 18

• there is less time during diastole to allow blood to flow into the relaxed vessels

Question 19

effects of narrowing/atherosclerosis in the coronary arteries

Answer 19

• reduced O2 delivery to the heart
• lactic acid build up
• fibrosis of the muscle (permanent damage)

Question 20

two types of angina

Answer 20

1. classical

2. unstable

Question 21

classical angina

Answer 21

• only gets worse when the person is exerted

- symptoms decrease and stop when resting

Question 22

unstable angina

Answer 22

• symptoms of angina occur randomly when at rest
• NO BIOMARKER
• blood vessels randomly open and contract

Question 23

angina

Answer 23

REVERSIBLE ischaemia of the heart muscle due to narrowing of one or more of the coronary arteries

Question 24

angina pain

Answer 24

• autonomic nerve stimulation in the heart due to low oxygen delivery
• this registers as REFERRED PAIN in the brain
• therefore the pain is felt in the chest, and can extend over the arm, back and jaw

Question 25

symptoms of classical angina

Answer 25

1. chest pain when exercising
2. chest pain can worsen with temperature and emotion
3. pain is relieved from rest

Question 26

diagnosing angina

Answer 26

1. ECG showing an area of myocardial ischaemia
2. elimination of other potential causes

• thyroid issues, valvular defects
  3. angiography
  4. echocardiography

Question 27

angiography

Answer 27

dye injected into an artery to check for narrow areas

Question 28

echocardiography

Answer 28

sound waves used to generate a live image of the heart

Question 29

how will angina appear in an ECG?

Answer 29

• elevation i the ST segment
• ISCHAEMIC EPISODE
• the ST segment doesn’t reach the base line of the ECG
• STEMI

Question 30

treating angina

Answer 30

reducing the oxygen demand of the heart by
1. reducing after load by reducing BP

2. reducing preload by using nitrate therapy

Question 31

how to reduce preload for angina patients

Answer 31

• nitrate therapy with dilate the vessels to reduce venous pressure (GTN in an emergency)
• angioplasty to bypass narrowed vessels (CABG)
• drugs to reduce hypertension (diuretics and ace inhibitors)

Question 32

CABG

Answer 32

• coronary artery bypass graft
• vein from the leg is grafted into the heart, wrapping round the aorta to bypass narrowed vessels
• major surgery involved, heart must be stopped
• only lasts 10 years in good health

Question 33

angioplasty and stenting

Answer 33

• lowers the risk of angina
• risks of vessels bursting
• vessel is artificially widened
• angioplasty = ballon with cage opened in the vessel

Question 34

peripheral vascular disease

Answer 34

angina but in the peripheral tissues

- usually the peripheries and lower limbs

Question 35

atheroma

Answer 35

fatty deposits and scarring in vessel walls

Question 36

symptoms of peripheral vascular disease

Answer 36

• pain in the limbs on exercise, improved with rest
• limited function to peripheral tissues
• may lead to necrosis and gangrene in severe cases

Question 37

when does ischaemia become infarction

Answer 37

when a narrowed vessel, either by atheroma, thrombosis or platelet plug, becomes completely occluded, preventing any blood reaching the tissue

Question 38

infarction

Answer 38

complete obstruction of a vessel causing tissue death

Question 39

brain infarction is caused by occlusion of

Answer 39

the carotid arteries

Question 40

heart infarction is caused by total occlusion of the

Answer 40

coronary arteries

Question 41

symptoms of myocardial infarction

Answer 41

1. crushing chest pain
   - clenched fist over chest is a good indicator
2. pain radiating to the left arm
3. nausea
4. pale, grey skin
5. sweating
6. palpitations
7. shortness of breath

Question 42

what to do if a patient is suffering an MI in surgery

Answer 42

1. give the patient 300mg crushed in water and spray 3 puffs of GTN under the tongue and have the patient sitting bolt upright
2. attach defibrillator pads to the chest, they won’t shock unless the person goes into cardiac arrest
3. attach the trauma mask to an oxygen supply and give 15L/min to the patient
4. calm and reassure the patient as much as possible

Question 43

types of MI

Answer 43

1. spontaneous
2. sudden death
3. MI from percutaneous infection (from angioplasty or stent)
4. MI fro CABG

Question 44

spontaneous MI

Answer 44

• primary coronary event

- platelet plaque plug ruptures the vessel

Question 45

suddenly death MI

Answer 45

• ischaemia causes STEMI or a thrombus
• death is not from the ischaemia, but usually from ventricular fibrillation due to an interruption of the conductivity of the heart muscle from reduced BF

Question 46

thrombolysis

Answer 46

dissolves a blood clot within 6 hours

- ideal treatment as it is non invasive

Question 47

treating MI

Answer 47

1. thrombolysis done within 6 hours
2. angioplasty can be placed within 3 hours
3. CABG must be done if other options are not appropriate

Question 48

preventing MI

Answer 48

1. treat patient with aspirin

2. work on risk factors

Question 49

stroke

Answer 49

ifarction in the brain caused by an embolism
- atheroma travels into the carotid and it lodged

• can also be caused by thrombosis in the brain (rare)

Question 50

treatment of a stroke depends on whether it was caused by a;

Answer 50

1. clotting or bleeding

2. embolism or thrombosis

Question 51

transient ischaemic attacks

Answer 51

a warning sign of stroke risk
- mini strokes

• usually last less than 24 hours before normal function returns

Question 52

why do patients feel such sever pain during MI?

Answer 52

• the basal ganglia picks up autonomic stimulation which is not normally recognised
• this is passed onto the sympathetic system
• the signals are transcribed this way confer a greater amount of anxiety coupled with the pain

Question 53

STEMI

Answer 53

ST segment elevated myocardial infarction

Question 54

what do abnormal Q waves on the ECG suggest

Answer 54

old MI has occurred

Question 55

primary care of MI

Answer 55

• get the patient into hospital
• analgesia, aspirin, GTN
• BLS if required

Question 56

hospital care for MI

Answer 56

1. PCI angioplasty and stent
2. thrombolysis is possible, most effective if given early enough
3. drug treatment to reduce the damage of the MI

Question 57

complications after MI if survived

Answer 57

1. frequent arrythmia
2. heart failure risk due to loss of function of areas of the muscle
3. ventricular hypofunction
   - papillary muscles can easily rupture during MI
4. DVT or pulmonary embolism

Question 58

preventative care of MI

Answer 58

1. get patient on aspirin
2. modify risk factors
3. beta blockers
   - reduce HR
4. ACE inhibitors
   - reduce preload and prevents vasoconstriction
5. Statins
   - if the patient has high cholesterol
6. diuretics
   - reduce BP
7. Ca channel blocker
   - relaxes smooth muscle in vessels and force of the left ventricle

REMEMBER ABCD

• aspirin, beta blocker, calcium channel blocker, diuretics

Question 59

atherosclerosis

Answer 59

• a build up of cholesterol in the tunica media
• caused by NON-MODIFIABLE lifestyle factors (hyperlipidaemia)
• chronic inflammatory response followed by incomplete healing
• forms ATHEROMAs

Question 60

non-modifiable risk factors of atherosclerosis

Answer 60

1. age
2. gender
3. genes

Question 61

why are males more at risk of atherosclerosis

Answer 61

• only until the menopause

- oestrogen levels in women keep BV open

Question 62

what defect in the genes can make a person more susceptible to atherosclerosis

Answer 62

mutation in the low density lipoprotein receptor gene
- mainly found in the liver, smooth muscles and fibroblasts

• control cholesterol uptake and processing

Question 63

basal state of endothelial cells

Answer 63

• normal state
• cells are non-adhesive and non-thrombogenic
• the laminar flow is normal
• there is no trauma or insult to the cells

Question 64

activated state of endothelial cell states

Answer 64

• change in the production of cytokine growth factor
• encourages thrombogenic events

causes;

1. turbulent flow
2. hypertension
3. bacterial productions
4. cigarette smoke
5. viruses

Question 65

atheroma

Answer 65

• chronic inflammatory response to lipoproteins, collection of monocytes which have engulfed lipid
• endothelial cells surface becomes more permeable to lipids
• change in adhesion so more monocytes collect and move into the tunica media
• monocytes move in, but cannot phagocytose the lipid and therefore form a fatty deposit

Question 66

foam cells

Answer 66

collection of pale and swollen monocytes from inability to phagocytose lipid

Question 67

the healing response phase in the formation of an atheroma

Answer 67

1. smooth muscle cells proliferate and fibrous tissue forms from macrophage and fibroblasts in healing
2. this forms a fibro-fatty plaque with a central mass of lipid and necrotic tissue as the lipid cannot be phagocytosed
3. this is covered in a thin layer of endothelial cells due to thickening of the tunica media, forming a cap over the cholesterol, forming a plug
4. small blood vessels can form in the plug, causing haemorrhage

Question 68

effects of atherosclerosis

Answer 68

• decrease in blood supply to a tissue or organ (ischaemia)
• complete obstruction of blood flow (infarction)
• thrombosis (release of thrombogenic factors from the atheroma forms a thrombus/clot)
• embolism may occur if the thrombus breaks off

Question 69

periodontitis risk with atherosclerosis

Answer 69

the biofilm in the mouth causes chronic inflammation
- the inflammatory factors are released because of this

• once they are released they go into the liver and set up an acute phase response which can cause atherosclerosis

Question 70

claudication

Answer 70

relief of pain upon rest

Question 71

effects peripheral vascular diseases

Answer 71

1. ischaemia
2. claudication
3. gangrene
4. coagulation necrosis and infection

Question 72

aneurysm

Answer 72

• abnormal dilation of the blood vessel walls
• aortic aortic aneurysm
• • most common result of atherosclerosis
• the lumen of the vessel widens dramatically and floods with blood as the walls become weak
• • this can rupture and cause a huge bleed

Question 73

coagulation necrosis

Answer 73

• necrotic cells retain their outline and can be identified
• the cytoplasm is dark but there is remnants of the nuclei in it
• neutrophils invade the tissue and granulation tissue forms

Question 74

congestive heart failure

Answer 74

• ventricular hypertrophy
• causes oedema of the extremities
• chronic venous congestion of the lung and liver can occur depending on which side of the heart fails

Question 75

pathophysiology

Answer 75

• hypertrophy of the myocytes (parts of the muscle)
• the heart reaches 2-3 times its weight, but capillary number stay the same
• therefore there is an increase metabolic demand of the heart, leading to cardiac ischaemia, apoptosis and eventually heart failure

Question 76

tumours associated with the cardiac system

Answer 76

1. hamartoma
2. caposi sarcoma
3. angiosarcoma

Question 77

hamartoma

Answer 77

• found in developmental issue
• the tissue is in its normal site
• collection of blood vessels
• forms a HAEMANGIOMA in newborns

Question 78

Kaposi sarcoma

Answer 78

• blood spot
• low grade sarcoma containing lymphatics and blood vessels
• found on the skin and in the oral cavity
• often associated with immune disorders (HIV, AIDS, HERPES)

Question 79

angiosarcoma

Answer 79

• aggresive and rare
• malignancy of the endothelial cells
• tumour in the blood vessel

Question 80

benign cardiac tumours

Answer 80

myxoma
- tumour of connective tissue in the heart

lipoma

• soft fatty tumour

Question 81

why may vascular malformations become more apparent in old age

Answer 81

the mucosa thins, especially in the oral cavity

Question 82

capillary vascular malformations

Answer 82

• lots of little capillaries group together to form a haemangioma (hamartoma)

Question 83

cavernous vascular malformation

Answer 83

• large space filled with lots of blood vessels

Question 84

storage weber syndrome

Answer 84

• vascular malformation
• PORT WINE STAIN
• excessive haemangioma which tends to follow the nerves on one half of the face

Question 85

stenosis

Answer 85

injury to the valve resulting in the back flow of blood

Question 86

insufficient valvular heart disease

Answer 86

the valve doesn’t close properly

Question 87

valvular vegetations

Answer 87

lumps forming on the cusps of the valves

Question 88

valvular heart disease

Answer 88

• congenital or acquired (from cardiac diseases)
  1. stenosis

2. insufficiency
3. valvular vegetations

Question 89

calcific aortic stenosis

Answer 89

• most common valvular condition
• calcium is deposited on the valves as a result of inflammation
• neoplastic or dystrophic calcification

Question 90

rheumatic heart disease

Answer 90

• comes from rheumatic fever
• mainly affects the valves
• host immunity attacks the strep A antigen, but also the host protein in the valves
• type 2 and 4 hypersensitivity reaction
• endocardium is inflamed causing fibrinoid necrosis
• the valves thicken and fuse
• aortic dilation from increasing volume of blood
• makes a person very susceptible to ineffective endocarditis

Question 91

ineffective endocarditis

Answer 91

microbial infection of the heart valves

Question 92

what type of hypersensitivity causes rheumatic stenosis

Answer 92

type 2 and 4

Question 93

3 main risk factors of hypertension

Answer 93

1. genes/environment interactions
2. environment
3. genes

Question 94

gene/environment interactions in hypertension risk

Answer 94

• race

- gender

Question 95

environment risks in hypertension

Answer 95

inactivity, stress, obesity, smoking, age, salt, alcohol

Question 96

diagnosing hypertension

Answer 96

• raised blood pressure
• diagnosed as BP > 140/90mmHg
• must take blood pressure at 3 different readings at rest

Question 97

age and hypertension risk

Answer 97

• BP rises naturally with age
• the aorta stretches to accommodate high pressure but cannot cope in the elderly
• age itself is not a cause, must be in conjunction with other factors

Question 98

obesity and hypertension

Answer 98

higher risk of atherosclerosis resulting in higher pressure flow

Question 99

target BMI

Answer 99

below 25

Question 100

drugs which can cause hypertension

Answer 100

• NSIDs
• corticosteroids
• oral contraceptives
• sympathomimetics

Question 101

what other diseases or conditions can result from hypertension

Answer 101

1. cerebrovascular accident (stroke)
2. renal damage
3. congestive heart failure
4. end organ damage

these diseases are brought on or caused by pressure

• treatment of hypertension can therefore greatly reduce the risk

Question 102

essential hypertension

Answer 102

• no identified triggers

- occurs without being able to identify the exact cause

Question 103

triggers of hypertension

Answer 103

1. renal syndromes
   - raise BP due to issues controlling fluid and angiotensin levels
2. endocrine issues
   - tumours, cushings, hyperthyroidism, high cortisol, hyperaldosterone

Question 104

renal artery stenosis

Answer 104

• blockage in the renal artery

- rare cause of hypertension due to problems controlling blood pressure

Question 105

phaeochromocytoma

Answer 105

• tumous of the adrenal gland
• sits just above the kidney
• can cause hypertension fro too much adrenaline production and increase HR

Question 106

cuhsing’s

Answer 106

• retaining a lot more water and salt than normal

- increases fluid pressure and therefore causes hypertension

Question 107

signs and symptoms of hypertension

Answer 107

• often there is no presentation
• only some people show symptoms

1. headaches
   - only if systolic pressure is above 300mmHg
2. transient ishaemic attack
   - TIA “mini stoke”
   - full neurological function returns 24h after the stroke

Question 108

resistant hypertension

Answer 108

an inability to get the BP stable, with use of medication

Question 109

accelerated hypertension

Answer 109

a recent significant increase over the baseline BP that is associated with target organ damage

Question 110

renal artery stenosis

Answer 110

the renal artery is smaller than it should be
- not getting enough BF due to narrowing of the vessel and it is therefore underdeveloped

• over activates angiotensin release as it senses lower BP

Question 111

bilateral renal artery stenosis

Answer 111

• caused by atherosclerosis of the aorta

- renal arteries come off of the aorta at right angles, resulting in more turbulent flow in there

Question 112

investigations into hypertension

Answer 112

1. urinalysis
2. serum biochemistry
3. ECG
4. renal ultrasound
5. angiography

Question 113

urinalysis

Answer 113

• determines the efficiency of renal function

Question 114

serum biochemistry

Answer 114

• tests the elctrolyte, urea and creatinine levels in the blood
• important as these levels can be upset due to more retention, indicating hypertension

Question 115

treatment of hypertension

Answer 115

1. modify the risk factors
2. single daily drugs

• requires patient compliance
• beta blockers, calcium channel blockers, diuretics, ace inhibitors

Question 116

side effects of thiazide diuretics

Answer 116

can cause gout and painful joints

Question 117

side effects of beta blockers

Answer 117

• can interfere with patients with asthma and COPD

Question 118

side effects of calcium channel antagonists/blockers

Answer 118

• may reduce cardiac output, but doesn’t do anything to reduce constriction of the blood vessels

Question 119

side effects of ace inhibitors

Answer 119

can make peripheral vascular disease worse by reducing bf back to the heart

Question 120

heart failure

Answer 120

when the ability of the heart to prodce cardiac output necessary for bodily function is compromised and therefore cannot meet the demand of the tissues to keep them alive

Question 121

types of heart failure

Answer 121

1. high output failure

2. low output failure

Question 122

high output heart failure

Answer 122

very rare form of heart failure

- caused by anaemia or thyrotoxicosis (hyperthyroidism causing an increased in O2 demand)

Question 123

low output failure

Answer 123

• more common form of heart failure

- caused by MI or valve disease

Question 124

systolic disfunction

Answer 124

• the heart has enlarged ventricles which fill with blood

- the ventricles pump out less than 40-50% od the blood filling them, resulting in a low cardiac output

Question 125

diastolic function

Answer 125

• the ventricles become stiff and therefore cannot fill with as much blood
• the amount of blood in the ventricles may be lower than normal

Question 126

what does the body think the reason is for low BP? how does this result in heart failure?

Answer 126

• haemorrhage
• all systems work to increase fluid level
• the heart pumps faster to increase fluid levels, however because the heart has failed the lungs and tissues build up with fluid

Question 127

causes of low output failure

Answer 127

1. heart muscle disease
   - MI, myocarditis
2. pressure overload
   - hypertension
   - aortic stenosis
3. volume overload
   - mortal or aortic incompetence
4. arrythmias
   - heart block or AF
5. drugs
   - beta blockers, corticosteroids

Question 128

signs and symptoms of left heart failure

Answer 128

• lung and systolic effects
  1. tachycardia

2. low blood pressure and volume
3. dyspnoea (shortness of breath)

Question 129

signs and symptoms of right heart failure

Answer 129

• elevated venous pressure
• peripheral and sacral oedema
• enlarged liver
• fluid build up in the abdomen
• raised jugular venous pressure

Question 130

classic symptoms of heart failure reported by patients

Answer 130

• shortness of breath
• swollen extremities
• chronic lack of energy
• difficulty breathing when lying down
• swollen and tender abdomen
• loss of apatite
• cough
• confusion

Question 131

treating acute heart failure

Answer 131

• emergency
• hospital treatment
• oxygen, morphine and frusemide loop diuretic to help reduce fluid volume

Question 132

treating chronic heart failure

Answer 132

• improve myocardial function in general practice

- where possible, treatment of the cause is most effective

Question 133

treatable causes of heart failure

Answer 133

• hypertension
• valve disease
• arrythmias
• anaemia
• thyroid disease

Question 134

drugs to treat heart failure

Answer 134

• diuretics to increase salt and water loss
• ace inhibitors to reduce salt and water retention
• nitrates to reduce venous filling pressure (preload)

Question 135

“tachy” arrhythmia are …

Answer 135

FAST
- atrial fibrillation

• ventricular tachycardia

Question 136

“brady” arrhythmia are…

Answer 136

SLOW

- blockage in the AV node or drug induced reduced rate (beta blockers)

Question 137

pacemakers

Answer 137

• used to treat brady arrythmias
• keeps the HR at a minimum level
• if HR is too slow, the PM delivers a shock to increase myocardial beating rate

Question 138

P wave of ECG

Answer 138

atrial depolarisation

Question 139

QRS complex of ECG

Answer 139

ventricular depolarisation

Question 140

T wave of ECG

Answer 140

ventricular depolarisation

Question 141

ventricular fibrillation

Answer 141

• unstable electrical activity in the heart
• no P wave in the ECG
• extremely irregular rhythm
• patients needs defibrillated

Question 142

asystole

Answer 142

• lack of ventricular movement
• heart rate and rhythm are absent
• wandering line on ECG
• patient is dead

Question 143

atrial fibrillation

Answer 143

• regularity of heart hbeatis gone
• inconsistent gaps between beats
• managed with anticoagulants

Question 144

left cardiac valve disease effects which valves

Answer 144

mitral and aortic

Question 145

mitral valve

Answer 145

betwen LA and LV

Question 146

aortic valve

Answer 146

between LA and aorta

Question 147

right valve disease effects

Answer 147

tricuspid and pulmonary valves

Question 148

tricuspid valve goes between

Answer 148

right atrium and right ventricle

Question 149

pulmonary valve goes between the

Answer 149

right ventricle and the pulmonary artery

Question 150

the heart valves are composed of…

Answer 150

cusplets of collagen tied onto papillary muscles

Question 151

stenosis

Answer 151

• narrowing of a valve
• results in blood and pressure filling up in a chamber as it doesn’t open properly
• blood is released at higher pressure into the system as it is ejected at a higher pressure

Question 152

valve deformation factors

Answer 152

• very common in elderly and people with downs syndrome
• rheumatic fever can cause heart disease, immunological response from the infection targeting STREP A but also the host proteins in the valves

Question 153

causes of valve disease

Answer 153

1. congenital defects
   - valve is formed incorrectly during growth
2. stretching of the aorta
   - valve is pulled apart
3. myocardial infection
   - papillary muscles rupture
4. rheumatic fever
   - immunological reaction to strep a
5. dilation of the aortic root
   - syphilis side effect, causes aortic aneurysm

Question 154

investigating valve diseases with an ultrasound

Answer 154

• shows the heart moving in real time
• technology shows the blood moving in the direction it should and the direction it shouldn’t (colour doppler flow assessment)

Question 155

mechanical valve replacement

Answer 155

• metal valve
• patient needs to be on anticoagulants for life (warfainised) to prevent the blood clotting on the abnormal tissue
• must also be on dual anti platelets (aspirin and clopidrogel)

Question 156

tissue valve

Answer 156

• usually a pig valve
• lasts about 10 years
• don’t need to be on anticoagulants as the blood won’t stick to the collagen leaflets

Question 157

INR

Answer 157

international normalised ratio
- a cohort of results resulting in an average value for how long it takes for blood to clot

• warfarin will increase a patients INR as it is an anticoagulant

Question 158

why are patients who have received valve replacements encourages to regularly visit the dentist

Answer 158

they are at a higher risk of ineffective endocarditis, due to the risk of streptococci from the oral cavity entering the blood stream
- these patients must be given prophylactic care and must maximise their oral health

Question 159

overfusion

congenital heart defects

Answer 159

1. atrial septal defects

2. ventricular septal defects

Question 160

atrial septal defects

Answer 160

• creates a lower pressure system
• only a small amount of blood goes back into the lungs, therefore some blood is oxygenated twice
• right atrium may be enlarged as it has to pump more blood each time

Question 161

ventricular septal defects

Answer 161

• blood is squirted into the left atrium at high pressure then into the right ventricle as well as the left ventricle
• this can cause right heart failure as the heart has to pump at a much higher pressure

Question 162

co-arctation of the aorta

Answer 162

• incomplete closure of the ductus venosus after birth
• blood therefore travels to the aorta from the RV without passing through the pulmonary circulation
• sometimes overclosure may result in narrowing of the aorta

Question 163

central cyanosis

Answer 163

• congenital heart disease
• core tissue are starved, resulting in blue mucosa
• exists when there is 5g/decilitre or more deoxygenated Hb in the blood

signs;

1. finger clubbing
2. blue mucosa and peripheries

Question 164

peripheral cyanosis

Answer 164

• occurs when a person is cold
• cold from the outside
• peripheral system shuts down to prevent heat loss

Question 165

ineffective endocarditis

Answer 165

• infection of the endocardium
• usually on the valves
• many organisms implicated
• often there is no known predisposing factors
• thrombi form on the platelets due to surface abnormalities causing turbulent blood flow
• these thrombi form VALVULAR VEGETATIONS which microbes attach to and multiply

Question 166

symptoms of ineffective endocarditis

Answer 166

1. fever
2. heart murmur
3. skin manifestations (petachie, splinter haemorrhages)
4. septic complications (pneumonia)

Question 167

organisms involved in inefective endocarditis

Answer 167

1. streptococci
2. staphylococci
3. fungi

Question 168

treating I. endocarditis

Answer 168

4+ weeks of bactericidal treatment often combined with other drugs
- potential for valve replacement if there is sufficient damage

Question 169

montgomery issues of ineffective endocarditis

Answer 169

• patient must be informed about antibiotic prophylaxis
• consequences of no ABP
• patient can discuss this this with their cardiac team

Question 170

drug regime for prophylaxis against ineffective endocarditis

Answer 170

• 3g of oral amoxycillin 1 hour before procedure, even if used recently
• if allergic to penicillin or high risk, 1.5g clinamycin can be taken