cardio conditions Flashcards

Question 1

Q

define an abdominal aortic aneurysm (AAA)

Answer

A

dilation of abdominal aorta, >50%
usually diameter >3cm

Question 2

Q

epidemiology of AAA

Answer

A

M>F, more common elderly

Question 3

Q

risk factors of AAA

Answer

A

increasing age
M
atheroscelrosis
obesity
hypertension
diabetes
connective tissue disorder
family history

Question 4

Q

pathology of AAA

Answer

A

degradation of tunic media + adventitia= vessel dilation & loss of structural integrity
- mechanical stress on weakened tissue = dilation and rupture
-dilation of vessels disrupts laminar flow
AAA most commonly forms below level of renal arteries

Question 5

Q

presentation of AAA

Answer

A

asymptomatic
Sxs of rupture:
palpable, pulsatile abdo mass
tachy + hypotension
abdo pain
bruising
severe epigastric pain
hypovelemic shock

Question 6

Q

investigations for AAA

Answer

A

abdo ultrasound- >3cm/ ruptures= immediate management
CT angiogram

Question 7

Q

management of AAA

Answer

A

ruptured= urgent surgical repair using either open or EVAR (endovascular aneurysm repair)

unruptured= sympto- urgent surgical repair
asympto- surveillance + risk management

Question 8

Q

comps of AAA

Answer

A

AAA rupture
thromboembolism
fistula
abdo compartment syndrome
prog= 80 % mortality if ruptured

Question 9

Q

define acute pericarditis

Answer

A

inflammation of the pericardium

Question 10

Q

epidemiology of acute pericarditis

Answer

A

80-90% idiopathic
M>F
younger>older

Question 11

Q

causes of acute pericarditis (6)

Answer

A

viral- aka enteroviruses eg mumps, HIV, coxsackievirus = most common
TB
rheumatoid arthritis
uraemia secondary 2 kidney disease
Dressler syndrome- past MI inflammation
hypothyroidism
malignancy

Question 12

Q

risk factors for acute pericarditis

Answer

A

male
20-50 years
past MI
bacterial/viral infections
trauma

Question 13

Q

pathology of acute pericarditis

Answer

A

inflammation= narrowed pericardial space
inflamed layers rub against each other - increasing inflammation
pericardial effusion since serous pericardium can’t remove fluid quick enough
effusion due to xtra fluid needed 2 compensate for friction
severe effusion=cardiac tamponade

Question 14

Q

presentation of acute pericarditis

+ECG changes

Answer

A

sudden, sharp, severe & pleuritic chest pain
- pain is relieved sitting forward, worse when lying flat
pericardial rub- squeaky sound when patient leans forward, listen @ sternal edge

dyspnoea
hiccups due to irritated phrenic
tachycardia
tachypnoea
fever

ECG changes= saddle shape + concave ST elevation, PR depression

Question 15

Q

investigations for acute pericarditis

Answer

A

ECG- saddle shape & concave ST elevation, PR depression, T wave flattening
chest xray-water bottle hear
echocardiogram- effusion
bloods (increased WCC + ESR)
other= serum troponin

Question 16

Q

differential diagnosis for acute pericarditis

Answer

A

MI
pneumonia
pulmonary embolus

Question 17

Q

management of acute pericarditis

Answer

A

sedentary activity until symptoms + ECG/CRP improve
1 NSAID/aspirin + colchicine (antinflammatory)

Question 18

Q

complications of acute pericarditis

Answer

A

pericardial effusion
cardiac tamponade
chronic constrictive pericarditis

Question 19

Q

define aortic dissection

Answer

A

tear in the intima of the aorta

Question 20

Q

epidemiology of aortic dissection

Answer

A

M>F, 50-70 yrs

Question 21

Q

pathology of aortic dissection

Answer

A

tear in the intima of the aorta- this causes blood to flow into new, false channel between tunica intima & tunica media
blood spreads thru false channel & can occlude flow thru branches of aorta

type A- tear in ascending aorta before brachiocephalic
type B - tear in descending aorta after L subclavian

Question 22

Q

risk factors for aortic dissection

Answer

A

HYPERTENSION
smoking
family history
trauma
obesity + sedentary lifestyle
connective tissue disorders
narrowing of aorta
pregnancy

Question 23

Q

presentation of aortic dissection

Answer

A

sudden + severe ripping/tearing chest pain
syncope
musc weakness
diff in BP between arms- >10mmHg
tachy + hypotension
diastolic murmur
radial pulse deficit
focal neurological deficit’s
inter scapular pain

Question 24

Q

Investigations for aortic dissection

Answer

A

1st- ECG, ST depression
chest x-ray (widened mediastinum)
TTE echocardiogram

gold = contrast enhanced CT angiogram
other= transoesophageal echocardiogram

Question 25

Q

differential diagnosis for aortic dissection

Answer

A

MI, cardiac arrest, pericarditis

Question 26

Q

management of aortic dissection

Answer

A

Type A- urgent open surgical reapir/stenting
beta blocker eg IV labetalol

Type B- conservative management (bed rest + analgesia
beta blocker eg IV labetalol
TEVAR (thoracic endovascular aortic repair

Question 27

Q

complications of aortic dissection

Answer

A

aortic regurgitation
MI
stroke
renal failure
cardiac tamponade
haemorrhage and shock

Question 28

Q

define aortic regurgitation

Answer

A

leakage of blood into L ventricle during diastole due to ineffective closing of the aortic valve cusps

Question 29

Q

epidemiology of aortic regurgitation

Answer

A

M>F
40-60 yrs

Question 30

Q

causes of aortic regurgitation

Answer

A

rheumatic heart disease
infective endocarditis- causes valvular damage
connective tissue disorders eg, Marfan’s, Ehlers-Danos
congenital

Question 31

Q

pathology of aortic regurgitation

Answer

A

as blood leaks from aorta into L ventricle- L vent blood vol increases, therefore stroke vol increases + systolic BP increases

during diastole- lower blood vol in atria
high systolic + low diastolic pressure= hyperdynamic circulation

overtime- increases in blood vol in L vent cause it to undergo eccentric ventricular hypertrophy

Question 32

Q

presentation of aortic regurgitation

Answer

A

bounding pulse/waterhammer pulse
wide pulse pressure
de musset’s= head bobbing with each beat due to severe bounding pulses
Quincke’s sign= pulsation of capillary beds in finger nails die to bounding pulses
Austin Flint murmur= rumbling diastolic murmur, fluttering of mitral valve due to regurgitant streams
LV hypertrophy seen on imaging

dyspnoea
chest pain
palpitations
syncope

Question 33

Q

investigations for aortic regurgitation

Answer

A

1st- ECG,(non spec ST/T wave changes) chest x-ray= cardiomegaly + enlarged aortic root

gold= echocardiogram- can see origin of regurgitant jet & its width, detection of aortic valve pathology & compensatory changes eg LV hypertrophy & function

Question 34

Q

differential diagnosis for aortic regurgitation

Answer

A

mitral regurgitation
aortic stenosis
infective endocarditis

Question 35

Q

management of aortic regurgitation

Answer

A

aortic valve replacement surgery (SAVR) if symptomatic or asymptomatic with ejection fraction >50%
if unsuitable can use TAVI (transcatheter aortic valve implantation)

vasodilators eg ACE inhibitors, ramipril (sympto only)

Question 36

Q

complications of aortic regurgitation

Answer

A

heart failure
pulmonary oedema & cardiogenic shock

Question 37

Q

define aortic stenosis

Answer

A

obstruction of blood flow across aortic valve due 2 narrowing, therefore L vent can’t eject blood properly in systole

can be supravavular- fibrous ridge above valve
or subvalvular - fibrous ridge is below valve

Question 38

Q

congenital causes of aortic stenosis

Answer

A

congenital bicuspid aortic valve, congenital aortic stenosis

Question 39

Q

risk factors for aortic stenosis

Answer

A

> 60 yrs
hypertension
hypercholesterolaemia
smoking
diabetes
rheumatic heart disease

Question 40

Q

pathology of aortic stenosis

Answer

A

aortic valve doesn’t fully open:
mechanical stress over time> damages endothelial> calcification + fibrosis=hardens valve & makes it more difficult to open completely

bicuspid valve- 2 leaflets instead of 3, therefore more stress on just 2

Question 41

Q

presentation of aortic stenosis

Answer

A

SAD:
-syncope
-angina
-dyspnoea

ejection click- valve snapping open due 2 high pressure from L vent
ejection systolic crescendo-decrescendo murmur

slow rising carotid pulse + decreased pulse amplitude

soft/ absent 2nd heart sound + prominent S4 heart sound

Question 42

Q

investigations for aortic stenosis

Answer

A

1st- ECG = L vent hypertrophy (deep S waves in V1 & V2, tall R waves in V5 &V6)
chest x-ray (pulmonary congestion)

gold- echocardiogram + doppler= L vent size + function & doppler derived gradient and valve area

Question 43

Q

differential diagnosis for aortic stenosis

Answer

A

hypertrophic cardiomyopathy, ischaemic heart disease

Question 44

Q

management of aortic stenosis

Answer

A

surgery if symptomatic

lower risk patients= SAVR (surgical aortic valve replacement
higher risk patients= TAVI (transcatheter aortic valve implantation

Question 45

Q

complications of aortic valve stenosis

Answer

A

heart failure
sudden cardiac death
infective endocarditis
ventricular arrhythmia
microangiopathic haemolytic anaemia

Question 46

Q

define atrial fibrillation (AF)

Answer

A

supraventricular tachycardia caused by uncoordinated, rapid and irregular atrial activity- results in an irregularly irregular ventricular pulse

Question 47

Q

causes of AF

Answer

A

heart failure
hypertension
coronary artery disease
valvular disease-mitral stenosis
cardiac surgery
cardiomyopathy
idiopathic

Question 48

Q

risk factors for AF

Answer

A

> 60 yrs
hypertension
T2DM
heart failure
past MI

Question 49

Q

pathology of AF

Answer

A

disorganised electrical activity overrides sinoatrial node activity- causes uncoordinated, rapid and irregular contraction of atria
300-600 bpm

Question 50

Q

presentation of AF

Answer

A

irregular pulse
tachycardia
palpitations
ECG- no p waves & narrow QRS
apical pulse> radial rate
irregularly irregular ventricular contractions
thromboembolism

asymptomatic
chest pain
palpitations
dyspnoea
fainting

Question 51

Q

investigations for AF

Answer

A

ECG=
-absent p wave
-irregualr R-R intervals
-narrow QRS

other=FBC
clotting profiles, U&Es

Question 52

Q

differential diagnosis

Answer

A

atrial flutter
wolff-parkinson-white syndrome
atrial tachycardia

Question 53

Q

management of AF

Answer

A

haemodynamically unstable- direct current cardioverison, shocks AF to sinus rhythm

haemodynamically stable- rate control beta blockers (bisoprolol, metoprolol) or CCB (verapmil/diltiazem) + digoxin
rhythm control w electrical or pharmacological (flecainide)
cardio version + precardioversion anticoagulant

long term= catheter ablation

Question 54

Q

monitoring for AF

Answer

A

CHA2DS2- VASc score - 2 calculate stroke risk
if score= <2, anticoagulant required

Question 55

Q

complications of AF

Answer

A

acute stroke
MI
congestive heart failure

Question 56

Q

define atrial flutter

Answer

A

macro re-entrant atrial tachycardia caused by organised electrical activity in the atrium with a rate of 250-350 bpm

Question 57

Q

causes of atrial flutter

Answer

A

idiopathic
CHD
heart failure
hypertension
COPD
pericarditis

Question 58

Q

pathology of atrial flutter

Answer

A

originates from a re-entrant circuit around the tricuspid valve annulus
short circuit causes the atria to fire rapidly

Question 59

Q

presentation of atrial flutter

Answer

A

ECG=
flutter waves, saw tooth pattern (F waves)
often 2:1 block (2 p waves for every QRS
tachycardia (above 150bpm)

palpitations
dyspnoea
chest pain
dizziness
syncope
fatigue

Question 60

Q

investigations for atrial flutter

Answer

A

ECG= saw tooth pattern (flutter waves)
2:1 block (2 P waves for every QRS

other= FBC

Question 61

Q

differential diagnosis for atrial flutter

Answer

A

AF, atrial tachycardia

Question 62

Q

management of atrial flutter

Answer

A

haemodynamically unstable-= DC cardio version
haemodynamically stable=
1. rate control (beta blocker) + anticoagulant
2. electrical cardio version
3. pharmacological cardioversion

ongoing- catheter ablation 2 remove faulty electrical pathway

Question 63

Q

monitoring of atrial flutter

Answer

A

CHA2SD2-VASc for stroke risk

Question 64

Q

define bundle branch block

Answer

A

a block in the conduction of one of the bundle branches- therefore the ventricles don’t receive impulses @ the same time

Answer 65

A

pulmonary embolism
ischemic heart disease
atrial or ventricular septal defect

Answer 66

A

ischemic heart disease
valvular disease
cardiomyopathy
cardiac surgery

Answer 67

A

depolarisation only occurs through the LBB, LV depolarises normally
RV walls eventually depolarised by LBB in slower + less effective pathway
creates= second R wave in V1 + slurred S wave (V5-6)

Answer 68

A

depolarisation only occurs in RBB, RV depolarises normally
LV walls eventually depolarised by RBB in slower + less effective pathway
creates= second R wave in V6 + slurred S wave (V1-2)

Answer 69

A

asymptomatic
syncope

Answer 70

A

William marrow

RBBB: MaRRoW
M in V1
W in V6 (slurred S)
wide QRS

LBBB: WiLLiaM
W in V1 (slurred S)
M in V6
wide QRS

Answer 71

A

usually no treatment

treat hypertension, pacemaker, cardiac resynchronisation therapy (CRT)

Answer 72

A

right sided heart failure caused by respiratory disease

Answer 73

A

COPD
pulmonary embolism
interstitial lung disease
cystic fibrosis
primary pulmonary hypertension

Answer 74

A

increased pressure + resistance in the pulmonary arteries (pulmonary arteries)= R vent unable to effectively pump blood out of vent + into pulmonary arteries - leads to back pressure of blood in R atrium + vena cava + systemic venous system

Answer 75

A

shortness of breath
peripheral oedema
chest pain
hypoxia
cyanosis
raised JVP
3rd heart sound
murmurs
hepatomegaly
syncope

Answer 76

A

1st=
ABG (hypoxia + hypercapnia)
spirometry
chest CT
echocardiogram

gold= right heart catheterisation

Answer 77

A

treat symptoms + underlying cause
long term O2 therapy
treat heart failure
venesection (reduces RBCs) if haemltocrit >55
consider heart-lung transplantation in young patients

Answer 78

A

tricuspid regurgitation
hepatic congestion
cardiac cirrhosis
death

Answer 79

A

50% 5 year survival

Answer 80

A

the formation of a blood clot in the deep veins of the leg or pelvis

Answer 81

A

virchow’s triad: reduced blood flow, endothelial injury, venous stasis

Answer 82

A

virchow’s triad
age, >40 yrs
smoking
drugs: combined contraceptive pill, HRT, tamoxifen
immobility
pregnancy
trauma
malignancy
polycythemia
antiphospholipid syndrome (thrombophilia)

Answer 83

A

majority occur in lower legs, below calf- can impede minor veins
more serious occur above calf, can occlude major veins eg superficial femoral, impeding distal flow
thrombus can embolise from deep veins 2 vena cava>R side of heart>pulmonary arteries and cause a pulmonary embolism

Answer 84

A

unilateral calf pain, redness and swelling
tenderness
pitting oedema
dilated superficial veins
erythema
cyanosis

Answer 85

A

measure circumference of calf 10cm below tibial tuberosity- more than 3cm diff= significant

1st- Wells score 2 calculate DVT risk, scores of ≥ 2= high risk

unlikely DVT- D-dimer test (looks 4 fibrin breakdown products + clotting problems)
if D-dimer raised- order doppler ultrasound of leg

likely DVT- order doppler ultrasound (unable to compress vein= clot)

Answer 86

A

1st- DOAC anticoagulation: apixaban or rivaroxaban

long term: LWMH (low molecular weight heparin)
DOAC (direct oral anticoagulants)/warfarin
compression stockings
treat underlying cause

Answer 87

A

compression stocking
calf exercises during periods if immobilisation
LMWH

Answer 88

A

AV involves partial or complete interruption of impulse transmission from atria to ventricles

types:
1st degree
2nd degree Mobitz type1
2nd degree Mobitz type 2
3rd degree (complete)

Answer 89

A

1st degree: AV blocking drugs, beta blockers, CCB,, digoxin
2nd degree Mobitz type 1: AV blocking drugs, inferior MI
2nd degree Mobitz type 2: drugs MI rheumatic fever
3rd degree: MI, hypertension, structural heart defect

Answer 90

A

coronary artery disease
cardiomyopathy
fibrosis

Answer 91

A

1st; consistent prolongation of PR interval due to delayed conduction via AV node- every P wave followed by QRS

2nd mobitz type 1; progressive prolongation of the PR interval until the atrial impulse isn’t conducted and a QRS is dropped- AVN conduction begins with next beat and sequence repeats

2nd mobitz type 2; consistent prolonged PR interval duration with intermittently dropped QRS complexes due to failure of conduction, PR interval is constant, but every 3rd/4th QRS complex is dropped

3rd (complete); no communication between atria and ventricles due 2 complete failure of conduction. P waves and QRS complexes have no association due to atria and vents functioning independently

Answer 92

A

1st= asymptomatic
2nd mobitz type 1= asymptomatic/bradycardia, syncope, irregular pulse
2nd mobitz type 2= palpitations, syncope, regular irregular pulse
3rd= palpitations, syncope, irregular pulse, bradycardia, chest pain, shortness of breath

Answer 93

A

ECG:

1st- every P followed by QRS, prolonged PR (>200ms)
regular rhythm

2nd, type 1- progressive lengthening of PR interval until a QRS is dropped + cycle repeats with shorter PR interval, irregular rhythm

2nd, type 2- constant enlarged PR interval, every nth QRS is missing, irregular rhythm

3rd- P waves + QRS complexes= random
PR interval absent due 2 atria-ventricle dissociation

Answer 94

A

1st-
asymptomatic= no treatment
symptomatic= pacemaker

2nd, type 1= asymptomatic= no treatment
symptomatic= pacemaker

2nd, type 2= pacemaker

3rd= IV atropine/isoprenaline + permanent pacemaker

Answer 95

A

inability of the heart to deliver oxygenated blood to tissues at a satisfactory rate for the tissues metabolic requirements

Answer 96

A

failure of the heart to contract efficiently to eject adequate volumes of blood
ejection fraction= <40%

heart failure w reduced ejection fraction- HFrEF

Answer 97

A

inability of the ventricles to relax and fill normally- causes increased filling pressures
ejection fraction=>50%

heart failure w preserved ejection fraction- HFpEF

Answer 98

A

inability of the right ventricle to pump adequate amount of blood leading to systemic venous congestion

Answer 99

A

inability of left ventricle to pump adequate amount of blood leading to pulmonary circulation congestion and oedema

Answer 100

A

ischaemic heart disease, hypertension, cardiomyopathy, alcohol excess, valve disease

RHF: pulmonary hypertension, pulmonary embolism, COPD, cor pulmonale

LHF: CAD, valve defect, myocardial infarction, congenital heart defects, arrhythmias

Answer 101

A

older
M>F
obesity
previous MI

Answer 102

A

stroke vol requires adequate preload 4 optimal myocardial contractility (Frank-Starling mechanism)+ decreased after load
-reduced cardiac output(heart failure)>decreased preload, decreased contractility, increased afteroad, decreased heart rate

2 maintain CO- compensatory changes needed=
increased SNS (increases HR + contractility
nattriuretic peptide (diuretic, hypotensive, vasodilators)
increased RAAS (increased fluid retention= increased preload)

compensatory mechanisms become exhausted + pathological=
SNS + RAAS also cause vasoconstriction > increases after load + myocardial work> increased cardiac work damages myocytes`. reduces CO= heart failure

Answer 103

A

pulmonary oedema

LHF: bibasal pulmonary crackles, 3rd & 4th heart sounds, cardiomegaly (displaced apex beat), tachycardia

dyspnoea
orthopnoea
poor exercise tolerance
fatigue
nocturnal cough (pink frothy sputum)
wheeze
cold peripheries

Answer 104

A

peripheral oedema

RHF: raised JVP, hepatomegaly, pitting oedema, weight gain (fluid)

ascites
nausea
anorexia
facial engorgement
epistaxis

Answer 105

A

1st:
ECG
BNP (brain natriuretic peptide= elevated)- released from myocardial walls under stress
chest x-ray (ABCDE- alveolar oedema, Kerley B lines, cardiomegaly, dilated upper lobe vessels, effusions (pleural)

gold: echocardiogram
other= FBC

Answer 106

A

1st= ABAL
A- ACE inhibitor (ramipril)
B- Beta blocker (bisoprolol)
A- aldosterone antagonist (spironolactone)
L- loop diuretic (furosemide)

consider cardiac resynchronsiation therapy
surgery= LVAD, cardiac transplantation

Answer 107

A

pleural effusion
actue kidney injury
sudden cardiac death

Answer 108

A

50% die within 5 years of diagnosis

Answer 109

A

persistent elevation of arterial BP
≥140/90 mmHg in clinic
≥ 135/85 mmHg for ambulatory or home readings

primary or secondary

Answer 110

A

age
Family history
ethnicity (afro-caribbean)

Answer 111

A

obesity
sedentary life style
alcohol excess
smoking
high sodium intake (>1.5g/day)
stress

Answer 112

A

no known underlying cause- 90-95% of cases
some contributing factors=
-genetics
-excessive SNS activity
-abnoramlities of Na+/K+ membrane transport
-high salt intake
-abnormalities in RAAS

Answer 113

A

indicates an unknown underlying cause including:
-renal diseases
-endocrine disorders
-medications (glucocorticoids, contraception)
-pregnancy (pre-eclampsia)

Answer 114

A

most often asymptomatic

malignant hypertension- ≥180/120 mmHg
- headache
-visual disturbance
-cardiac symptoms
-oliguria/polyuria

secondary hypertension- signs of the underlying cause eg hyperthyroidism causes weight loss, sweating, palpitations, etc

Answer 115

A

measure BP:
stage 1=
≥140/90 - clinic
≥135/85- ABPM

stage 2=
≥160/90-clinic
≥150/95- ABPM

stage 3=
≥180/120- clinic

ambulatory BP- worn 24hrs
other=
fundoscopy (HTN retinopathy
albumin:creatinine ratio(proteinuria)
bloods (HbA1c, GFR, lipids)
ECG

Answer 116

A

1- lifestyle mods
T2DM or <55 yrs= give ACWI eg ramipril
>55 yrs or black/ afro caribbean= CCB (calcium channel blocker) eg amlodipine

2 ACEi + CCB

3 ACEi + CCB + thiazide-like diuretic

if k+ >4.5 add alpha or beta blocker to 1,2 & 3
if K+ <4.5 add aldosterone antagonist eg spironolactone

other= direct renin inhibitors for patients intolerant to norm antihypertensives

Answer 117

A

measure BP every 5 yrs
more often for patients on borderline of diagnosis (140/90)

Answer 118

A

CAD
cerebrovascular incident
congestive heart failure
CKD
hypertensive retinopathy

Answer 119

A

infection of heart valves + other endocardial lined structures of the heart (chord tendineae, sites of septal defects etc)

types=
-left sided native (mitral or aortic)
-left sided prosthetic
-right sided
-device related, eg pacemaker, defibrillator

Answer 120

A

elderly
young IV drug users
congenital heart disease
anyone w prosthetic valve
rheumatic fever
surgery
poor dental hygiene
iv catheter
immunosuppression

Answer 121

A

bacteria

s.aureus (common in IVDU, T2DM, surgery)-normally acute
s. viridans (poor dental hygiene)-normally subacute
enterococci/s. bovis
HACEK organisms
fungi

Answer 122

A

abnormal/damaged endocardium creates turbulent flow- endothelium is damaged> exposes underlying collagen + tissue factor- platelets + fibrin adhere= forms a thrombus (nonbacterial thrombotic endocarditis)
if bacteria attach to thrombus (vegetation)- becomes ineffective endocarditis

Answer 123

A

heart murmur- due 2 turbulent blood flow
splint haemorrhages -red lines under nails
Osler’s nodes- painful nodules on fingers/toes
Janeway lesions- painless plaques on palms & soles
Roth’s spots- retinal haemorrhages
fever
weight loss, fatigue
valve disfunction therefore arrhythmia + heart failure
embolism
night sweats

Answer 124

A

1st=
inflammatory markers- raised WCC, ESR,CRP
blood cultures (positive)
transthoracic echo- vegetation
FBC- anaemia, neutrophilic
ECG- prolonged PR interval

Duke’s criteria:
needs 2 major OR 1 major & 3 minor OR 5 minor

MAJOR=
positive blood culture organisms typical of IE
evidence of endocardial involvement
MINOR=
risk factors
fever
vascular phenomena
immune phenomena
microbio evidence

other= transoesophageal echo if transthoracic doesn’t show IE

Answer 125

A

1st- IV antibiotics based on cultures via either central line or PICC

s.aureus= beta lactam/vancomycin + rifampicin + gentamicin
s.viridans= beta lactam/vancomycin + gentamicin
s.bovis/enterococci= beta lactam/vancomycin + amino glycoside

surgery 2 remove infective tissue + repair and replace infected valves, remove large vegetations before they embolism

Answer 126

A

vegetations embolising causing stroke, MI, PE, heart failure, sepsis

regurgitation due 2 damaged valves

Answer 127

A

incompetence of the valve leading to back flow of blood from the LV to LA during systole

Answer 128

A

F
>age
connective tissue disorders (marfans, Ehlers-danlos)
prior mi
infective endocarditis
rheumatic fever
cardiomyopathies
medications
myxomatous degeneration (floppy valve)

Answer 129

A

mitral valve prolapse=
myxomatous degeneration (weakening of connective tissue)
when high pressure on valve- chordae tendinae are stretched/rupture- leaflet can fold back up into LA

damage to papillary muscles post MI= they can no longer anchor chordae tendinae

L ventricle overload due 2 hypertension
L sided heart failure

Answer 130

A

mid-systolic click (in mitral prolapse)
pan-systolic murmur- leaking of blood in LA
soft S1- incomplete closure of valve
additional S3 sound- rapid filling of dilated vent
apex beat displaced laterally
systolic thrill
tachycardia
signs of heart failure
dyspnoea + orthopnoea due 2 pulmonary hypotension
fatigue + malaise due reduced CO
palpitations
exercise intolerance

Answer 131

A

1st
ECG- LA enlargement (M shaped P waves)
chest x-ray= LA enlargement, pulmonary oedema in acute

gold= echo
estimation of LA, LV size and function

Answer 132

A

1st= surgery if symptomatic/ asymptomatic with ejection fraction <60% or LV end-systolic diameter >40mm

surgery = valve repair OR replacement

medication:
BB eg atenolol/calcium channel blockers/digoxin

vasodilators ef ACE inhibits (ramipril or hydralazine)
antigoacualtion for AF
diuretics for fluid overload eg furosemide or spironolactone

cardiac resynchronisation therapy (CRT)

Answer 133

A

L sided heart failure
AF
infective endocarditis
congestive heart failure

Answer 134

A

narrowing of mitral valve orifice, making it difficult for blood to flow from the LA to LV in diastole

Answer 135

A

s. pyogenes infection leading 2 rheumatic heart disease
M>F

Answer 136

A

rheumatic fever- inflammation cause leaflets to fuse together
congenital
mitral annular calcification

Answer 137

A

increased vol of blood in LA= higher pressure in LA- causes LA to dilate + allows blood to back up into pulmonary circulation (pulmonary congestion + oedema)
-resulting in pulmonary hypertension & R sided heart failure

as LA dilates- must walls stretch + pacemakers become more irritable - increases risk of AF

Answer 138

A

AF
malar flush (due to vasoconstriction responding 2 reduced CO)
sign of right sided heart failure
signs of pulmonary hypertension
loud S1 snap- valve opening under high pressures
dyspnoea
reduced exercise tolerance
haemoptysis- (coughing up blood) due to ruptured bronchial vessels from elevated bronchial pressure
angina
dysphagia- if atria presses on oesophagus
partner syndrome- horse voice due to dilated atria causing left recurrent laryngeal nerve palsy

Answer 139

A

1st=
ECG- AF + LA enlargement, M shaped p waves
chest x-ray- LA enlargement
pulmonary vessel congestion

gold=
echo- asses mitral valve mobility, gradient + orifice area, hockey stick shaped mitral deformity

Answer 140

A

diuretics 2 relieve LA pressure
BB eg atenolol & digoxin (control heart rate + prolong diastolic filling)
CCB
anticoagulants due to risk of thrombus formation

surgery= mitral balloon valvotomy, valve replacement

Answer 141

A

Non-ST-elevated myocardial infarction is part of ACS (acute coronary syndrome)
it is an acute ischaemic event causing myocardial cell necrosis and troponin release

Answer 142

A

age >65 yrs
male
family history
premature menopause

Answer 143

A

smoking
DM
hyperlipidaemia
hypertension
obesity
sedentary lifestyle
recreational drug use

Answer 144

A

atherosclerotic plaque rupture and thrombosis cause partial occlusion to coronary artery> this causes necrosis of cardiac tissue and infarction to sub endothelium

Answer 145

A

central, crushing chest pain radiating down arms, jaw & neck - lasts longer than 20 mins + not relieved by rest or GTN spray
impending doom feeling
tachycardia
high/low BP
4th heart sound
signs of heart failure
shortness of breath
sweating/clammy
nausea
palpitations

Answer 146

A

1st=
ECG- ST depression, T wave inversion
elevated troponin

other= CT angiography, bloods

Answer 147

A

immediate management= MONA (morphine, oxygen <92%, nitrates, aspirin)

then invasive coronary angiography and PCI

GRACE score- 6 month risk of death or repeat MI after NSTEMI

prevention= aspirin, clopidogrel (antiplatelet), statin (atorvastatin), metoprolol (BB or CBB). ACEi
modify risk factors

Answer 148

A

heart failure
ruptured infarcted ventricle
rupture interventricular septum
mitral regurgitation
arrhythmias
heart block
post MI pericarditis (Dressler syndrome)

Answer 149

A

pericardial effusion= accumulation of fluid in the pericardial sac

cardiac tamponade= the pericardial effusion is large enough to raise the inter-pericardial pressure leading to reduced filling of the ventricles during diastole- resulting in reduced CO in systole

Answer 150

A

idiopathic
pericarditis
transudative effusions from increased venous pressure causing restricted drainage of the pericardial space- congestive heart failure, pulmonary hypertension
rupture of heart /aorta causing bleeding in pericardial space eg aortic dissection
malignancy:
-lung
-breast
-haematological
trauma eg knife wound

Answer 151

A

pericardial effusion causes raises interpericardial pressure- compresses chambers of heart= reduced stroke vol + CO
- causes hypotension, heart tries to compensate by beating faster

Answer 152

A

Beck’s triad:
-hypotension
-Kussmaul’s sign: raised JVP & distended jugular veins
-muffled heart sounds

pulses paradoxus: systolic BP reduction of >10mmHg on inspiration

tachycardia
prolonged capillary refill time
cool peripheries

dyspnoea
coughing
chest discomfort
lightheadedness
peripheral oedema
confusion

Answer 153

A

1st=
ECG- electrical alternans (QRS complex varies in amplitude as heart moves in fluid)
chest x-ray- (enlarged globular heart)

gold= transthoracic echo - will show ‘dancing heart’

other=
FBC- raised WBC, raised ESR showing inflammation

Answer 154

A

just pericardial effusion=
treat underlying cause, pericarditis - aspirin NSAIDS, colchicine

drain the effusion- needle pericardiocentesis or surgical drainage

pericardial effusion + cardiac tamponade=
urgent pericardiocentesis (pericardial fluid aspirated to relieve intrapericardial pressure

Answer 155

A

cardiac arrest
constrictive pericarditis

Answer 156

A

obesity
diabetes
hypertension
high LDL
smoking

Answer 157

A

arterial obstruction normally due 2 atherosclerosis/thrombosis> reduced blood supply + ischaemia in lower limbs

when muscle becomes ischaemic- cells release adenosine, causes pain in nearby nerves (lactic acid production also contributes 2 pain)

intermittent claudication: ischaemia in limb during exertion- relieved @ rest
acute limb iscahemia- rapid onset of iscahemia in limb due 2 thrombus blocking blood supply
critical limb ischaemia: blood supply barely adequate to meet metabolic demands of tissue- end stage of PVD, can cause gangrene + complete limb loss

Answer 158

A

fontine classification:

stage1- aysmptomatic, lack of palpable pulse

stage2- intermittent claudication
-aching/burning leg muscles relieved w rest
the 6 Ps= pain, pale, pulseless, perishing cold,paraesthesia, paralysis
-ankle brachial pressure index <0.9

stage 3- critical limb ischaemia
-rest pain (relived by dangling leg over bed @ night)
-imminent risk of limb loss

stage 4- tissue loss
ulceration or gangrene

Answer 159

A

raise foot= pale
put foot down= blue (deoxy blood returns to foot)> then dark red (reactive hyperaemia)

Answer 160

A

1st ankle-brachial pressure index (0.5-0.9= mild PAD, <0.5= severe PAD)

fontaine classification
1 asymptomatic
2 intermittent claudication
3 ischaemic rest pain
4 ischaemic ulcers eg gangrene

gold= CT angiogram 2 show occlusions

other= duplex ultrasound (shows speed + vol of blood flow)

Answer 161

A

intermittent claudication: risk factor management (smoking, excercise, statins, anti platelet-aspirin eg clopidogrel)

chronic limb ischaemia : risk factor management, revascularisation surgery (stenting & angioplasty, vein bypassing), amputation if severe

acute limb ischaemia: urgent surgery (end-vascular thrombolysis, endarterectomy, bypass surgery) amputation

Answer 162

A

obstruction to the pulmonary vasculature, secondary to an embolus

Answer 163

A

reduced blood flow
endothelial injury
hypercoagulability

Answer 164

A

virchow’s triad:
-venous stasis
-vascular injury
-hypercaogulability (pregnant, COPD, malignancy, oestrogen therapy, thrombophilia- predispose to clots eg antiphospholipid syndrome)

Answer 165

A

clot forms> increased pressure on vein causes it 2 break free (thromboembolus)- travels 2 lungs + becomes stuck
- decreased blood flow2 lung tissue = V/Q mismatch

can cause cor pulmonate due 2 increased pulmonary resistance

Answer 166

A

hypoxia + cyanosis
DVT (swollen calf)
sudden, onset pleuritic chest pain
dyspnoea
fever
tachypnoea + tachycardia
crackles
hypotension
elevated JVP
haemoptysis
syncope

Answer 167

A

1st=
Wells score (risk of DVT or PE)
1. <4 =unlikely PE, order D-dimer (looks for fibrin breakdown products & clotting problems)
2. >4= likely PE, order CT pulmonary angiogram

gold= CT pulmonary angiogram 2 get direct visual of thrombus in pulmonary artery

other=
ECG- sinus tachycardia, S1Q3T3 pattern= cor pulmonale, T wave inversion in Lead III

V/Q scan
ABG- low O2, low CO2

Answer 168

A

prevention=
compression stockings, frequent calf exercises, prophylactic treatment w low molecular weight heparin (LMWH)

massive PE=
thrombolysis (alteplase/streptokinase)- fibrinolytic medication 2 rapidly dissolve clots

non massive PE=
LMWH, DOAC or warfarin

Answer 169

A

pulmonary infarction
cor pulmonale
sudden death if both pulmonary arteries blocked
resp alkalosis
cardiac arrest

Answer 170

A

central crushing chest pain due to decreased coronary artery blood flow causing oxygen supply/demand mismatch in exertion

Answer 171

A

narrowing of coronary artery by atherosclerosis

rare= reduced O2 carrying capacity (anaemia), peripheral resistance (LV hypertrophy), coronary artery spasm

Answer 172

A

non-modifiable:
age
gender- M>F
race

modifiable=
diabetes
hypertension
obesity high LDL
smoking

Answer 173

A

narrowing of coronary arteries from atherosclerotic plaques reduces blood flow- on exertion, higher O2 demand that cannot be met > myocardial ischaemia> angina

Answer 174

A

High levels of cholesterol damages endothelium.
LDLs pass in and out of the arterial wall in excess and accumulate in it, and there is undergoes oxidation and multiplies, leading to inflammation
The inflammation releases chemoattractants, which attracts Macrophages try to break down, LDLs, turning into foam cells, which produce a LIPID CORE/FATTY STREAK
This inflammatory reaction leads to tissue repair, so the smooth muscle proliferates forming a fibrous cap that encloses the lipid core.

Answer 175

A

angina precipitated by exertion, heavy meals, cold weather & emotion
-cause central crushing chest pain which can radiate to jaw, neck, arms > relieved with GTN spray/ 5 min rest

dyspnoea
nausea
sweating
syncope

Answer 176

A

1st=
ECG (normal)

gold= CT angiography (presence of luminal narrowing & plaques

other= echocardiogram, exercise tolerance test, invasive angiography, bloods, lipid profile, HbA1c

Answer 177

A

immediate symptomatic relief= GTN spray

anti-anginal medication:
1st- BB or non hydropyridine CCB (amlodipine)
2nd- BB + non hydropyridine CCB
3rd- add additional anti-anginal med
eg. nitrates, ivabradine,nicorandfil, ranolazine

revascularisation:
PCI (percutaneous coronary intervention)
CABG (coronary artery bypass graft)

secondary prevention:
lifestyle changes
aspirin + a statin
ACE inhibitor (angina + diabetes)

Answer 178

A

MI
chronic heart failure
stroke

Answer 179

A

ST elevated myocardial infarction (part of ACS)
ischaemic event leading 2 death of heart tissue + troponin release

Answer 180

A

non-modifiable=
age
gender- M>F
race

modifiable=
hypertension
diabetes
obesity
high LDL
smoking

Answer 181

A

atherosclerotic plaque rupture + thrombosis= complete occlusion of coronary artery leading 2 transmural injury and myocardial infarction

Answer 182

A

central crushing chest pain radiating down arms jaw and neck- not relieved by rest or GTN spray
persists >20mins
impending doom feeling
tachycardia
high/low BP
4th heart sound
sweating
dyspnoea
fatigue
palpitations

Answer 183

A

1st + gold= ECG- ST elevation in anterolateral leads, after some time- T wave inversion, deep broad Q waves, LBBB

biomarkers- troponin elevated

other= CT angiography, bloods

Answer 184

A

acute treatment= MONA (morphine, O2 <92%, nitrates, aspirin)

primary PCI if available within 12 hours of symptoms , if unavailable, fibrinolysis 2 breakdown clot eg alteplase

secondary prevention= aspirin, anti platelet eg clopidogrel, statin eg atorvastatin, metoprolol (BB OR CCB), ACEi
modify risk factors

Answer 185

A

heart failure
rupture of infarcted vent
rupture of inter ventricular septum
heart block
arrhythmias
mitral regurgitation
post MI pericarditis (dressler’s syndrome)

Answer 186

A

myocardial ischaemia at rest or on minimal exertion with the absence of myocardial injury
-not relieved with GTN spray or rest

Answer 187

A

central crushing pain radiating to arms, neck and jaw- not relieved by GTN spray or rest
persists longer than 20 mins
crescendo chest pain

sweating
dyspnoea
nausea
syncope
palpitations

Answer 188

A

1st= history, ECG (sometimes ST depression and T wave inversion)
biomarkers- NO TROPONIN

other = CT angiography

Answer 189

A

immediate= MONA

GRACE score (6 month risk of death or repeat MI after NSTEMI)

prevention:
aspirin, antiplatelet eg clopidogrel, statin eg atorvastatin, metoprolol (BB OR CCB), ACEi
modify risk factors

high risk= angiography + PCI

Answer 190

A

tachycardia due to the presence of 2 functionally and anatomically distinct conduction pathways in the AV node

Answer 191

A

cardiomyopathy
iscchaemic heart disease
hyperthyroidism
cocaine
excess alcohol

Answer 192

A

electrical signal re-enters the atria from the ventricles through the AV node
-once signal back in atria, travels thru AV node + causes another ventricular contraction

creates a self-perpetuating loop w no end point= fast + narrow QRS complex tachycardia

Answer 193

A

tachycardia (140-280bpm)
paroxysmal attacks (sudden onset/offset palpitations)
neck pulsation
chest pain
shortness of breath
fatigue + weakness

Answer 194

A

1st= ECG
- p waves included in QRS complex, narrow QRS followed by T wave repeated

Answer 195

A

1st= vagal manoeuvres (valsalva, carotid sinus massage)
2nd= IV adenosine

prevention= BB, CCB, flecainide

Answer 196

A

narrowing of the aorta at the site of the insertion of the ductus arteriosus

Answer 197

A

congenital malformation
Turner’s syndrome

Answer 198

A

infant form=
ductus arterioles still open
- due 2 low pressure in aorta below constriction, blood moves through ductus arteriosus into aorta, bypassing pulmonary arteries> causes cyanosis as deoxygenated blood travels into systemic circulation

adult form=
no patent ductus arteriosus
- pressure = high upstream of coarctation + low downstream of coarctation

therefore increased pressure in upper extremities + head
decreased bp in lower extremities

Answer 199

A

hypertension
Diff upper body and lower body BP
diminished pulse in Lower extremities
tachypnoea
bruits over scapulae & back
systolic ejection murmur

Answer 200

A

1st- chest x-ray (rib notching
ECG- L vent hypertrophy

gold= echo (narrowing in aorta, pressure gradient across narrowing

Answer 201

A

surgical repair of stenting
prostaglandin E to keep ductus arteriosus open while awaiting surgery

Answer 202

A

cardiomyopathy= group of myocardial diseases that affect the affect the mechanical and electrical function of the heart

dilated cardiomyopathy= walls of the chambers of the heart are dilated, thick muscle wall stretches- becoming thinner + weaker therefore contractions are weaker

Answer 203

A

genetic (autosomal dominant- Duchenne muscular dystrophy)
alcohol
thyroid dsiorder
ischaemic heart disease
infection

Answer 204

A

ventricular enlargement and poor contraction
dilation of the ventricle disrupts the heart’s ability to contract leading 2 progressive heart failure
-there is diffuse interstitial fibrosis and systolic dysfunction between the ventricles

Answer 205

A

heart failure presentation:
-dyspnoea
-fatigue
-peripheral oedema
-raised JVP

larger heart on imaging
systolic murmur due 2 regurgitation
S3 gallop
arrhythmia
low BP
chest pain

Answer 206

A

ECG=
tachycardia, LBBB, T wave inversion, Q waves
chest x-ray= enlarged heart
gold -echo= dilated heart + low ejection fraction

Answer 207

A

bed rest
diuretics - 4 oedema
BB- control HR
ACE inhibitors- dilate vessels 2 improve blood flow
anticoag- due 2 increased thrombus risk
ICD- (implantable cardioverter defibrillator for high risk arrhythmia patients)
LVAD (L vent assist device)

xtreme= heart transplant

Answer 208

A

cardiomyopathy = group of mycocardium diseases affecting heart’s mechanical/electrical function

hypertrophic CM= L vent hypertrophy causing obstruction to the outflow tract

Answer 209

A

genetic autosomal domination mutation In sarcomere proteins troponin T, beta-myosin

Answer 210

A

family history of HCM
Friedreich’s ataxia

Answer 211

A

L vent hypertrophy caused by genetic dysfunction of sarcomere proteins
consequences of L vent hypertrophy=
-walls take up more room- less room 4 blood
-walls are more stiff+ less compliant so can’t stretch 2 fill w more blood
> therefore SV + CO reduced

hypertrophy also leads to abnormal Mitral valve which obstructs L vent outflow tract

Answer 212

A

ejection-systolic murmur- crescendo-decrescendo character due 2 blood flow thru obstructed L vent outflow tract
bifid pulse
S4 sound
arrhythmias

sudden death
chest pain
palpitations
syncope
dyspnoea

Answer 213

A

1st= ECG
-can see LVH from progressive T wave inversion
-deep Q waves
-ST depression

chest x-ray= cardiomegaly
echo= L vent hypertrophy, asymmetrical septal hypertrophy

other= genetic testing

Answer 214

A

1st= BB/CCB (dilimiazem/verapamil) - (no digoxin as contraindications)

anti-arrhythmic meds eg amidarone
anticoagulation

prevention= implantable cardioverter-defib

Answer 215

A

scar tissue replaces the normal heart muscle and the ventricles become rigid so don’t contract properly

Answer 216

A

idiopathic
granulomatous diseases (amyloidosis, sarcoidosis)
end-myocardial fibrosis

Answer 217

A

restricted ventricles = decreased vol > bi-atrial enlargement
rigid fibrous myocardium fills poorly + contracts poorly causing decreased CO

Answer 218

A

3rd + 4th heart sounds

signs of heart failure:
-dyspnoea
-fatigue
-peripheral oedema
-increased JVP
-hepatomegaly

ascites

Answer 219

A

1st=
ECG- low amplitude QRS
chest x-ray
echo- thickened vent walls, atria & septa

gold=
cardiac catheterisation

Answer 220

A

no direct treatment

-treat underlying cause
-heart transplant

Answer 221

A

congenital cardiac malformation with 4 existing pathologies:
1. vent septal defect
2. overriding aorta
3. pulmonary valve stenosis
4. right ventricular hypertrophy

Answer 222

A

ventral septal defect allows blood to shunt between ventricles
overriding aorta=entrance to the aorta is placed further to the R than normal, above the VSD- therefore when the R vent contracts greater proportion of deoxygenated blood enters aorta
pulmonary stenosis= creates resistance against blood flow from the R vent- creates R 2 L shunt, therefore deoxygenated blood enters L vent and systemic circualtion
increased strain on the R vent trying 2 pump against resistance cause hypertrophy

Answer 223

A

cyanosis
systolic ejection murmur
Tet spells (R 2 L shunt temporarily worsened)
tachypnoea
clubbing
poor feeding, poor weight gain
squatting posture
reduced SpO2

Answer 224

A

1st=
chest x-ray- boot shaped heart due 2 RV thickening
gold= echo (shows blood flow route)

other= hyporexia test

Answer 225

A

full surgical repair within 2 years of life

Answer 226

A

AVRT= atrioventricular re-entry tachycardia
-there is an accessory pathway for impulse conduction caused by a congenital connection between the atria and ventricles- not through the AV node

caused by congenital abnormality

Answer 227

A

an accessory pathway between atria and ventricles allows electrical conduction 2 bypass the AV node so that the ventricles and stimulated prematurely > leads 2 double exciting of the ventricles

secondary pathway in AVRT= bundle of Kent, since conduction not regulated by AV node

Answer 228

A

palpitations
tachycardia
dizziness
dyspnoea
ECG: short PR interval, wide QRS, slurred upstroke of QRS complex=delta wave

Answer 229

A

ECG=
short PR interval
wide QRS
slurred upstroke of QRS complex= delta wave

Answer 230

A

1st= vagal manoeuvre 2 slow heart: valsalva manoeuvre, carotid sinus massage

2.if unsuccessful give IV adenosine 2 slow conduction thru heart- 6mg then 12mg

3.cardioversion Long term- catheter ablation (remove faulty electrical pathway

Answer 231

A

abnormal connection between the 2 atria
congenital - down syndrome, foetal alcohol syndrome
small = asymptomatic
large= significant inc in blood flow thru RH & lungs

ECG= tall p waves showing R atrial enlargement
chest x-ray shows enlarged heart + pulmonary arteries
echo 4 shunt visuals

will need surgical closure if closure isn’t spontaneous

Answer 232

A

sodium channelopathy causing dangerously fast arrhythmias

gene mutation

syncope, palpitations, dyspnoea, chest pain

ECG= coved ST elevation in chest leads V1-3

manage with implantable cardiac defib

Answer 233

A

ventricular tachyarrhythmia characterised by prolonged QT interval on ECG >480ms

syncope, palpitaions

correct electrolyte disturbances + remove causative factors, BB, pacemaker, implantable defib

Answer 234

A

ductus arteriosus fails to close at birth
congenital/premature

large= cont machine like murmur, cardiomegaly, pulmonary hypotension, poor feeding, failure 2 thrive

chest x ray 4 cardiomegaly
ECG- deep Q waves + r waves= L atrial enlargement
echo 2 see shunt/ventricle hypertrophy

spontaneous/surgical closure
indomethacin (prostaglandin inhibitor) may close PDA

Answer 235

A

angina due 2 coronary artery spasm + narrowing

no correlation w exertion

central crushing pain @ rest- resolved w GTN spray
dyspnoea, sweating, nausea
ECG- ST elevated during acute episode
biomarkers= not elevated

coronary angiography

use GTN spray 1st, other = CCB + long acting nitrates
reduce risk factors

Answer 236

A

systemic infection from Group A beta-haemolytic streptococcus- mainly s.pyogenes

antibodies against streptococcus bacteria also attack body tissues (rheumatic heart disease)

murmur, pericardial rub, jerky movements, pink rings/rash on torso & limbs

diagnose using JONES criteria & FEAR

ESR/CRP= raised ECG= prolonged PR
throat swab 4 antistreptococcal antibodies

treat w antibiotics- IV benzylpenicillin then phenoxymethicillin for 10 days

Answer 237

A

polymorphic ventricular tachycardia- QRS amplitude varies
long QT interval
-will either terminate spontaneously + revert back 2 sinus rhytmn or progress into ventricular tachycardia

palpitations, dizziness, syncope, tachycardia

correct electrolyte imbalance or remove cause
Mg infusion
defib if V-fib occurs

Answer 238

A

premature ventricular beats caused by random electrical discharges from the ventricles before an electrical impulse can be made by the atrium

random brief palpitations, abnormal beat, syncope

ECG= individual random, abnormal, broad QRS complexes

self-monitoring, BB OR CCB
ablation 2 stop normal signals

Answer 239

A

congenital abnormal connection between the 2 ventricles

congenital- Down’a, Turner’s

small VSD= asymptomatic
large= exercise intolerance, harsh pansystolic murmur , breathless, poor feeding, high pulmonary blood flow,

chest x ray 4 pulmonary plethora, cardiomegaly
echo- shows stunting across VSD

small= no treatment
large= surgical repair

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cardio conditions Flashcards

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