L20: Heart Failure investigation and management Flashcards

1
Q

How is heart failure classified in functional terms?

A

Class I–> no symptomatic limitation in physical activity

Class II–> Slight limitation of physical activity

  • -> Ordinary physical activity result in symptoms
  • -> No symptoms at rest

Class III–> Marked limitation of physical activity

  • -> Less than ordinary physical activity result in symptoms
  • -> No symptoms at rest

Class IV

  • -> Inability to carry out any normal physical activity without symptoms
  • -> May have symptoms at rest
  • -> Discomfort increases with any degree of physical activity
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2
Q

What are the key questions to ask yourself when investigating heart failure?

A
Does the patient have heart failure? 
--> History and clinical examination?
--> Differential diagnosis?
What sort of heart failure does the patient have?
--> HFrEF (LVHD)
--> HFpEF 
--> Valvular/ structural defect
--> Right ventricular failure 
--> High output cardiac failure (anaemia or thyrotoxicosis)
What is causing the heart failure?
--> Ischaemic heart disease?
--> Hypertension?
--> Viral? 
--> Alcohol (ETOH)
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3
Q

Why is it important we discover the cause of the heart failure?

A

Directs treatment

Symptomatic treatment the same but prognosis treatment different

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4
Q

What is the symptomatic treatment of heart failure?

A

IV Furosemide

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5
Q

What is the treatment for heart failure with reduced ejection fraction?

A

Cardiac rehabilitation/ community heart failure team
ACE/ARB
Beta blockers
Mineralocorticoid receptor antagonists (MRA) spironolactone
Sacubitril valsartan - (angiotensin receptor blockers–> vasodilation–> makes blood flow easier)
ICD/ Biventricular pacemaker (keeps HR normal)
Ivabradine (HR regulator), hydralazine (vasodilator), nitrate, IV iron, Coronary artery bypass graft

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6
Q

What effect does IV furosemide have?

A

Causes venodilatory effects–> immediate–> reduced preload–> reduced work on heart–> clear fluid in the lungs–> symptomatically improves quickly
Also diuretic effects
Onset diuretic action 30 mins peaking at 60 to 90 minutes
Higher doses required in renal failure and reduced CO
–> Perfusion to the kidneys is reduced so need more drug to have the same effect
–> CO reduced also means more furosemide (affect over longer period of time) is needed to increase urine output

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7
Q

What is it important to do when you give furosemide?

A

Monitor patient
Don’t want to over do it and release too much fluid
Don’t want to under do it
Monitor–> HR, BP, RR, pO2%, CXR
-Fluid balance, hourly urine output
- Daily weight (aim for 1kg weight loss per day)

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8
Q

What other investigation will you want to carry out to determine the cause of heart failure?

A

ECG–> determine the cause of the heart failure
Chest x-ray–> show pulmonary oedema–> needs offloading
Echocardiogram–> see whats going on in the heart
Often difficult to determine if heart failure has caused decompensation or decompensation has caused heart failure

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9
Q

What are the markers of left ventricular hypertrophy?

A

No methods are completely sensitive or specific
QRS complexes invading neighbouring complexes
R wave in V5 added to S wave in V3–> >70mV (good indicator)

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10
Q

What blood tests would you want to carry out when investigating potential heart failure? Why?

A
  1. NTpro-BNP–> naturetic peptide–> released in response to atrial/ventricle stretch due to fluid overload
    - -> Normal range varies with age and gender, in atrial fibrillation it can triple
  2. FBC–> patient with HF often anaemic, may explain the symptoms
  3. U and Es–> renal function often deteriorate in HF, Na+/K+ levels important for medication
  4. LFTs–> May be elevated due to hepatic congestion
  5. Clotting–> Important if considering anticoagulants
  6. Thyroid function, vitamin D level–> alternative explanation for symptoms
  7. CRP–> look for infection/ inflammation
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11
Q

What is the most important blood test?

A

NTpro-BNP >2000 indicate HF, <400 probably not
Released in response to stretch in atrial and ventricles due to fluid overload
Neagtive predictive value 97% (probability that subjects with a negative screening test don’t have the disease)

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12
Q

What is the negative impact of heart failure?

A

Body recognises that there is decreased in BP
Doesn’t recognise heart is weak
Automatic response to make the heart pump heart (increase contractility) and increase heart rate to increase the BP –> (neurohumoral response)
Kidneys also increase absorption of salt and fluid to increase BP (via RAAS)–> pt with HF reduce intake of salt and fluid

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13
Q

What is the positive impact in heart failure?

A

Only kicks in when really high ANP and BNP–> too late
Increase excretion of Na+ and fluid
Reduce sympathetic nervous system activation–> increase vasodilation
Decrease RAAS

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14
Q

How do you manage HF in a patient with a weak heart?

A

ACEI /ARB
Beta blocker- Ca2+
Mineralocorticoid receptor antagonist
Biventricular ICD

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15
Q

Why don’t we commonly do coronary artery bypass surgery?

A

10 year data shows improvement

But earlier years not really any improvement (no real reduction in mortality)

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16
Q

How do ACE inhibitors and angiotensin receptor blockers work?

A

Stop the conversion of angiotensin 1 to angiotensin 2
Prevents
–> aldosterone release–> reduced Na+ and H20 resorption
–> Prevents vasoconstriction–> reduces preload
–> Prevents enhances sympathetic activity–> stops heart rate increasing and force of contraction increasing

17
Q

How does sympathetic activation lead to myocardial damage?

A

Increase RAAS
Increases vasoconstriction
Increase heart rate and contractility
Increases direct toxicity on the heart

18
Q

Why is the sympathetic system employed?

A

Early compensatory mechanisms–> increase CO by increase contractility, vasoconstriction and increased heart rate (tachycardia)
Long term deleterious effects–> beta-adrenergic receptors down regulated/uncoupled
Increased NA–> cardiac hypertrophy, myocyte apoptosis and necrosis via alpha-receptors
Induce up-regulation of the RASS
Reduction in heart rate variability

19
Q

How do beta blockers work?

A
  1. Reduce heart rate (cardiac beta receptor)
  2. Reduce BP (reduce cardiac output)
    - -> reduce myocardial oxygen demand
  3. Reduce mobilisation of glycogen
  4. Negate unwanted effects of catecholamines
20
Q

Why do beta blockers have to be prescribe cautiously?

A

Failing myocardium maybe dependent on heart rate–> may cause decompensation
Initiate at low dose, titrate slowly, alter other medication

21
Q

What would a biventricular pacemaker do?

A

Pacemaker in right ventricle and left ventricle to restore synchronicity
Important in Left bundle branch block LBBB

22
Q

What is the best approach to take for people with heart failure due to a reduced ejection fraction?

A

Patient education–> help patient to understand what is wrong with them etc…
Multi-disciplinary team–> Dr, Nurses, consultants, physiotherapists
Cardiac rehabilitation
Evidence based treatment–> ACE/ARB, Beta blockers, MRA, ICD/ CRT-D
Pallative care and heart transplants (under 65s without co-morbidities)

23
Q

What is a key aspect to treating/ managing patients with heart failure?

A

Exercise

Patient should be getting moderately out of breath everyday