narrated Antiarrhythmics 54121-1.pdf

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HLTENN040
Antiarrhytmics

• Administer and monitor medicines and
Intravenous Therapy
• HLT54121
Christine Prendergast

HLT54121 DIPLOMA OF NURSING

Acknowledgement of Country
We respectfully acknowledge the Wurundjeri People of the Kulin Nation, who
are the Traditional Owners of the land on which Swinburne’s Australian
campuses are located in Melbourne’s east and outer-east, and pay our
respect to their Elders past, present and emerging.
We are honoured to recognise our connection to Wurundjeri Country,
history, culture, and spirituality through these locations, and strive to ensure
that we operate in a manner that respects and honours the Elders and
Ancestors of these lands.
We also respectfully acknowledge Swinburne’s Aboriginal and Torres Strait
Islander staff, students, alumni, partners and visitors.
We also acknowledge and respect the Traditional Owners of lands across
Australia, their Elders, Ancestors, cultures, and heritage, and recognise the
continuing sovereignties of all Aboriginal and Torres Strait Islander Nations.

HYPERTENSION

CCF

ARRHYTHMIAS

IHD

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Beta blockers
ACEI
Ca channel
blockers
Diuretics

Diuretics
ACEI
Beta blockers
Digoxin

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Na channel
blockers
Beta blockers
Potassium channel
blockers
Ca channel
blockers

YOU SHOULD KNOW THIS:
• Action of each type of drug
• Important side effects (not N&V, GI)
• Nursing considerations
• Example of a drug for each group (generic)

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•

Nitrates
Peripheral
vasodilators
Thrombolytics

Heart Physiology
There are three systems that must work together for the heart to
beat efficiently
1.
2.

3.

Circulatory – network of vessels through which the heart mechanically pumps
blood
Conduction – electrical wiring (specialised cells) that stimulates the heart to
pump
Coronary – system of arteries & veins that provide oxygenated blood to meet
the metabolic needs of the heart muscle itself

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Heart muscle
contraction

To simplify,
 a Sodium ion (Na+) starts the stimulation of the cell
(extracellular)

 a Calcium ion (Ca2+) extends that stimulation to allow the
entire muscle to contract before
 Potassium (K+) comes along and tells the muscle cell to relax
for a moment and get ready for the next wave. (intracellular)
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Heart Rate
• The number of times the heart
beats each minute.
• Reflects the firing of the SA Node
• Normal rate 60 – 100 BPM, regular
rhythm
• Commonly measured as the pulse

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Stroke Volume
• The amount of blood pumped by the ventricles per beat.
• Average volume is 60-80ml per beat
http://www.scottalexander.tv/new-blog/2015/10/16/training-efficiently-and-heart-stroke-volume

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Key concepts– Dromotropic effect
Dromotrope = SPEED
Effect on the speed of conduction of the beat through the heart

Positive – increase conduction
e.g. Adrenaline
Negative – decrease conduction
e.g. Verapamil

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Arrhythmia
Any deviation from normal sinus rhythm
Due to abnormal spontaneous initiation of an impulse

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Sinus Rhythm (SR)

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Class II - Beta Blockers
block beta-adrenergic receptors and prevent adrenaline
(epinephrine) from stimulating these receptors.

used to treat abnormal heart rhythms (arrhythmias), prevent
abnormally fast heart rate (tachycardia) or irregular rhythms
such as premature ventricular beats.

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https://au.pinterest.co
m/explore/beta-

/

blockers

Beta Blockers – general actions
Cardiovascular - B1 receptors blocked
 heart rate
 cardiac output
 heart muscle excitability
=  blood pressure
Respiratory – B2 receptors blocked
Causes bronchospasm – beware ASTHMATICS
Metabolic – some B blockers prevent the rise in blood glucose which normally
follows increased sympathetic activity
Central nervous system
Believed some B blockers penetrate the CNS
Some sedation is fairly common in patients receiving B blockers, sometimes this
may be severe
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β-blockers • ADVERSE DRUG
• CONTRAINDICATIONS
• Asthma
• Peripheral Vascular Disease
• Relative contraindication
• Raynauds Syndrome

REACTIONS
• Tiredness /fatigue

• Lethargy
• Impotence

• Heart failure
• Bradycardia
• Those patients who are dependent on
sympathetic drive
• Bronchospasm

• Bradycardia / Heart block
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Class III – Potassium channel blockers
• Prolongs cardiac ACTION POTENTIAL by increasing
the refractory period.
Example: amiodarone.
• Long half-life

Adverse effects
• pulmonary toxicity
• Bluish discoloration of skin
• GI side effects
• Liver dysfunction
• Thyroid dysfunction
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Class IV - Calcium channel blockers
Block the movement of calcium into heart and blood vessel
muscle cells

decrease pumping strength of the heart / relax blood vessels.

muscles relax, lowering blood pressure, slowing the heart rate
& decreasing oxygen demands of the heart.
•

used to treat high blood pressure and angina caused by
reduced blood supply to the heart muscle, as well as some
arrhythmias.
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Calcium channel blockers
Contraindications
• Acute MI
• Heart failure, bradycardia
Adverse Drug Reactions
• Flushing
• Headache
• Ankle oedema
• Indigestion and reflux
oesophagitis
Rate limiting agents also cause
• Bradycardia
• Constipation

• Amlodipine (Norvasc)
• Bepridil (Vascor)

• Diltiazem (Cardizem, Cardizem
SR)
• Nifedipine (Adalat, Procardia)
• Verapamil (Isoptin)

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Verapamil

• Blocks calcium channels in the blood vessels and heart =
vasodilation
• Given for angina, hypertension and dysrhythmias
• PO or IV
• Adverse effects – constipation, dizziness, h/a, bradycardia,
hypotension, edema of ankles and feet

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Class V - Drugs unclassified in the Vaughan
Williams system

Adenosine – acts on A1 receptor in AV node.
Receptor linked to cardiac K+ channel.

 causes hyperpolarisation and slows rate of
rise of pacemaker potential.
 stops supraventricular tachycardia
Extremely short half-life

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Class V
Cardiac glycosides e.g. digoxin. –also increase force of
contraction.
• Exacerbates AV block (since AV recovery time
reduced)
• Eventually AV dissociation leads to safer ventricular
rate.

rhythm

contraction

Heart rate

SLOWS / STRENTHENS / STABILISES

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Reference List

Bullock, S. & Manias, E. (2011). Fundamentals of
Pharmacology (6th ed). Frenchs Forest, Australia:
Pearson Education Australia.
Bryant, B. & Knights, K. (2011). Pharmacology for Health
Professionals (3rd ed). Marrickville, Australia: Elsevier.
Crisp, J. & Taylor, C. (2012). Potter & Perry’s Fundamentals
of Nursing. (8th ed). Marrickville, Australia: Mosby
Elsevier.
Tiziani, A. (2010). Havard’s Nursing guide to Drugs, (8th
ed). Marrickville, Australia: Elsevier.

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