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Maya Govender Practice Educator CTICU FCCNC – 30th January 2018
Vasoactive Drugs Maya Govender Practice Educator CTICU FCCNC – 30th January 2018
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Objectives To define Inotropes To explain the mechanisms of Inotropes
To identify the Risks and Benefits of Inotropes To give the indications for common inotropes used in the critical care unit
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Inotropes An INOTROPE is an agent which increases or decreases the force or energy of muscular contractions Negatively Inotropic agents weaken the force of muscular contractions Positively Inotropic agents increase the strength of muscular contraction
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Vasoconstrictor An Agent that narrows the blood vessels, which in turn increases resistance to blood flow and raises blood pressure Causes narrowing of blood vessels
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Inotropes Inotropes strengthen the contractions of the heart so the heart can pump more blood with fewer beats Certain inotropes may be prescribed to slow the heart rate of people with an abnormally fast heart rhythm (tachycardia) Or to strengthen the pumping ability of a heart that is weakened because of heart failure
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The Mechanism of Inotropes
Inotropes work via the automatic immune system: The Autonomic Nervous System regulates activities that are automatic , or involuntary The Nerves of the Autonomic Nervous System CONTROL Functions of the body that are NOT UNDER CONSCIOUS CONTROL The Autonomic Nervous system seems to be concerned with striking a balance or MAINTAINING HOMEOSTASIS IN THE FUNCTIONING OF MANY ORGANS OF THE BODY EXAMPLES: CONTRACTION IN THE HEART, DIGESTION, HEART RATE, BREATHING, SALIVATION, AND BLADDER.
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THE AUTONOMIC NERVOUS SYSTEM IS FURTHER SUBDIVIDED INTO TWO PARTS:
A. THE SYMPATHETIC DIVISION B. THE PARASYMPATHETIC DIVISION The TWO parts have OPPOSITE EFFECTS on the ORGANS they control Most organs controlled by the Autonomic Division are under control of both Sympathetic and Parasympathetic Neurons EXAMPLE: Heart Rate is SPEEDED UP by the Sympathetic Nervous System, and it is SLOWED DOWN by the Parasympathetic Nervous System
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Autonomic Nervous System
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HOW DO INOTROPES WORK? Inotropes act directly or indirectly on the Sympathetic Nervous System, but the effect of each varies according to which sympathetic receptor the drug has greatest affinity for The duration of action also varies Direct acting drugs act by stimulating the SNS receptor whereas indirect acting drugs cause the release of noradrenaline from the receptor which produces the effect Some drugs have a mixed effect Affinity -
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Parasympathetic Nervous System (PNS) acetylcholine is the neurotransmitter
Sympathetic Nervous System (SNS) are noradrenergic receptors and noradrenaline is the neurotransmitter Noradrenalin is the primary neurotransmitter released by the sympathetic nervous system, which mediates the “fight or flight” reaction, preparing the body for action by affecting cardiovascular function, gastrointestinal motility and secretion, bronchiole dilation, glucose metabolism, and so on These noradrenergic receptors are further subdivided, Alpha1 (a1), Beta1 (b1), Beta2 (b2) and Dopamine (D)
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So When you Stimulate the Sympathetic Nervous System What happens?
Depends on what you stimulate it with but…. Noradrenaline and Adrenaline levels go up This causes activation of adrenergic receptors located in the ENDOTHELIUM
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The Endothelium The endothelium compromises a layer of cells that line the interior surface of blood vessels Endothelial cells line the entire circulatory system, from the heart to the smallest capillary Endothelium of the interior surfaces of the heart chambers are termed as endocardium Both blood and lymphatic capillaries are composed of a single layer of endothelial cells Endothelium: forming an interface between circulating blood in the lumen and the rest of the vessel wall
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Endothelial cells: vasoconstriction and vasodilation, and hence the control of blood pressure blood clotting (thrombosis & fibrinolysis) Atherosclerosis formation of new blood vessels inflammation and swelling (oedema) are involved in many aspects of vascular biology, including
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How do they work? Two types of Adrenergic receptors
Both found in the vascular endothelium Alpha (α) 1 & 2: Vascular smooth muscle and urinary tract Beta (β) 1 & 2: Heart (B1)
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Alpha Receptors Cardiac alpha 1
Stimulation causes increase in contractility without an increase in rate. Alpha 1 and alpha 2 In peripheral vessels mediate vasoconstriction
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Beta Receptors Beta 1 STIMULATION causes increased rate and force of cardiac contraction Beta 2 receptors = Bronchial smooth muscle dilation. Vasodilation in skeletal muscle. Also some cardiac effects
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Dopamine Receptors Stimulation = increased renal and coronary blood flow Arterial vasodilatation
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Inotropic Drugs NEGATIVE: ↓cardiac contractibility Beta blockers
Calcium channel blockers POSITIVE: ↑cardiac contractibility Adrenaline and Noradrenaline Dobutamine Dopamine Isoprenaline
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Risks and Benefits of Inotropes
Improves cardiac performance Improves contractility of myocardium Increase blood pressure RISK: Increased heart rate causing further deterioration of failing heart pump Increases myocardial oxygen requirements Potentially arrythmogenic Can increase ischaemia
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Inotropes: Noradrenaline 0.01-0.4mcg/kg/min
Short acting – double pumping Predominates Alpha-1 receptor agonist – vasoconstriction causing increases SVR Uses – septic shock with low SVR Adrenaline mcg/kg/min Both alpha and beta receptor agonist. Low dose = beta activity, higher doses pre-dominantly alpha. Can cause arrhythmia Uses – low CO, bronchospasm, cardiac arrest
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Vasopressors: Vasopressin 0 – 4 units/hr
Controls water excretion in the kidneys + vasoconstriction of vascular smooth muscle Deficiency in septic shock Useful in vasoplegia, right heart failure, PHT Side effects – abdominal cramps and reduced absorption, myocardial and peripheral ischemia Expensive - £500 per box A patient on 4 units/hr – 2 days treatment Over 50k spend April 2013 – April 2014 – number one cost drug on CTICU Vasoplegia:
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Inotropes: Milrinone 0-750ng/kg/min
Vasodilation and increased myocardial contractility Increases CO, PCWP and reduces SVR Long half life and accumulates in renal failure Uses – severe congestive heart failure Dopamine Low dose (0-2.5mcg/kg/min) – increase renal + mesenteric blood flow via dopamine receptors 2.5-10mcg/kg/min – beta receptors – increase myocardial contractility, SV and CO > 10mcg/kg/min – alpha receptors – increase SVR, reduce renal blood flow, potential for arrhythmias
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Administration Supremely dangerous
Miniscule doses calculated on body weight Titrated infusion (except adrenaline in cardiac arrest) Close monitoring (ECG & Arterial line) Double Pumping Side effects
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Inotrope infusions are a stop gap measure
The underlying cause must be treated or symptoms controlled Managing infusions Don’t let infusions run out – make up infusions with time to spare Change over infusions with new lines as quickly as possible
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