Adrenergic_and_anti-adrenergic_drugs.ppt

ADRENERGIC AND ANTI-ADRENERGIC
DRUGS

DIVISIONS OF HUMAN NERVOUS SYSTEM
Human
Nervous
system
Central
Nervous
System
Peripheral
Nervous
System
Autonomic
Nervous
System

NERVOUS SYSTEM
With
neurotransmitters
norepinephrine and
acetylcholine
*Either “fight and
flight” mode or “rest
and digest”
Includes neurons
and ganglia outside
of the brain and
spinal cord
Peripheral
Nervous
System
*Autonomic
Nervous System
(involuntary)
Sympathetic
Nervous System
(adrenergic)
Parasympathetic
Nervous System
(cholinergic)
Somatic
Nervous System
(voluntary)

 Sympathomimetic or adrenergic in
sympathetic nervous system—
neurotransmitters are __Adrenaline &
Noradrenaline__
 Parasympathomimetic or cholinergic are
used to describe parasympathetic system—
neurotransmitter is ___Acetylcholine___

SYMPATHETIC NERVOUS SYSTEM
Fight or flight response results in:
1. Increased BP
2. Increased blood flow to brain, heart and
skeletal muscles
3. Increased muscle glycogen for energy
4. Increased rate of coagulation
5. Pupil dilation

ADRENERGIC RECEPTORS
 Alpha—A1 and A2
 Beta—B1, B2, B3
 Dopamine—subsets D1-5

REVIEW OF FUNCTIONS OF SYMPATHETIC
NERVOUS SYSTEM RECEPTORS
 Alpha 1—smooth muscle contraction
 Alpha 2-negative feedback causes less
norepinephrine to be released so BP is
reduced
 Beta 1—increased heart rate
 Beta 2—bronchodilation
 Beta 3—actual site for lipolysis

MECHANISMS OF ACTION AND EFFECTS OF
ADRENERGIC DRUGS
 Direct adrenergic drug action
 Affects postsynaptic alpha 1 and beta
receptors on target effector organs
 Examples: epinephrine, Isuprel,
norepinephrine, phenylephrine

MECHANISMS OF ACTION CONT.
 2. Indirect adrenergic drug action occurs by
stimulation of postsynaptic alpha 1, beta 1
and beta 2 receptors.Cause release of
norepinephrine into the synapse of nerve
endings or prevent reuptake of
norepinephrine.
 Examples include cocaine and TCAs

 3. mixed action. Combination of direct and
indirect receptor stimulation
 Examples are ephedrine and
pseudoephedrine

 Stimulation of alpha 2 receptors in CNS is
useful in decreasing BP
 Most body tissues have both alpha and beta
receptors
 Effect occurs 2ndary to receptor activated
and number of receptors in the particular
body tissue

 Some drugs act on both receptors--
dopamine
 Some are selective--Isuprel

INDICATIONS FOR USE
 Emergency drugs in treatment of acute
cardiovascular, respiratory and allergic
disorders
 In children, epinephrine may be used to treat
bronchospasm due to asthma or allergic
reactions
 Phenylephrine may be used to treat sinus
congestion

INDICATIONS OF ADRENERGICS CONT.
 Stokes Adams
 Shock
 Inhibition of uterine contractions
 For vasoconstrictive and hemostatic
purposes

CONTRAINDICATIONS TO USE OF ADRENERGICS
 Cardiac dysrhythmias, angina pectoris
 Hypertension
 Hyperthyroidism
 Cerebrovascular disease
 Distal areas with a single blood supply such
as fingers, toes, nose and ears
 Renal impairment use caution

INDIVIDUAL ADRENERGIC DRUGS
 Epinephrine—prototype
 Effects include: increased BP, increased
heart rate, relaxation of bronchial smooth
muscle, vasoconstriction in peripheral blood
vessels

EPINEPHRINE
 Increased glucose, lactate, and fatty acids in
the blood due to metabolic effects
 Increased leukocyte and increased
coagulation
 Inhibition of insulin secretion

EPINEPHRINE
 Affects both alpha and beta receptors
 Usual doses, beta adenergic effects on heart
and vascular smooth muscle will
predominate, high doses, alpha adrenergic
effects will predominate
 Drug of choice for bronchospasm and
laryngeal edema of anaphylaxis

EPINEPHRINE
 Excellent for cardiac stimulant and
vasoconstrictive effects in cardiac arrest
 Added to local anesthetic
 May be given IV, inhalation, topically
 Not PO

EPINEPHRINE
 Physiologic antagonist to histamine
 Those on beta blockers may need larger
doses
 Drug of choice in PEA. Vasopressin has now
become drug of choice in ventricular
tachycardia
 Single dose of Vasopressin, 40 units IV

OTHER ADRENERGICS
 Ephedrine is a mixed acting adrenergic drug.
Stimulates alpha and beta receptors. Longer
lasting than epinephrine.
 See in Primatene mist

PSEUDOPHED
 Used for bronchodilating and nasal
decongestant effects

ISUPREL (ISOPROTERENOL)
 Synthetic catecholamine that acts on beta 1
and 2 receptors
 Stimulates heart, dilates blood vessels in
skeletal muscle and causes bronchodilation
 No alpha stimulation
 Used in heart blocks (when pacemaker not
available) and as a bronchodilator

NEOSYNEPHRINE (PHENYLEPHRINE)
 Pure alpha
 Decreases CO and renal perfusion
 No B1 or B2 effects
 Longer lasting than epinephrine
 Can cause a reflex bradycardia
 Useful as a mydriatic

TOXICITY OF ADRENERGICS IN CRITICALLY ILL
PATIENTS
 Affects renal perfusion
 Can induce cardiac dysrhythmias
 Increases myocardial oxygen consumption
 May decrease perfusion of liver
 Tissue necrosis with extravasation

TOXICITY
 Do not give epinephrine and Isuprel at same
time or within 4 hours of each other. Could
result in serious dysrhythmias.

ANTI-ADRENERGICS
 Sympatholytic
 Block or decrease the effects of sympathetic
nerve stimulation, endogenous
catecholamines and adrenergic drugs

ANTIADRENERGIC S—MECHANISMS OF ACTION
AND EFFECTS
 Can occur by blocking alpha 1 receptors
postsynaptically
 Or by stimulation presynaptic alpha 2
receptors. Results in return of norepineprhine
to presynaptic site. Activates alpha 2
resulting in negative feedback. Decreases
release of additional norepinephrine.

ALPHA-ADRENERGIC AGONISTS AND BLOCKING
AGENTS
 Alpha 2 agonists inhibit release of
norepinephrine in brain; thus, decrease
effects on entire body
 Results in decrease of BP
 Also affects pancreatic islet cells, thus some
suppression of insulin secretion

ALPHA 1 ADRENERGIC BLOCKING AGENTS
 Act on skin, mucosa, intestines, lungs and
kidneys to prevent vasoconstriction
 Effects: dilation of arterioles and veins,
decreased blood pressure, pupillary
constriction, and increased motility of GI tract

ALPHA 1 ADRENERGIC BLOCKING AGENTS
 May activate reflexes that oppose fall in BP
such as fluid retention and increased heart
rate
 Can prevent alpha medicated contraction of
smooth muscle in nonvascular tissues
 Thus, useful in treating BPH as inhibit
contraction of muscles in prostate and
bladder

ALPHA 1 ANTAGONISTS
 Minipress (prazosin)—prototype.
 Hytrin (terazosin) and Cardura (doxazosin)—
both are longer acting than Minipress.

ALPHA 1 ANTAGONISTS CONT.
 Flomax (tamsulosin). Used in BPH. Produces
smooth muscle relaxation of prostate gland
and bladder neck. Minimal orthostatic
hypotension.
 Priscoline (tolaxoline) used for vasospastic
disorders. Pulmonary hypertension in
newborns. Can be given sub Q, IM or IV.

ALPHA 2 AGONISTS
 Catapres (clonidine). PO or patch.
 Tenex (guanfacine)
 Aldomet (methyldopa). Can give IV. Caution
in renal and hepatic impairment.

BETA ADRENERGIC BLOCKING MEDICATIONS
 Prevent receptors from responding to
sympathetic nerve impulses, catecholamines
and beta adrenergic drugs.

EFFECTS OF BETA BLOCKING DRUGS
 Decreased heart rate
 Decreased force of contraction
 Decreased CO
 Slow cardiac conduction
 Decreased automaticity of ectopic
pacemakers

EFFECTS OF BETA BLOCKING DRUGS
 Decreased renin secretion from kidneys
 Decreased BP
 Bronchoconstriction
 Less effective metabolism of glucose. May
result in more pronounced hypoglycemia and
early s/s of hypoglycemia may be blocker
(tachycardia)

EFFECTS OF BETA BLOCKING AGENTS
 Decreased production of aqueous humor in
eye
 May increase VLDL and decrease HDL
 Diminished portal pressure in clients with
cirrhosis

INDICATIONS FOR USE
 Alpha 1 blocking agents are used for tx of
hypertension, BPH, in vasospastic disorders,
and in persistent pulmonary hypertension in
the newborn
 May be useful in treating pheochromocytoma
 May be used in Raynaud’s or frostbite to
enhance blood flow

REGITINE (PHENTOLAMINE)
 Used for extravasation of potent
vasoconstrictors (dopamine, norepinephrine)
into subcutaneous tissues

INDICATIONS FOR USE
 Alpha 2 agonists are used for hypertension—
Catapres
 Epidural route for severe pain in cancer
 Investigationally for anger management,
alcohol withdrawal, postmenopausal hot
flashes, ADHD, in opioid withdrawal and as
adjunct in anesthesia

BETA BLOCKING MEDICATIONS
 Mainly for cardiovascular disorders (angina,
dysrhythmias, hypertension, MI and
glaucoma)
 In angina, beta blockers decrease
myocardial oxygen consumption by
decreasing rate, BP and contractility. Slow
conduction both in SA node and AV node.

BETA BLOCKERS
 Possibly work by inhibition of renin,
decreasing cardiac output and by decreasing
sympathetic stimulation
 May worsen condition of heart failure as are
negative inotropes
 May reduce risk of “sudden death”

BETA BLOCKERS
 Decrease remodeling seen in heart failure
 In glaucoma, reduce intraocular pressur by
binding to beta-adrenergic receptors in ciliary
body, thus decrease formation of aqueous
humor

BETA BLOCKERS
 Inderal (propranolol) is prototype
 Useful in treatment of hypertension,
dysrhythmias, angina pectoris, MI
 Useful in pheochromocytoma in conjunction
with alpha blockers (counter catecholamine
release)
 migraines

BETA BLOCKERS
 In cirrhosis, Inderal may decrease the
incidence of bleeding esophageal varices
 Used to be contraindicated in heart failure,
now are standard
 Known to reduce sudden death
 Often given with ACEIs
 Indications include: htn, angina, prevention of
MI

RECEPTOR SELECTIVITY
 Acetutolol, atenolol, betaxolol, esmolol, and
metoprolol are relatively cardioselective
 These agents lose cardioselection at higher
doses as most organs have both beta 1 and
beta 2 receptors
 Byetta is new agent that is cardioselective

NON-RECEPTOR SELECTIVITY
 Carteolol, levobunolol, metipranolol, nadolol,
propranolol, sotalol and timolol are all non-
selective
 Can cause bronchoconstriction, peripheral
vasoconstriction and interference with
glycogenolysis

COMBINATION SELECTIVITY
 Labetalol and carvedilol (Coreg) block alpha
1 receptors to cause vasodilation and beta 1
and beta 2 receptors which affect heart and
lungs
 Both alpha and beta properties contribute to
antihypertensive effects
 May cause less bradycardia but more
postural hypotension
 Less reflex tachycardia

INTRINSIC SYMPATHOMIMETIC ACTIVITY
 Have chemical structure similar to that of
catecholamines
 Block some beta receptors and stimulate
others
 Cause less bradycardia
 Agents include: Sectral (acebutolol), Cartrol
(carteolol), Levatol (penbutolol) and Visken
(pindolol)

SPECIFIC CONDITIONS-ALPHA AGONISTS AND
ANTAGONISTS
 In tx for BPH, patient should be evaluated for
prostate cancer
 With alpha 2 agonists, sudden cessation can
cause rebound BP elevation
 With alpha 1 blockers, first dose syncope
may occurr from hypotension. Give low
starting dose and at hs. May also cause
reflex tachycardia and fluid retention.

SPECIFIC CONDTIONS-BETA BLOCKERS
 With significant bradycardia, may need med
with ISA such as pindolol and penbutolol
 Patient with asthma, cardioselectivity is
preferred
 For MI, start as soon as patient is
hemodynamically stable

SPECIAL CONDITIONS—BETA BLOCERS
 Should be discontinued gradually. Long term
blockade results in increase receptor
sensitivity to epinephrine and
norepinephrine. Can result in severe
hypertension. Taper 1-2 weeks.

ETHNIC CONSIDERATIONS
 Monotherapy in African Americans is less
effective than in Caucasians.
 Trandate (labetalol) with both alpha and beta
effects has been shown to be more effective
in this population than Inderal, Toprol or
timolol.

Adrenergic_and_anti-adrenergic_drugs.ppt

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