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PHARMACOLOGY
Dr. Husam Aldeen Salim Alnajar
Atropine
• Characteristics of Atropine
• Source
– Atropa belladonna
• Chemical nature
– An alkaloid
ANTIMUSCARINIC AGENTS
BELLADONNA
ALKALOIDS
• ATROPINE
• SCOPOLAMINE
TX: USED WHEN A REDUCTION OF PARASYMATHETIC
TONE IS DESIRABLE
• PREOP TO REDUCE SALIVATIONS / BRONCHIAL
SECRETIONS
• REDUCE INTESTINAL MOTILITY
• TREAT OVERACTIVE BLADDER
• OPHTHALMOLOGICAL EXAMINATIONS
• PREVENTING MOTION SICKNESS
• TREAT ASTHMA
• TREAT POISONING BY AChE INHIBITOR
Effect Of Atropine in Relation to
Dosage ...
• DOSE
EFFECT
• 0.5 mg
Slight decline in heart rate
•
Some dryness of mouth
•
Inhibition of sweating
• DOSE
EFFECT
• 1.0 mg
Definit dryness of mouth
•
Thirst
•
Inreased heart rate, sometimes
preceded by slowing
•
Mild dilatation of pupil
• DOSE
EFFECT
• 2.0 mg
Rapid heart rate
•
Palpitation
•
Marked dryness of mouth
•
Dilated pupils
•
Some blurring of near vision
• DOSE
• 5.0 mg
EFFECT
All the previous symptoms are
marked
•
Difficulty in speaking and swallowing
Restlessness and fatigue
•
•
•
•
Headache
Dry hot skin
Difficulty in micturition
Reduced intestinal peristalsis
• DOSE
• 10 mg
• and more
•
•
•
•
•
•
•
EFFECT
Previous symtoms are more marked
Pulse, rapid and weak
Iris practically obliterated
Vision very blurred
Skin flushed, hot, dry, and scarlet
Ataxia
Restlessness and excitement
Hallucinations and delirium
Coma
ATROPINE: OVERVIEW OF TOXIC
ACTIONS

DRY AS A BONE

HOT AS A PISTOL

RED AS A BEET

BLIND AS A BAT
 MAD AS A HATTER
Therapeutic Uses of Antimuscarinic
Agents
• Cardiovascular System - atropine is generally used for
the following cases
– Sinus or nodal bradycardia in cases of excessive
vagal tone associated with myocardial infarct
– Hyperactive carotid sinus (syncope and severe
bradycardia)
– Second degree heart block
• Gastrointestinal Tract
– Peptic ulcers
• M1 muscarinic receptor antagonists such as
pirenzepine and telenzepine are used
– Spasticity of the g.i. tract
– Excessive salivation associated with heavy metal
poisoning and parkinsonism
– Production of partial blockade of salivation in patients
unable to swallow
• Urinary Bladder
– Reverse spasm of the ureteral smooth muscle (renal
colic)
– Increase bladder capacity in cases of enuresis
• Reduce urinary frequency in cases of hypertonic bladder
• Central Nervous System
– Parkinson’s disease
– Motion sickness
– Anesthesia, to inhibit salivation
– Prevent vagal reflexes induced by surgical
manipulation of organs
• Posioning by inhibitors of
acetylcholinesterase
• Mushroom poisoning due to muscarine
• In conjunction with inhibitors of
acetylcholinesterase when they are used
to promote recovery from neuromuscular
blockade after surgery
• Prevent vagal reflexes induced by surgical
manipulation of visceral organs
Drugs of Other Classes With Antimuscarinic Activity
• Tricyclic antidepressants
– Imipramine
– Amitriptyline
– Protriptyline
• Phenothiazine Antipsychotic Agents
– Chlorpromazine & Thioridazine
• H1 Histamine receptor blocking agents
– Diphenhydramine
– Promethazine
– Chlorpheniramine
– Cyproheptadine
Contraindications to the Use of
Antimuscarinic Agents
•
•
•
•
Narrow angle glaucoma
Hypertrophy of the prostate gland
Atony of the bladder
Atony of the G.I. Tract
Adrenergic Receptors
NE
1, 2, 1
CNS
ACh
C
T
ACh
ACh
L
S
ACh
SM
CNS
ACh
C
T
ACh M
N
ACh
N
L
S
ACh
SM
N
CNS
ACh
C
T
ACh M
N
ACh
NE
N
L
S
NE
ACh
SM
N
CNS
ACh
C
T
ACh M
N
1
ACh
NE
N
L
S
NE 1
2
ACh
SM
N
CNS
ACh
C
T
ACh M
N
1
ACh
NE
N
L
N
S
NE 1
EPI
ACh
2
ACh
SM
N
EPI
1, 2, 1, 2
NE
1, 2, 1
Adrenergic Receptors
Differences between autonomic and somatic nerves
Autonomic:
- Innervates all organs/glands except skeletal muscle
- Synapses located in ganglions outside cerebrospinal axis
- Extensive peripheral plexuses
- Postganglionic nerves are not myelinated
- Some level of spontaneous activity without intact innervation
Somatic:
- Innervates only skeletal muscle
- Synapses within CNS
- Does not form peripheral plexuses
- myelinated
- Denervation results in paralysis, atrophy
Differences between functions of the
parasympathetic and sympathetic nervous system
Parasympathetic:
- Conservation of energy
- Urine output increased
- Salivation increased
- Bradycardia
- Respiration reduced
- Vasodilator predominance
- Blood pressure reduced
- GI motility and secretions increased
- Renal blood flow increased
Sympathetic:
- Expenditure of energy
- Tachycardia
- Vasoconstrictor predominance
- Blood pressure increased
- Renal blood flow decreased
- Urine output decreased
- Salivation reduced
- Respiration increased
- GI motility and secretions reduced
EFFECTS OF STIMULATING MUSCARINIC RECEPTORS
SITE
HEART
VASCULATURE
AIRWAYS
IRIS
(SLUDE)
EFFECT
BRADYCARDIA
VASODILATION
BRONCHOSPASM
MIOSIS
BLADDER
INCREASED URINATION
GI TRACT
INCREASED GI MOTILITY
SALIVARY GLANDS
INCREASED SALIVATION
LACRIMAL GLANDS
INCREASED TEARS
SWEAT GLANDS
INCREASED SWEATNG
EFFECTS OF STIMULATING ADRENERGIC RECEPTORS
1
contractile force
heart rate
2
vasodilation,
TPR
1, 2
vasoconstriction
TPR
EFFECTS OF STIMULATING ADRENERGIC RECEPTORS
SITE
HEART
VASCULATURE
AIRWAYS
IRIS
EFFECT
TACHYCARDIA (1)
VASODILATION
(2)
VASOCONSTRICTION
(1,  2)
BRONCHORELAXATION (2)
MYDRIASIS (2)
BLADDER
DECREASED URINATION (2)
GI TRACT
DECREASED GI MOTILITY (2)
UTERUS
RELAXATION (2)
 Dual Innervation
Exceptions -
blood vessels
(only sympathetic)
 Predominant Tone
Primarily parasympathetic NS
Exceptions -
blood vessels (sympathetic)
- sweat glands (sympathetic
cholinergic)
Predominate Autonomic Tone
Site
Predominate Tone
Arterioles
Veins
Sympathetic (adrenergic)
Sympathetic (adrenergic)
Heart
Iris
Ciliary muscle
GI tract
Urinary bladder
Salivary glands
Parasympathetic (cholinergic)
Parasympathetic (cholinergic)
Parasympathetic (cholinergic)
Parasympathetic (cholinergic)
Parasympathetic (cholinergic)
Parasympathetic (cholinergic)
Sweat glands
Sympathetic (cholinergic)
PRESYNAPTIC
POSTSYNAPTIC
NE - predominately removed from synapse via re-uptake 1
Metabolic Removal
Re-uptake 2
Re-uptake 1
NE synthesis
COMT
MAO
NE
NE
/
(-)
2
Receptor
Binding
Action
1
contractile force
heart rate
renin release
2
1, 2
vasodilation,
TPR
vasoconstriction
TPR
MIXED ADRENERGIC AGONISTS
Norepinephrine
1, 2, 1
Epinephrine
1, 2, 1, 2
Dopamine
DA, 1, 1
MIXED ADRENERGIC AGONISTS
Norepinephrine
Epinephrine
(1, 2, 1)
(1, 2, 1, 2)
Tx: ● Asthma (but there are better drugs)
● Anaphylactic shock,
● Cardiogenic shock
● Prolong action of local anesthetics
● Topical hemostatic agent
Dopamine
(DA, 1, 1)
Tx: ● CHF
ALPHA AGONISTS
- Phenylephrine
(1)
- Methoxamine
(1)
- Oxymetazoline
(1 and 2 in periphery)
- Tetrahydrozoline
(1)
- Naphazoline (1)
- Ephedrine/Pseudoephedrine
- Clonidine
(1)
(2, Tx site of action is CNS)
BETA AGONISTS
Non-selective 1/2
– Isoproterenol
Selective 2
– Albuterol
– Terbutaline
Selective 1
– Dobutamine
– Metaproterenol
– Isoetharine
– Bitolterol
– Ritodrine
Adrenergic Antagonists
CNS
ACh
C
ACh M
N
T
ACh
NE
N
L
N
S
X
X1
NE
EPI
X
ACh
2
ACh
SM
N
1
ALPHA ANTAGONISTS
 Nonselective 1 and 2 receptor antagonists
- Phenoxybenzamine
- Phentolamine
Used in pts with pheochromocytoma
 Selective 1 receptor antagonists
- Prazosin
- Terazosin (water soluble)
Used Tx as antihypertensive agents
Effects of Alpha-Receptor Blockade on
Vascular Smooth Muscle Tone
VSMC
Re-uptake 1
NE
NE
1
Vasoconstriction
(-)
2
Phentolamine - 1 and 2 blockade
Prozosin - 1 blockade
Vasodilation
Vasodilation
BETA ANTAGONISTS
● Non-selective 1, 2
● ‘Cardio’- Selective 1
Propranolol
Atenolol
Nadolol
Metropolol
Esmolol
Timolol
Pindolol
Carteolol
Acebutolol (ISA)
Intrinsic
Sympathomimetic
Activity
● Non-selective
1, 2, 1
Labetalol
Carvedilol
INDIRECT ACTING ADRENERGIC
AGONISTS
Tyramine (dietary substance)
Uptake Blockers
• Cocaine
• Tricyclic Antidepressants
Cocaine
PRESYNAPTIC
POSTSYNAPTIC
Re-uptake 1
NE
NE
/
Receptor
Binding
Action
Cocaine
PRESYNAPTIC
POSTSYNAPTIC
Re-uptake 1
cocaine
NE
X
NE
/
Receptor
Binding
Action
Neuronal Blockers
• Guanethadine
Inhibits NE release, also causes NE depletion,
and can damage NE neurons
• Reserpine
Depletes NE stores by inhibiting vesicular uptake
of NE, NE then metabolized by intra-neuronal
MAO
Monoamine Oxidase (MAO) Inhibitors
• Pargyline
• Tranylcypromine
Tyramine (or other drugs that promote NE
release) may cause markedly increased blood
pressure in patients taking MAO inhibitors