Introduction
Adrenergic drugs |
release acetylcholine at the post synaptic level. Only post ganglionic sypathetic nerves are adrenergic as they use epinephrine as neuron transmitters. |
Function |
Norepinephrine is a neurotransmitter of adrenergic synapse, coming from tyrosine → DOPA → Dopamine, stored in vesicles until it needs to be released, when impulses from CNS send the signals. They use exocytosis so the norepinephrine gets into the synaptic cleft. In synaptic cleft, norepinephrine needs to act on post synaptic receptors. |
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Norepinephrine is released from the presynaptic membrane 1) Most of it is taken back w/out any changes to be reused (uptake 1),
2) Taken by factors cells AKA non neuronal uptake (uptake 2)
3) Diffuse
4) Degrade (by enzyme present in the synaptic left, minor). |
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Norepinephrine can act on presynaptic receptors, regulate release of Norepinephrine from sympathetic nerve endings (AKA alpha 2 receptors), regulates -ive feedback mechanism (uptake 1) |
Drugs - based on potency
α-adrenoceptors |
Norepinephrine → epinephrine → isoprenaline |
β-adrenoceptors |
Isoprenaline → epinephrine → norepinephrine |
α,β adrenoceptors |
Epinephrine + norepinephrine |
Groups of drugs
Subtypes |
Mechanism of action |
α1 adrenoceptors |
Postsynaptic - mediate effect on sympathetic nerve system (smooth muscle tissues + organs + blood vessels)) |
α2 adrenoceptors |
Presynaptic - out of synapse (mediat effects on catecholamines released from adrenal medulla) |
β1 adrenoceptors |
Postsynaptic - mediate effect on sympathetic nerve system (heart) |
β2 adrenoceptors |
Presynaptic - out of synapse (mediate effects of catecholamines ccirculating in blood leads to vasodilation) |
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Adreno-positive drugs
α, β-adrenomimetics (natural - used intravenously) |
Epinephrine, norepinephrine |
α-adrenomimetics (selective) |
α1-adrenomimetics = phenylephrine (increases BP locally + effective orally)
α2-adrenomimetics = Naphazoline, clonidine (decreases BP, antihypertensive drug) |
β-adrenomimetics (selective) |
β1,β2-adrenomimetics = isoprenaline
β1-adrenomimetics = dobutamine (if patient doesnt have hypoxia or ischemic disease)
β2-adrenomimetics = salbutamol (short acting drug), phenoterol, salmeterol (slow/prolonged acting drug) |
Sympathomimetics (indirect binding on receptors) |
Ephedrine (acts on sypathetic endings, stimulates release of norepinephrine, indirectly produces efftecs on post synaptic receptors) |
Adreno-negative drugs
Adrenoblockers/adrenoceptors antagonists (direct binding on receptors) |
α, β-adrenoblockers (natural) - Labetalol
α-adrenoblockers - α1,α2-adrenoblockers (non-selective) - Phentolamine, dihydroergotamine
α1-adrenoblockers -
α1a-adrenoblockers - tamsulosin
α1b-adrenoblockers - prazosin |
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β- Adrenoblockers / adrenoceptor antagonists
β1,β2-Adrenoblockers (non-selective) - Propranolol, timolol
β1-adrenoblockers - atenolol, metrolol |
Sympatholytics (indrect binding on receptors) |
Reserpine, guanethidine |
Indications + side effects
α adrenomimetics |
Pharmacological effects - Vasoconstriction of blood vessels
Mydriasis
Decrease NA peripheral |
β adrenomimetics |
Indications - Bronchial asthma, uterine relaxation (preserving pregnancy)
pharmacological effects - cause dilation of brochial passages,
Vasodilation in muscle and liver,
Relaxaion of uterine muscle,
Release of insulin |
α adrenoblockers |
Side effects - hypotension
Tachycardia |
β adrenoblockers |
Mechanism of action of antihypertensive action of beta adrenoblockers - decrease cardiac output
Decrease renin secretion
reduce central sympathetic activity (selective BB))
Side effects
Side effects β2 AB - Heart insufficiency, bronchoconstriction, *hypoglycemia*, fatigue, dizziness, nausea, diarrhea
Side effects β1 AB - |
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Specific drugs
Phentolamine (anatgonises α1+2 adrenoceptors) |
Decreases BP caused by adrenaline, affects -ive feedback mechanism (α2-adrenoceptors) in the synapse
Indications - Pheochromocytoma (adrenal gland tumour) + endarteritis (inflammation of arteries, legs
Side effects - Orthostatic (standing) collapse (severe drop in BP) + tachycardia
reverse effects of adrenaline on BP |
Tamsulosin (Selectively anatgonises/blocks α1A-adrenoceptors) |
Indication - benign prostate hyperplasia (increased cell production in a normal tissue or organ)
Relax smooth muscle of prostate gland
Help to decrease these symptoms |
Prazosin (Selectively atangonises/blocks α1B-adrenoceptors in bood vessels) |
Does not affect the -ive feedback mechanism in synapse
Indication - arterial hypertension
Side effect - othostatic collapse |
Specific drugs
Propanolol - Non-selective β1,β2-adrenoblocker |
Decrease heart output, decrease activity of SA + AV nodes, decrease BP due to action on:
Heart - decreases heart output
Kidney (propanolol decreases production production of renin in the kidney
CNS (decrease sympathetic activity on PNS)) |
Atenolol, Metoprolol (Selective β1-Adrenoblocker) |
Cardioselective in therapeutic doses
drugs of choice in cardiac patients |
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