adj.
Inhibiting or blocking the physiological action of acetylcholine at a receptor site: anticholinergic drugs.
anticholinergic an'ti·cho'li·ner'gic n.
anticholinergic
Dictionary:
an·ti·cho·li·ner·gic (ăn'tē-kō'lə-nûr'jĭk, ăn'tī-)  |
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Neurological Disorder:
Anticholinergics |
Definition
Anticholinergics are a class of medications that inhibit parasympathetic nerve impulses by selectively blocking the binding of the neurotransmitter acetylcholine to its receptor in nerve cells. The nerve fibers of the parasympathetic system are responsible for the involuntary movements of smooth muscles present in the gastrointestinal tract, urinary tract, lungs, etc. Anticholinergics are divided into three categories in accordance with their specific targets in the central and/or peripheral nervous system: antimuscarinic agents, ganglionic blockers, and neuromuscular blockers.
Purpose
Anticholinergic drugs are used to treat a variety of disorders such as gastrointestinal cramps, urinary bladder spasm, asthma, motion sickness, muscular spasms, poisoning with certain toxic compounds, and as an aid to anesthesia.
Description
Antimuscarinic agents are so called because they block muscarine, a poisonous substance found in the Amanita muscaria, a nonedible mushroom species. Muscarine is a toxic compound that competes with acetylcholine for the same cholinoreceptors. Antimuscarinic agents are atropine, scopolamine, and ipratropium bromide. Atropine and scopolamine are alkaloids naturally occurring in Atropa belladonna and Datura stramonium plants, whereas ipratropium bromide is a derivative of atropine used to treat asthma.
Under the form of atropine sulfate, atropine is used in the treatment of gastrointestinal and bladder spasm, cardiac arrhythmias, and poisoning by cholinergic toxins such as organophosphates or muscarine. Atropine is used in ophthalmology as well when the measurement of eye refractive errors (i.e., cyclopegia) is required, due to its papillary dilation properties. Scopolamine shows an effect in the peripheral nervous system similar to those of atropine. However, scopolamine is a central nervous system (CNS) depressant and constitutes a highly effective treatment to prevent motion sickness, although at high doses it causes CNS excitement with side effects similar to those caused by high doses of atropine. Its use in ophthalmology is identical in purpose to that of atropine. The main use of ipratropium is for asthma treatment. Ipratropium is also administered to patients with chronic obstructive pulmonary disease.
Benapryzine, benzhexol, orphenadrine, and bornaprine are other examples of anticholinergic drugs used alone or in combination with other medications in Parkinson's disease to improve motor function. Disturbances in dopaminergic transmissions are associated with the symptoms observed in Parkinson's disease. The beneficial effects of anticholinergics in this disease are due to the resulting imbalance between dopamine and acetylcholine ratio in neurons (e.g., levels of acetylcholine lower than dopamine levels). These anticholinergic agents may interfere with mood and also decrease gastrointestinal movements, causing constipation; and the positive effects on motor functions vary among patients. Other classes of drugs available today that act on the pathways of dopamine and its receptors to treat Parkinson's disease, such as levodopa, tolcapone, and pramipexol, effectively increase the levels of dopamine at dopaminergic receptors in neurons.
Ganglionic blockers are anticholinergic agents that target nicotinic receptors in nerve cells of either sympathetic or parasympathetic systems. The most used ganglionic blockers are trimethaphan and mecamylamine. Trimethaphan is administered by intravenous infusion for the emergency short-term control of extreme high blood pressure caused by pulmonary edema, or in surgeries that require a controlled lower blood pressure, such as the repair of an aortic aneurysm. Mecamylamine is used to treat moderately severe and severe hypertension (high blood pressure), as the drug is easily absorbed when taken orally.
Neuromuscular anticholinergic agents act on motornerve cholinoreceptors. They prevent the transmission of signals from motor nerves to neuromuscular structures of the skeletal muscle. Neuromuscular blockers are very useful as muscle relaxants in several surgical procedures, either as an adjuvant to anesthesia or as a pre-anesthetic. Their main therapeutic use is in surgical procedures. Examples of the first group are mivacurium, tubocurarine, metocurine, doxacurium, and atracurium; the second group consists of rocuronium, vecuronium, pipercuronion, and pancuronium.
Precautions
Atropine should be avoided by persons suffering from hepatitis, glaucoma, gastrointestinal obstruction, decreased liver or kidney function, and allergy to anticholinergic agents. Scopolamine is not indicated in cases of glaucoma, asthma, severe colitis, genitourinary or gastrointestinal obstruction, and myasthenia gravis, as well as people with hypersensitivity to cholinergic blockers.
The prescription of ganglionic blockers to patients with kidney insufficiency, or coronary or cerebrovascular disorders requires special caution and should only be a choice when other agents cannot be used instead.
Side effects
Atropine may cause severe adverse effects with dose-dependent degrees of severity. Overdoses of atropine, for instance, may induce delirium, hallucinations, coma, circulatory and respiratory collapse, and death. Rapid heart rate, dilation of pupils and blurred vision, restlessness, burning pain in the throat, marked mouth dryness, and urinary retention are observed with higher doses, while lower dosages may result in decreased salivary, respiratory, and perspiration secretions. Sometimes surgeons administer atropine prior to surgery due to this antisecretory property. Scopolamine's main side effects are similar to those observed with atropine.
The adverse effects of ganglionic blockers include paralysis of gastrointestinal movements, nausea, gastritis, urinary retention, and blurred vision.
Neuromuscular blockers'adverse effects may include apnea (failure in breathing) due to paralysis of the diaphragm, hypotension (low blood pressure), tachycardia, post-surgery muscle pain, increased intraocular pressure, and malignant hyperthermia (uncontrolled high fever).
Resources
BOOKS
Champe, Pamela C., and Richard A. Harvey (eds). Pharmacology, 2nd ed. Philadelphia: Lippincott Williams & Wilkins, 2000.
OTHER
"Anticholinergics/Antispasmodics (Systemic)." Yahoo! Health Drug Index. May 14, 2004 (May 22, 2004). http://health.yahoo.com/health/drug/202049/.
"Anticholinergics/Antispasmodics (Systemic)." Medline Plus. National Library of Medicine. May 15, 2004 (May 22, 2004). http://www.nlm.nih.gov/medlineplus/druginfo/uspdi/202049.html.
Sandra Galeotti, MS
| Dental Dictionary: anticholinergic |
(an′tīkō′linur′jik)
n
n
(parasympatholytic, cholinolytic), a drug that acts to inhibit the effects of the neurohormone acetylcholine or to inhibit its cholinergic neuroeffects. A cholinergic blocking agent.
| Sports Science and Medicine: anticholinergic |
A drug, such as atropine that inhibits the function of cholinergic neurones (e.g. neurones in the parasympathetic nervous system, and motor neurones supplying skeletal muscle) by blocking the action of acetylcholine. Anticholinergics are used to treat stomach ulcers and gastritis. They can cause temporary visual impairment, reducing the ability to judge distances, which can be a serious disadvantage in many sports.
| Veterinary Dictionary: anticholinergic |
Blockade of acetylcholine receptors, resulting in the inhibition of the transmission of parasympathetic nerve impulses; parasympatholytic. Used most commonly in the nonspecific treatment of vomiting or diarrhea; includes atropine, propantheline, scopolamine, isopropamide.
| Wikipedia: Anticholinergic |
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This article needs additional citations for verification. Please help improve this article by adding reliable references. Unsourced material may be challenged and removed. (August 2008) |
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This article may require cleanup to meet Wikipedia's quality standards. Please improve this article if you can. (August 2008) |
An anticholinergic agent is a substance that blocks the neurotransmitter acetylcholine in the central and the peripheral nervous system. An example of an anticholinergic is dicyclomine, and the classic example is atropine. Anticholinergics are administered to reduce the effects mediated by acetylcholine on acetylcholine receptors in neurons through competitive inhibition. Therefore, their effects are reversible.
Contents |
Pharmacology
Anticholinergics are classified according to the receptors that are affected:
- Antimuscarinic agents operate on the muscarinic acetylcholine receptors. The majority of anticholinergic drugs are antimuscarinics.
- Antinicotinic agents operate on the nicotinic acetylcholine receptors. The majority of these are non-depolarising skeletal muscle relaxants for surgical use, along with a few of the depolarising agents and drugs of other categories structurally related to curare.
Examples of anticholinergics • ipratropium bromide (Atrovent) • oxitropium bromide (Oxivent) • tiotropium (Spiriva)
Physostigmine is one of a few drugs that are used as antidotes for anticholinergic poisoning. Nicotine also counteracts anticholinergics.
Effects
Anticholinergic drugs are used in treating a variety of conditions:
- Gastrointestinal disorders (e.g., gastritis, pylorospasm, diverticulitis, ulcerative colitis)
- Genitourinary disorders (e.g., cystitis, urethritis, prostatitis)
- Respiratory disorders (e.g., asthma, chronic bronchitis)
- Parkinson’s disease and Parkinson-like adverse medication effects
- Sinus bradycardia - Hypersensitive vagus nerve
When a significant amount of an anticholinergic is taken into the body, a toxic reaction known as acute anticholinergic syndrome may result. This may happen accidentally or intentionally as a consequence of recreational drug use. Anticholinergic drugs are usually considered the least enjoyable by experienced recreational drug users,[citation needed] possibly due to the lack of euphoria caused by them. (For some of the recreational effects, see the article on deliriants.) Because most users do not enjoy the experience, they do not use it again, or do so very rarely. The risk of addiction is low in the anticholinergic class. The effects are usually more pronounced in the elderly, due to natural reduction of acetylcholine production associated with age.
Exceptions to the above include scopolamine, orphenadrine, dicycloverine/dicyclomine and first-generation antihistamines with central nervous system penetration.
Possible effects of anticholinergics include:
- Ataxia; loss of coordination
- Decreased mucus production in the nose and throat; consequent dry, sore throat
- Xerostomia or dry-mouth with possible acceleration of caries
- Cessation of perspiration; consequent decreased epidermal thermal dissipation leading to warm, blotchy, or red skin
- Increased body temperature
- Pupil dilation (mydriasis); consequent sensitivity to bright light (photophobia)
- Loss of accommodation (loss of focusing ability, blurred vision — cycloplegia)
- Double-vision (diplopia)
- Increased heart rate (tachycardia)
- Tendency to be easily startled
- Urinary retention
- Diminished bowel movement, sometimes ileus - (decreases motility via the vagus nerve)
- Increased intraocular pressure; dangerous for people with narrow-angle glaucoma
- Shaking
Possible effects in the central nervous system resemble those associated with delirium, and may include:
- Confusion
- Disorientation
- Agitation
- Euphoria or dysphoria
- Respiratory depression
- Memory problems[1]
- Inability to concentrate
- Wandering thoughts; inability to sustain a train of thought
- Incoherent speech
- Wakeful myoclonic jerking
- Unusual sensitivity to sudden sounds
- Illogical thinking
- Photophobia
- Visual disturbances
- Periodic flashes of light
- Periodic changes in visual field
- Visual snow
- Restricted or "tunnel vision"
- Visual, auditory, or other sensory hallucinations[1]
- Warping or waving of surfaces and edges
- Textured surfaces
- "Dancing" lines; "spiders", insects; form constants
- Lifelike objects indistinguishable from reality
- Hallucinated presence of people not actually there
- Rarely: seizures, coma, and death
Acute anticholinergic syndrome is completely reversible and subsides once all of the toxin has been excreted. Previously, reversible cholinergic agents such as physostigmine was used but this was found to increase the risk of cardiac toxicity. The current recommended treatment is symptomatic and supportive management.
Plant sources
The most common plants containing anticholinergic alkaloids are:
- Atropa belladonna (Deadly Nightshade)
- Brugmansia species (Brugmansia)
- Datura species (Datura)
- Hyoscamus niger (Henbane)
- Mandragora officinarum (Mandrake).
Use as a deterrent
Certain preparations of some drugs, such as Hydrocodone, are mixed with an anticholinergic agent to deter intentional overdose. Although at normal dosages it can help the opiate itch.[2]
References
- ^ a b Talan, Jamie (July/August 2008). "Common Drugs May Cause Cognitive Problems". Neurology Now 4 (4): 10–11. http://www.neurologynow.com/pt/re/neuronow/fulltext.01222928-200804040-00009.htm;jsessionid=Ly9Qmv8mVQLk6T0C9Fyh5ZdyVGWl0YglYHGmbJpNsRv6lQgNpFcZ!-927161468!181195628!8091!-1. Retrieved 2008-08-17.
- ^ "NIH DailyMed - Hydromet Syrup". http://dailymed.nlm.nih.gov/dailymed/fda/fdaDrugXsl.cfm?id=5209&type=display. Retrieved 2008-08-17.
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