Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.1.1.8 (
cholinesterase
)
12,691
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Pyridostigmine bromide, a reversible inhibitor of acetylcholinesterase (AChE), is effectively used as a pre-treatment to organophosphate intoxication. Previous studies have shown that an oral dose of 30 mg twice a day produces a sufficient inhibition of the enzyme activity (20-40%) without causing any significant adverse effect. During the Persian Gulf war pyridostigmine was taken for the first time under a chemical warfare threat. We searched for symptoms and complaints that may be related to the medication. Our survey included 213 soldiers who completed a questionnaire regarding possible symptoms and their severity. AChE inhibition level was compared between groups of soldiers with and without complaints. The most frequent symptoms were nonspecific and included
dry mouth
, general malaise, fatigue and weakness. Typical effects, such as nausea, abdominal pain, frequent urination and rhinorrhea, were infrequent. The severity of the symptoms was generally mild. The symptoms appeared around 1.6 h after taking the medication and recurred after each intake. No correlation was found between levels of
cholinesterase
and type or severity of complaints. Anxiety, which accompanies wartime, may have contributed to the appearance of significant symptoms. Further investigations concerning the effects of pyridostigmine ingestion under stressful conditions are warranted.
...
PMID:Survey of symptoms following intake of pyridostigmine during the Persian Gulf war. 175 41
Until now, the potential antiarrhythmic benefits of disopyramide have been restricted by anticholinergic side effects. These side effects have included
xerostomia
(
dry mouth
, nose or eyes), abdominal discomfort, nausea, constipation and, most importantly, urinary hesitancy and retention. A sustained-release form of pyridostigmine, an acetyl-
cholinesterase
inhibitor, has been shown to a) prevent the anticholinergic side effects of disopyramide when used prophylactically and b) to eliminate or attenuate these symptoms if they are already present. Pyridostigmine has no measurable effect on disopyramide's antiarrhythmic properties. This represents a beneficial new drug interaction which will improve tolerance of disopyramide and increase patient compliance with disopyramide-containing regimens.
...
PMID:The anticholinergic side effects of disopyramide and controlled-release disopyramide. 406 65
A large number of the population, especially the elderly, suffers from
dry mouth
. The aim of the present investigation was to stimulate the minor salivary glands by the topical application of the
cholinesterase
inhibitor physostigmine. In eight healthy subjects. 100 microl of the substance, in the concentration interval 2-8 mg/ml, was applied locally to the inside of the lower lip for 1 min. In a separate study comprising 12 dry-mouth patients. 10 ml of 0.4 1.6 mg/ml physostigmine was administered as a mouth rinse solution for 2 min. Secretion from the labial glands. assessed using the Periotron method, increased in a dose-dependent manner in response to physostigmine in both groups. Average peak secretion exceeded baseline by more than 50% throughout the 30- to 45-min observation period; from 1.71 to 2.62 microl cm(-2) min(-1) among the healthy subjects and from 1.17 to 1.84 microl cm 2 min among the
dry mouth
patients. No systemic effects were registered as reflected by ECG, heart rate or blood pressure. It is assumed that intraorally applied physostigmine diffuses through the oral mucosa and acts by preserving acetylcholine released from the cholinergic, parasympathetic nerves that innervate the minor salivary glands. The topical application of physostigmine to the oral mucosa may, therefore, be an interesting approach for the treatment of
dry mouth
.
...
PMID:Stimulation of minor salivary glands by intraoral treatment with the cholinesterase inhibitor physostigmine in man. 1176 72
Parasympathomimetics or
cholinesterase
inhibitors taken orally may relieve dry-mouth symptoms, but this route of administration is often associated with adverse systemic reactions. In the present study, an animal model was worked out aimed at stimulating the submucosal glands and avoiding systemic effects. In the anesthetized ferret, saliva from the parotid, sublingual and submandibular glands was prevented from reaching the mouth. Vehicle or physostigmine was applied topically for 10 min on the buccal and labial mucosa on one side, while the other side served as a control. Fluid from each side was collected every 5 min Mean basal secretion was 0.17 mg 5 min(-1). The response to physostigmine 0.1% did not exceed that of the vehicle. At higher concentrations the responses lasted 80-120 min. Peak secretion was nine (0.25% physostigmine), 13 (0.5% physostigmine) and 40 (1% physostigmine) times higher than baseline. At 1% physostigmine, the secretion from the control side was elevated, and a small flow from the duct-cannulated parotid gland occurred, indicating systemic effects. Arterial blood pressure was well maintained. Additional observations on the duct-cannulated zygomatic gland showed that secretion from this gland increased already within the 10-min period of application of physostigmine to the overlying mucosa. The distance between the mucosa and the zygomatic gland was only about 1 mm. Physostigmine-induced secretion was abolished by atropine. Local gland stimulation may be an attractive alternative for the treatment of
dry mouth
.
...
PMID:Secretion from submucosal salivary glands of the ferret in response to a cholinesterase inhibitor applied onto the oral mucosa. 1212 Jul 9
Dry mouth
produces a deterioration in oral health and impairs quality of life. There is a need for a novel approach to the pharmacological treatment of
dry mouth
. With a view to enhancing the cholinergic drive on minor salivary glands, whilst at the same time minimising adverse systemic effects, the
cholinesterase
inhibitor physostigmine was therefore sprayed, in a fixed volume, onto the oral mucosa of seven healthy subjects. Three concentrations (0.5%, 1% and 2%) were tested. The mean salivary output over time (0-105 min) was higher than that of placebo (p<0.05), as the area under the curve increased by 61%, 91% and 66% at physostigmine 0.5%, 1% and 2%, respectively. Two subjects experienced nausea at the highest physostigmine concentration, thus reflecting systemic effects. Heart rate, blood pressure and respiration were unaffected by the physostigmine treatment.
...
PMID:Intraoral stimulation of salivary secretion with the cholinesterase inhibitor physostigmine as a mouth spray: a pilot study in healthy volunteers. 1765 55
The human sweating response is subject to the influence of diverse classes of drugs. Some act centrally at the hypothalamus or at spinal thermoregulatory centres, while others act at sympathetic ganglia or at the eccrine-neuroeffector junction. Pharmacological disturbances of sweating have broad clinical implications. Drugs that induce hyperhidrosis, or sweating in excess of that needed to maintain thermoregulation, can cause patient discomfort and embarrassment, and include
cholinesterase
inhibitors, selective serotonin reuptake inhibitors, opioids and tricyclic antidepressants. Drugs that induce hypohidrosis, or deficient sweating, can increase the risk of heat exhaustion or heat stroke and include antimuscarinic anticholinergic agents, carbonic anhydrase inhibitors and tricyclic antidepressants. As acetylcholine is the principal neuroeccrine mediator, anhidrosis is one of the clinical hallmarks by which acute anticholinergic toxicity may be recognized. The symptom of
dry mouth
often accompanies the less apparent symptom of hypohidrosis because the muscarinic M(3) acetylcholine receptor type predominates at both sweat and salivary glands. Management options include dose reduction, drug substitution or discontinuation. When compelling medical indications require continuation of a drug causing hyperhidrosis, the addition of a pharmacological agent to suppress sweating can help to reduce symptoms. When hypohidrotic drugs must be continued, deficient sweating can be managed by avoiding situations of heat stress and cooling the skin with externally applied water. The availability of clinical tests for the assessment of sudomotor dysfunction in neurological disease has enhanced recognition of the complex effects of drugs on sweating. Advances in the understanding of drug-induced anhidrosis have also enlarged the therapeutic repertoire of effective treatments for hyperhidrosis.
...
PMID:Drug-induced hyperhidrosis and hypohidrosis: incidence, prevention and management. 1821 88
