serw-MX  [xml]  
 


    
 DeCS Categories

D02 Organic Chemicals .
D02.033 Alcohols .
D02.033.100 Amino Alcohols .
D02.033.100.624 Propanolamines .
D02.033.100.624.698 Phenoxypropanolamines .
D02.033.100.624.698.025 Acebutolol .
D02.033.755 Propanols .
D02.033.755.624 Propanolamines .
D02.033.755.624.698 Phenoxypropanolamines .
D02.033.755.624.698.025 Acebutolol .
D02.092 Amines .
D02.092.063 Amino Alcohols .
D02.092.063.624 Propanolamines .
D02.092.063.624.698 Phenoxypropanolamines .
D02.092.063.624.698.025 Acebutolol .
D02.886 Sulfur Compounds .
D02.886.675 Thiazoles .
D02.886.675.867 Thiadiazoles .
D02.886.675.867.060 Acetazolamide .
D03 Heterocyclic Compounds .
D03.383 Heterocyclic Compounds, 1-Ring .
D03.383.129 Azoles .
D03.383.129.708 Thiazoles .
D03.383.129.708.867 Thiadiazoles .
D03.383.129.708.867.060 Acetazolamide .
 
 Terms
 Synonyms & Historicals
Documents
LILACS e MDL
 
Acebutolol .
Acebutolol Hydrochloride .
Acetobutolol .
Apo-Acebutolol .
M & B 17803A .
M&B-17803 A .
Monitan .
Neptal .
Novo-Acebutolol .
Prent .
Rhotral .
Sectral .
Apo Acebutolol .
ApoAcebutolol .
M&B 17803 A .
M&B17803 A .
Novo Acebutolol .
NovoAcebutolol .
A cardioselective beta-1 adrenergic antagonist with little effect on the bronchial receptors. The drug has stabilizing and quinidine-like effects on cardiac rhythm, as well as weak inherent sympathomimetic action. .
1.00
23835
 
Acetazolamide .
Acetadiazol .
Acetazolam .
Acetazolamide Sodium, (Sterile) .
Acetazolamide, Monosodium Salt .
Ak-Zol .
Apo-Acetazolamide .
Diacarb .
Diamox .
Diuramide .
Défiltran .
Edemox .
Glauconox .
Glaupax .
Huma-Zolamide .
Ak Zol .
AkZol .
Apo Acetazolamide .
ApoAcetazolamide .
Huma Zolamide .
HumaZolamide .
One of the CARBONIC ANHYDRASE INHIBITORS that is sometimes effective against absence seizures. It is sometimes useful also as an adjunct in the treatment of tonic-clonic, myoclonic, and atonic seizures, particularly in women whose seizures occur or are exacerbated at specific times in the menstrual cycle. However, its usefulness is transient often because of rapid development of tolerance. Its antiepileptic effect may be due to its inhibitory effect on brain carbonic anhydrase, which leads to an increased transneuronal chloride gradient, increased chloride current, and increased inhibition. (From Smith and Reynard, Textbook of Pharmacology, 1991, p337) .
0.49
475171