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Nervous system compounds

Neurotrophic agents are essential for the survival and functional maintenance of nerve cells in the central and peripheral nervous systems. Compounds which act by stimulating the synthesis and secretion of these factors could have a therapeutic effect in the treatment of neurodegenerative diseases such as memory disorders or Alzheimer s disease. [Pg.1060]

C7H9N402- M.p. 337 C, an alkaloid obtained from cacao seeds or prepared synthetically. Constitutionally it is similar to caffeine, and is also a weak base. It is usually administered as the sodium compound combined with either sodium ethanoate or sodium salicylate, and is employed almost entirely as a diuretic. Physiologically theobromine resembles caffeine, but its effect on the central nervous system is less, while its action on the kidneys, is more pronounced. [Pg.392]

Barbituric acid is the parent of a group of compounds known as barbiturates The bar biturates are classified as sedative-hypnotic agents meaning that they decrease the responsiveness of the central nervous system and promote sleep Thousands of deriva lives of the parent ring system of barbituric acid have been tested for sedative-hypnotic activity the most useful are the 5 5 disubstituted derivatives... [Pg.900]

Alkyl mercury compounds in the blood stream are found mainly in the blood cehs, and only to a smah extent in the plasma. This is probably the result of the greater stabhity of the alkyl mercuric compounds, as well as their pecuflar solubiUty characteristics. Alkyl mercury compounds affect the central nervous system and accumulate in the brain (17,18). Elimination of alkyl mercury compounds from the body is somewhat slower than that of inorganic mercury compounds and the aryl and alkoxy mercurials. Methylmercury is eliminated from humans at a rate indicating a half-life of 50—60 d (19) inorganic mercurials leave the body according to a half-life pattern of 30—60 d (20). Elimination rates are dependent not only on the nature of the compound but also on the dosage, method of intake, and the rate of intake (21,22). [Pg.116]

General types of physiological functions attributed to quaternary ammonium compounds are curare action, muscarinic—nicotinic action, and ganglia blocking action. The active substance of curare is a quaternary that can produce muscular paralysis without affecting the central nervous system or the heart. Muscarinic action is the stimulation of smooth-muscle tissue. Nicotinic action is primary transient stimulation and secondary persistent depression of sympathetic and parasympathetic ganglia. [Pg.378]

Side Effects and Toxicity. Adverse effects to the tricycHc antidepressants, primarily the result of the actions of these compounds on either the autonomic, cardiovascular, or central nervous systems, are summarized in Table 3. The most serious side effects of the tricycHcs concern the cardiovascular system. Arrhythmias, which are dose-dependent and rarely occur at therapeutic plasma levels, can be life-threatening. In order to prevent adverse effects, as weU as to be certain that the patient has taken enough dmg to be effective, the steady-state semm levels of tricycHc antidepressant dmgs are monitored as a matter of good practice. A comprehensive review of stmcture—activity relationships among the tricycHc antidepressants is available (42). [Pg.468]

Metals and metalloids that form alkyl compounds, eg, methylmercury and methylarsenic acid, tributjltin, deserve special concern because these compounds are volatile and accumulate in cells they are poisonous to the central nervous system of higher organisms. Because methylmercury or other metal alkyls may be produced at a rate faster than it is degraded by other organisms, it may accumulate in higher organisms such as fish. Hg species are also reduced to elementary Hg which is soluble in water but lost by volatilization to the atmosphere (40). [Pg.217]

Compounds available in the United States are Hsted in Table 1. Whereas they vary in degree, all of them share similar HabiUties of cardiovascular side effects, the potential for central nervous system (CNS) stimulation, the development of tolerance, and abuse potential. AH, with the exception of ma2indol, are derivatives of phenethylamine. The introduction of an oxygen atom on the -carbon of the side chain tends to reduce CNS stimulant properties without decreasing the anorectic activity. Following the Federal Controlled Dmg Act of 1970, dmgs were classified into one of five schedules according to medical utiUty and abuse potential. [Pg.216]

For late-stage disease, in which the central nervous system is impHcated, the compound of choice until recently was melarsoprol (94, Mel B, Arsobal [494-79-1]) for T. b. gambiense or T. b. rhodesiense. The dmg, adrninistered intravenously, is a solution containing a combination of BAT,... [Pg.276]

Research for an antidepressant among non-tricyclic compounds with pharmacological effects qualitatively different from those of the conventional tricyclic compounds led to the preparation and testing of a series of indazole derivatives for reserpine-like activity in mice. l-[3-(Dimethylamino)propyl]-5-methyl-3-phenyl-l//-indazole (FS-32 692) antagonizes reserpine-induced effects and potentiates amphetamine-induced self-stimulation and l-Dopa-induced increase in motor activity. FS-32 produces an anticholinergic action mainly on the central nervous System, while the action of imipramine occurs centrally as well as peripherally (79AF511). [Pg.293]

In nonindustrial settings, MCS substances are the cause of indoor air pollution and are the contaminants in air and water. Many of the chemicals which trigger MCS symptoms are known to be irritants or toxic to the nervous system. As an example, volatile organic compounds readily evaporate into the air at room temperature. Permitted airborne levels of such contaminants can still make ordinary people sick. When the human body is assaulted with levels of toxic chemicals that it cannot safely process, it is likely that at some point an individual will become ill. For some, the outcome could be cancer or reproductive damage. Others may become hypersensitive to these chemicals or develop other chronic disorders, while some people may not experience any noticeable health effects. Even where high levels of exposure occur, generally only a small percentage of people become chemically sensitive. [Pg.45]

A special feature of the iris is its autonomic innervation. Sympathetic activation widens the aperture of the iris whereas impulses from the parasympa thetic nervous system decrease the aperture size. Therefore adrenergic agonists and anticholinergic compounds both increase the aperture of the iris, i.e., cause mydriasis, and antiadrenergic and cholinergic agonists decrease it, i.e., cause miosis. The iris can thus be considered an excellent mirror reflecting the balance of the autonomic nervous system in the body. " ... [Pg.293]

The simplification of the local anesthetic phaimacophore of cocaine to an aryl substituted ester of ethanolamine has been described previously. Atropine (S2) is a structurally closely related natural product whose main biologic action depends on inhibition of the parasympathetic nervous system. Among its many other actions, the compound exerts useful spasmolytic effects. [Pg.35]

See other pages where Nervous system compounds is mentioned: [Pg.413]    [Pg.234]    [Pg.413]    [Pg.234]    [Pg.172]    [Pg.40]    [Pg.93]    [Pg.108]    [Pg.114]    [Pg.451]    [Pg.221]    [Pg.489]    [Pg.461]    [Pg.465]    [Pg.276]    [Pg.310]    [Pg.399]    [Pg.460]    [Pg.354]    [Pg.397]    [Pg.517]    [Pg.68]    [Pg.139]    [Pg.178]    [Pg.257]    [Pg.374]    [Pg.257]    [Pg.260]    [Pg.263]    [Pg.287]    [Pg.291]    [Pg.306]    [Pg.315]    [Pg.1017]    [Pg.305]    [Pg.1226]    [Pg.2]    [Pg.37]   
See also in sourсe #XX -- [ Pg.142 ]



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Compounding systems

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