Central nervous system , adverse drug effects

Other adverse effects of fenoprofen include nausea, dyspepsia, peripheral edema, rash, pruritus, central nervous system and cardiovascular effects, tinnitus, and drug interactions. However, the latter effects are less common than with aspirin. 

Central nervous system adverse effects are common with felbamate, and consist mainly of insomnia, headache, impaired concentration, ataxia, dizziness, somnolence, behavioral disturbances, and mood changes. Movement disorders, psychosis, increased seizures, status epilepticus, and withdrawal seizures are less common (SEDA-19, 67) (SEDA-20, 61). The incidence of these effects is increased in the elderly, possibly owing to reduced drug clearance (4), whereas patients with mental retardation may be more prone to behavioral disorders (SEDA-19, 68). 

Furthermore, there have been no drug withdrawals due to enzyme elevations in patients treated with SDZ ENA 713 while approximately 25% of patients treated with tacrine discontinue due to liver enzyme elevation. There appear to be no associated cardiac, renal or central nervous system adverse effects. The most commonly reported adverse effects are nausea, vomiting and diarrhoea of mild intensity. 

Memantine is approved for treatment of moderate to severe Alzheimer s disease. It is an antagonist at glutamatergic NMDA-receptors. Memantine is well tolerated and has a small beneficial effect at six months in moderate to severe AD (McShane et al. 2006). For patients with dementia one has to be careful wit all kind of medications that may affect the central nervous system. Delirium and hallucinations are common adverse effects in patients with dementia. Agitation may be due to delirium and external causes should be ruled out before adding another psychoactive drug. Sleep disturbance is common in demented elderly patients. Sleep deprivation may in a patient with dementia induce delirium. Nonpharmacological treatment for delirium or hallucinations should be considered first. 

The side-effects of cardiac glycosides are mostly caused by electrophysiological/neuronal phenomena. Gastro-intestinal adverse reactions are probably triggered by effects on the central nervous system. Various types of cardiac arrhythmias are caused by the influence of the drugs on nodal tissues in the heart. The risk of arrhythmia is strongly enhanced by low plasma potassium concentrations. 

This xanthine derivative is an only a modest bron-chodilator in COPD, and because of its narrow therapeutic range, frequently seen adverse effect and drug interactions, it is becoming less frequently used, some patients experience side effects even within the therapeutic range. The non-bronchodilator effects of theophylline such as systemic and pulmonary vascular dilatation, central nervous system stimulation, improvement of the strength and effectiveness of respiratory muscles and possibly anti-inflammatory effects are of disputed clinical significance at usual therapeutic levels. 

Sildenafil has other minor adverse effects, such as headache, nasal congestion, and flushing. There are no clinically significant drug interactions between sildenafil and apomorphine. Apomorphine, like sildenafil, is orally active. However, unlike sildenafil, it exerts its action through the central nervous system. Apomorphine can produce dizziness, nausea, pallor, and hypotension, and in the presence of ethanol, it purportedly increases... 

Drug interactions Proleukin may affect central nervous system function. Therefore interactions could occur following concomitant administration of psychotropic drugs. Concurrent administration of drugs possessing nephrotoxic, myelotoxic, cardiotoxic, or hepatotoxic effects with Proleukin may increase toxicity in these organ systems. Reduced kidney and liver function secondary to Proleukin treatment may delay elimination of concomitant medications and increase the risk of adverse events from those drugs. Beta-blockers and other antihypertensives may potentiate the hypotension seen with Proleukin. 

The first phenothiazine antipsychotic drugs, with chlorpromazine as the prototype, proved to have a wide variety of central nervous system, autonomic, and endocrine effects. Although efficacy of these drugs is primarily driven by D2-receptor blockade, their adverse actions were traced to blocking effects at a wide range of receptors including a adrenoceptors and muscarinic, Hi histaminic, and 5-HT2 receptors. 

Trimethoprim produces the predictable adverse effects of an antifolate drug, especially megaloblastic anemia, leukopenia, and granulocytopenia. The combination trimethoprim-sulfamethoxazole may cause all of the untoward reactions associated with sulfonamides. Nausea and vomiting, drug fever, vasculitis, renal damage, and central nervous system disturbances occasionally occur also. Patients with AIDS and pneumocystis pneumonia have a particularly high frequency of untoward reactions to trimethoprim-sulfamethoxazole, especially fever, rashes, leukopenia, diarrhea, elevations of hepatic aminotransferases, hyperkalemia, and hyponatremia. 

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