UMLS:C0012833 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0012833 (dizziness)
9,689 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The chemistry, pharmacology, pharmacokinetics, clinical efficacy, adverse effects, dosage, administration, and availability of buspirone hydrochloride, a novel nonbenzodiazepine anxiolytic, are reviewed. Buspirone hydrochloride is an azaspirodecanedione anxiolytic. The exact mechanism of its anxiolytic action is unknown. It does not appear to influence the benzodiazepine-gamma-aminobutyric acid-chloride ionophore complex as the benzodiazepines do. It antagonizes striatal-dopamine autoreceptors, and it may act as a midbrain modulator exerting selective anxiolytic activity. Buspirone is rapidly absorbed after oral administration. Administration with food appears to slow the rate of drug absorption and increase the amount of unchanged drug reaching the systemic circulation. Buspirone's elimination half-life is 2.5-3 hours. It is extensively metabolized, with less than 1% of an administered dose excreted as unchanged drug. The contribution of its metabolites to its anxiolytic effects is unknown. Buspirone has been shown to be as effective as diazepam and clorazepate and more effective than placebo in the treatment of generalized anxiety. Buspirone lacks the sedative, muscle relaxant, and anticonvulsive effects of the benzodiazepines. Its adverse effects are minimal, with dizziness, nervousness, and headaches as the most common side effects. Buspirone does not impair driving skills, interact with alcohol or concomitant medications, or produce physiologic dependence. It appears to have little potential for abuse. The average daily adult dose is 15-20 mg. Buspirone hydrochloride is an effective drug in the treatment of generalized anxiety disorder that is comparable with the conventional benzodiazepine anxiolytics.
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PMID:Buspirone, a novel nonbenzodiazepine anxiolytic. 615 Jul 81

Tiagabine is a new antiepileptic drug which acts by a novel mechanism, inhibiting the reuptake of the inhibitory neurotransmitter gamma-aminobutyric acid (GABA) into neurons and glia. A double-blind, placebo-controlled, crossover trial was undertaken, based upon a response-dependent design. Ninety-four patients with complex partial seizures with or without secondary generalised tonic-clonic seizures were recruited into an open screening phase and tiagabine was added to their existing drug therapy in doses titrated to reduce seizure frequency by > or = 25% or to the limit of tolerance. Forty-six responders were subsequently randomised to a double-blind crossover trial in which tiagabine was compared with placebo. Forty-two patients completed the trial. A significant reduction in the frequency of complex partial and secondary generalised tonic clonic seizures was seen. Twenty-six percent had a reduction of > or = 50% in the frequency of their complex partial seizures, and of the 27 patients who also had secondary generalised tonic clonic seizures, 63% experienced a reduction of > or = 50%. No interactions with baseline antiepileptic drugs were detected and no serious adverse reactions occurred. The commonest adverse events were tiredness, dizziness and headache. We conclude that tiagabine has promising antiepileptic effects. Further trials are underway.
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PMID:Adjunctive treatment of partial seizures with tiagabine: a placebo-controlled trial. 764 74

Gabapentin is an antiepileptic drug with an unknown mechanism of action apparently dissimilar to that of other antiepileptic agents, and possessing some desirable pharmacokinetic traits. The drug is not protein bound, is not metabolised and does not induce liver enzymes, diminishing the likelihood of drug interactions with other antiepileptic agents and drugs such as oral contraceptives. Although gabapentin is a structural analogue of the neurotransmitter gamma-aminobutyric acid (GABA), which does not cross the blood-brain barrier, gabapentin penetrates into the CNS and its activity is seemingly distinct from GABA-related effects. Present clinical evaluation is largely restricted to proof of efficacy trials of gabapentin as add-on therapy in patients with partial epilepsy resistant to conventional treatment. Gabapentin (usually 600 to 1800 mg/day) provides notable benefit, reducing seizure frequency by > or = 50% in 18 to 28% of patients with refractory partial seizures, as shown in 3 double-blind, placebo-controlled trials. Overall, seizure frequency decreased by 18 to 32% during 3-month treatment periods. Patients with complex partial seizures, and partial seizures secondarily generalised, are particularly likely to respond to gabapentin. Current experience with the drug in other seizure types, and as monotherapy, is limited. Mild adverse events, commonly somnolence, fatigue, ataxia and dizziness, have been reported in about 75% of gabapentin recipients. While the drug has been well tolerated when administered to a few patients for periods of up to 5 years, its long term tolerability profile has yet to be fully expounded. Thus, with its favourable pharmacokinetic profile, and efficacy in some refractory patients, gabapentin is poised to fill a niche as an adjunct to the treatment of partial epilepsy. Promising results obtained thus far warrant further work to clarify its long term tolerability, its possible efficacy in other seizure types, its position relative to other agents and its use as monotherapy. In the meantime, gabapentin is likely to provide a much-needed option in a therapeutic area requiring complex management.
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PMID:Gabapentin. A review of its pharmacological properties and clinical potential in epilepsy. 769 32

Vigabatrin was designed to increase the levels of the inhibitory neurotransmitter gamma-aminobutyric acid (GABA) in the brain. It does this by replacing GABA as a substrate for the action of the catabolic enzyme GABA-transaminase. As a result of this inhibition, neuronal GABA levels are elevated, resulting in enhanced endogenous GABA transmission. A number of clinical trials assessing the effect of vigabatrin in epilepsy have been completed. Vigabatrin is of proven benefit in partial seizures and secondarily generalised tonic clonic seizures, and it is licensed for use as adjunctive therapy in these conditions in several European countries. It has been shown to be effective in some epilepsy syndromes in children including West's syndrome, infantile spasms and cryptogenic partial seizures. Its effect on primary generalised tonic clonic seizures is variable, while there is considerable evidence that it has a deleterious effect on myoclonic and absence seizures. There have been a few reports of the benefits of vigabatrin in other neurological disorders including tardive dyskinesia, degenerative ataxias and GABA metabolism disorders. The adverse effects associated with vigabatrin are similar to those seen with other anticonvulsants, with a predominance of CNS effects including somnolence, fatigue, irritability, dizziness and headache. Psychiatric symptoms including depression and psychosis are seen in a small number of patients and cause the most problems. These often necessitate discontinuation of vigabatrin, which usually results in resolution of symptoms.
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PMID:A risk-benefit assessment of vigabatrin in the treatment of neurological disorders. 803 89

The antiepileptic drug (AED) topiramate is a monosaccharide derivative with a sulfamate functionality. It modulates voltage-dependent sodium conductance, potentiates gamma-aminobutyric acid-evoked currents, and blocks the kainate/AMPA (alpha-amino-3-hydroxy-5-methylisoxazole-4-propionic acid) subtype of the glutamate receptor. Topiramate is rapidly absorbed and has linear, proportional, steady-state pharmacokinetics. It has no known clinically significant effect on plasma levels of carbamazepine, valproic acid, or phenobarbital, although it may increase plasma concentrations of phenytoin in some patients. When topiramate is used with hepatic enzyme-inducing AEDs, its plasma concentrations are approximately 50% lower than when it is administered alone. The efficacy of topiramate 200 to 1000 mg/d administered in two divided doses as adjunctive therapy for partial-onset seizures was investigated in five double-masked, placebo-controlled trials. The median percentage reduction in average monthly seizure frequency from baseline was 12% for placebo, compared with 30% for the 200-mg/d group and 48% for the 400-mg/d group. At a dosage of 400 mg/d, a seizure reduction of 75% or greater was seen in 22% of topiramate patients, compared with 7% of those receiving placebo; up to 9% of topiramate patients, compared with none of those receiving placebo, became seizure free. Although little additional efficacy was seen at dosages of 600, 800, and 1000 mg/d, dosing should be individualized, because some patients may respond to higher dosages. When topiramate is combined with other AEDs, the most common side effects at dosages of 200 to 400 mg/d are somnolence, dizziness, ataxia, psychomotor slowing, hesitant speech, and wordfinding difficulties. Most patients who experienced adverse events during the first 8 weeks of the trials no longer experienced them by their last visit. Although there was a 1.5% incidence of renal stones that may be associated with carbonic anhydrase inhibition, more than 75% of patients experiencing a stone continued on therapy.
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PMID:Topiramate: a review of preclinical, pharmacokinetic, and clinical data. 944 41

Tiagabine is a gamma-aminobutyric acid (GABA) uptake inhibitor which is structurally related to nipecotic acid but has an improved ability to cross the blood-brain barrier. Clinical trials have shown that tiagabine is effective as add-on therapy in the management of patients with refractory partial epilepsy. In short term studies of this indication, tiagabine < or = 64 mg/day for 7 to 12 weeks reduced the complex partial and simple partial seizure frequency by > or = 50% in 8 to 31 and 28.2 to 37% of patients, respectively. Tiagabine appeared to produce a sustained reduction in seizure frequency in studies of up to 12 months' duration. Data from preliminary studies are currently insufficient to confirm the usefulness of tiagabine when used as monotherapy or in the treatment of children with epilepsy. Further studies are, therefore, necessary to more fully elucidate the efficacy of the drug in these settings. Adverse events associated with tiagabine are primarily CNS-related and include dizziness, asthenia, nonspecific nervousness and tremor. Skin rash or psychosis occurred with similar frequencies among tiagabine- and placebo-treated patients. With long term administration (> or = 1 year for many patients), the profile and incidence of adverse events was similar to that for short term therapy. Tiagabine does not appear to affect the hepatic metabolism of other drugs such as carbamazepine and phenytoin. Possible disadvantages of tiagabine include its short plasma elimination half-life, necessitating 2 to 4 times daily administration, and its inducible hepatic metabolism. Thus, tiagabine is a new antiepileptic agent with a novel mechanism of action, which has demonstrated efficacy in the adjunctive treatment of patients with refractory partial epilepsy. Further investigation of the efficacy of tiagabine is expected to provide a clearer definition of its place in the treatment of epilepsy and its relative merits in relation to other antiepileptic drugs.
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PMID:Tiagabine. A review of its pharmacodynamic and pharmacokinetic properties and therapeutic potential in the management of epilepsy. 953 May 48

Tiagabine exerts its antiepileptic drug (AED) activity by selectively inhibiting the uptake of gamma-aminobutyric acid (GABA) onto the transporter molecules, and thus, increasing extracellular concentrations of GABA in the brain. The absorption and elimination of tiagabine follow linear pharmacokinetics. Tiagabine is metabolized by hepatic cytochrome P450 enzymes and enzyme-inducing AEDs increase tiagabine clearance by 50-65%. Tiagabine has shown no clinically important interactions with other drugs, including oral contraceptives. In the perforant pathway stimulation model of status epilepticus, tiagabine reduced the seizure number and severity, and also prevented the loss of pyramidal cells in the hippocampus as well as alleviated impairment of the spatial memory impairment associated with hippocampal damage. Tiagabine has both antiepileptogenic and anticonvulsant effects in the kindling model of epilepsy. Based on the data from the short- and long-term add-on studies, tiagabine is effective adjunctive therapy for all partial seizure types in adolescents and adults. Conversion to tiagabine monotherapy has been also possible in substantial amount of patients with partial seizures in three trials. Tiagabine is generally well-tolerated. The most common adverse events in controlled studies involve the central nervous system; for example, dizziness, asthenia, nervousness, tremor, depressed mood and emotional lability. Special safety analyses with formal neuropsychological testing suggest that tiagabine does not adversely affect cognition or mood. Tiagabine represents an important new therapeutic option for patients with treatment-refractory partial seizures. The role of tiagabine in the management of partial epilepsy of patients with intellectual disability is especially emphasized since tiagabine has a low side-effect profile in the cognitive area.
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PMID:Tiagabine: a new therapeutic option for people with intellectual disability and partial epilepsy. 1003 Apr 35

The new generation fluoroquinolones -- sparfloxacin, levofloxacin, grepafloxacin and trovafloxacin -- have been designed to respond to the clinical need for extended antimicrobial cover in the face of increasing global microbial resistance. Their main focus is in the treatment of respiratory infections, particularly those acquired in the community. CNS adverse effects, such as dizziness and headache, are known to occur relatively commonly with some fluoroquinolones and are not, in general, well tolerated by patients. The structural component of the fluoroquinolone molecule believed to be responsible for improved gram-positive activity is also believed to be implicated in the production of CNS adverse effects, including those arising from drug interactions with theophylline and NSAIDs. Inhibition of brain gamma-aminobutyric acid (GABA) receptor binding appears to be a strong indicator of CNS activity, though N-methyl-D-aspartate receptor binding has also been implicated. In accordance with the results of these predictive studies, clinical trials have found sparfloxacin, levofloxacin and grepafloxacin to be associated with a low incidence of CNS events. Trovafloxacin has been found to be associated with a higher incidence of CNS events (particularly lightheadedness and dizziness) than the other 3 agents. Ongoing and future clinical studies will help to define the usefulness of the predictive models, as well as reveal the full CNS adverse event profile of these and other investigational fluoroquinolones.
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PMID:Potential interactions of the extended-spectrum fluoroquinolones with the CNS. 1045 80

Gabapentin (GBP) is a antiepileptic drug (AED) indicated as adjunct therapy for treatment of partial seizures, with and without secondary generalization, in patients 12 and older with epilepsy. GBP (1-(aminomethyl) cyclohexaneacetic acid) is structurally related to gamma-aminobutyric acid (GABA), which readily crosses the blood-brain barrier. Radiolabeled GBP binds throughout the central nervous system in anatomic areas important in treatment of seizures. Its precise mechanism of action is unknown. An open-label, dose-ranging study of doses up to 1,800 mg produced > or =50% seizure reductions [responder rate (RR)] in 29% of patients with partial seizures. Three double-blind, placebo-controlled, parallel add-on trials at doses of 300-1,800 mg have produced RR of up to 28%, with a placebo RR of 8-10%. An active controlled, parallel group comparison of 600 mg to 2,400 mg in monotherapy conversion design showed no significant difference among the 600 mg, 1,200 mg, and 2,400 mg groups compared to a placebo group. An inpatient, active-controlled comparison of 300 mg and 3,600 mg in a parallel-design monotherapy trial showed that time to exit from the study was significantly longer for the 3,600-mg group and the completion rate significantly higher (53% vs. 17%) for patients receiving 3,600 mg/day vs. 300 mg/day of GBP. Successful double-blind, placebo-controlled trials in refractory childhood partial seizures and benign childhood epilepsy with centrotemporal spikes have been recently concluded. Absence was not successfully treated in one small double-blind trial. Open-label reports emphasize adjustments of patients to higher doses than those indicated in the package labeling. An open-label trial of GBP therapy in patients with partial seizures (n = 2,216) produced progressively greater seizure freedom rates as patients were titrated from > or =900 mg daily to > or = 1,800 mg daily (15.1% vs. 33.4%), with a similar effect on RR (18.1% vs. 44.9%). An add-on, open-label study treating partial seizures (n = 141) reported an RR of 71%, with 46% seizure-free in the last 8 weeks of treatment and doses up to 2,400 mg daily. A comparison trial of three doses of GBP to 600 mg of carbamazepine showed similar retention rates for 1,800 mg of GBP and 600 mg of CBZ. Another study reported 48% of patients experiencing 50% reduction, nine of whom had doses greater than 2,400 mg. Treatment in children has reported a 34.4% RR in 32 children with refractory partial seizures. A French open-label adjunctive trial documented a 33.9% RR; 13.4% were seizure-free during the evaluation period. Adverse experiences most commonly noted included somnolence, dizziness, and ataxia. Weight gain was sometimes reported with higher doses of GBP, and pediatric reports cite prominent behavioral changes, including hyperactivity, irritability, and agitation. GBP appears best used at doses at and potentially above those suggested in its package labeling. Although efficacy occurs at lower levels, increased GBP doses are associated with additional efficacy. Reports suggest that initiation at 2,400 mg or 3,600 mg may not be associated with increased adverse experiences. Titration to 900 or 1,200 mg on the first day of GBP therapy appear to be well tolerated.
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PMID:Gabapentin. 1053 Jun 96

The most common adverse effects of the fluoroquinolones involve the gastrointestinal tract, skin and CNS, and are mainly mild and reversible. Of the gastrointestinal events, nausea and vomiting are the most common. Mild hepatic reactions are a class effect, usually presenting as mild transaminase level increases without clinical symptoms. However, postmarketing surveillance has revealed significant hepatotoxicity with trovafloxacin. It is not currently known whether the severe reactions to trovafloxacin are specific to that agent or simply represent an extreme of an emerging class effect. The enormous worldwide usage of, and extensive published adverse effect data on the other fluoroquinolones and naphthyridones suggests the former. In perspective, rare but serious hepatotoxicity has been reported with other fluoroquinolones and the overall incidence of trovafloxacin hepatotoxicity is not dissimilar to that reported with flucloxacillin and amoxicillin-clavulanic acid. CNS reactions vary in severity and include dizziness, convulsions (notably with lomefloxacin) and psychoses. Fluoroquinolones differ in their pro-convulsive activity, relating to their differing potential as gamma-aminobutyric acid antagonists and binding to the N-methyl-D-aspartate receptor. The basis for the increased seizure potential following the coadministration of nonsteroidal anti-inflammatory drugs with certain fluoroquinolones is not fully understood. Fluoroquinolone phototoxicity, caused by the generation of toxic free oxygen species under exposure to UVA radiation, is significantly more common with 8-halogenated compounds. Certain patient groups, e.g. patients with cystic fibrosis, are predisposed to this adverse effect. Murine photocarcinogenicity has been demonstrated with lomefloxacin, but no such effects have been reported in humans. Prolongation of the QTc interval is also a class effect, although cardiac arrhythmias have only been linked with sparfloxacin. Among the newer fluoroquinolones, clinically significant cardiac events are rare or absent but possible interactions in patients receiving other drugs capable of causi ng QT prolongation should be anticipated. Tendinitis and rupture, usually of the Achilles tendon, are rare, class-effects of fluoroquinolones, most frequently reported with pefloxacin. Predisposing factors include aging, corticosteroid use, renal disease, haemodialysis and transplantation. Use of fluoroquinolones in paediatric patients remains contentious. However, accruing human data suggest that restrictions on paediatric use imposed because of fluoroquinolone-induced cartilage damage in juvenile animals, may soon be relaxed. Data from over 1700 children in the UK failed to disclose arthropathy and extensive paediatric use of norfloxacin in Japan and ciprofloxacin in developing countries has been free of articular effects.
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PMID:Comparative tolerability of the newer fluoroquinolone antibacterials. 1055 54

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