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

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Query: UMLS:C0012833 (dizziness)
9,689 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

A multicenter, double-blind, randomized, placebo-controlled study evaluated the efficacy and safety of gabapentin (Neurontin, GBP) as add-on therapy in 272 patients with refractory partial seizures who were receiving one to two standard antiepileptic drugs (AEDs). Efficacy assessments compared the frequency of partial seizures during the 12-week treatment phase (T) and the 12-week baseline period (B). The primary analysis compared data for patients receiving GBP 900 mg/day with placebo; the GBP 1,200-mg/day group provided dose-response data. Efficacy criteria were percentage of change in seizure frequency (PCH), responder rate (percentage of patients with > or = 50% reduction in seizure frequency), and response ratio, where RRatio = (T-B)/(T + B). Median PCH was -21.8% in the 900-mg/day group and -17.8% in the 1,200-mg/day group as compared with -0.3% in the placebo group. Responder rate was 22.9% in the 900-mg/day group and 10.1% in the placebo group (p = 0.020, Fisher's exact test). Adjusted mean RRatio was -0.136 in the 900-mg/day group and -0.025 in the placebo group (p = 0.0046, analysis of variance ANOVA). Results showed slightly greater improvement for the 1,200-mg/day than for the 900-mg/day group (RRatio = -0.157, responder rate 28.0%). Adverse events (AE) occurred in 69% of patients in the 900-mg/day group and in 64% in the 1,200-mg/day group as compared with 52% in patients receiving placebo as add-on therapy. The most frequent AE among patients treated with GBP were somnolence, dizziness, and fatigue. Clinical laboratory evaluations showed no clinically important trends and no evidence of hepatic or hematopoietic effects.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Gabapentin (Neurontin) as add-on therapy in patients with partial seizures: a double-blind, placebo-controlled study. The International Gabapentin Study Group. 808 24

This is the 2-year interim report of results from a multicenter, open-label study evaluating the long-term efficacy and safety of gabapentin (Neurontin) as add-on therapy in patients with refractory partial seizures who had had a therapeutic response to gabapentin in a preceding 12-week double-blind trial or 12-week open-label extension. A total of 240 patients continued to receive gabapentin as add-on therapy at dosages of 600-2400 mg/day for an average of 342 days (range 10-784 days). Efficacy analyses compared seizure frequency during consecutive 12-week treatment periods with seizure frequency during the 12-week baseline. During the nine treatment periods evaluated, the percent of patients with a 50% or greater reduction in seizure frequency ranged from 35% to 71%, and the median percent change in seizure frequency ranged from -33% to -60%. At the time of data cutoff, 30% of patients had withdrawn from the study due to lack of efficacy, and 4% due to adverse events. In 225 patient-years of gabapentin treatment in this study, CNS adverse events reported by more than 10% of patients were nystagmus, somnolence, diplopia, tremor, ataxia, and dizziness. No consistent changes in clinical laboratory values were associated with gabapentin. Gabapentin as add-on therapy at dosages up to 2400 mg/day is safe during long-term treatment in patients with refractory partial seizures. Subgroup analyses of patients who remained in the study over the long term confirmed that gabapentin maintained efficacy for up to 2 years.
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PMID:The long-term safety and efficacy of gabapentin (Neurontin) as add-on therapy in drug-resistant partial epilepsy. The US Gabapentin Study Group. 808 58

Gabapentin is a new antiepileptic drug (AED) with an attractive pharmacokinetic profile. It is absorbed by an active and saturable transport system, and has a high volume of distribution. Gabapentin is not bound to plasma proteins, does not induce hepatic enzymes and is not metabolized. At steady state, it has a half-life of 6-8 h, and is eliminated unchanged by renal route with a plasma clearance proportional to the creatinine clearance. It is devoid of significant drug-drug interactions when administered with the established AEDs or with oral contraceptives. Gabapentin used as an add-on AED significantly reduced the frequency of partial seizures and secondarily generalized tonic-clonic seizures in three large double-blind, placebo-controlled, parallel-group clinical trails. It is well tolerated, with transient somnolence and dizziness being the most frequent adverse effects. Although the mechanism of action of gabapentin is not fully established, there is strong evidence to suggest a novel mechanism of action. Gabapentin is a unique and promising drug that could improve the quality of life of patients with epilepsy and is a welcome addition to the armamentarium of currently available AEDs for the treatment of patients with seizures of partial onset.
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PMID:Gabapentin: pharmacokinetics, efficacy, and safety. 868 9

The efficacy of gabapentin (Neurontin), in generalized seizures was evaluated in this 14 week, double-blind, placebo-controlled, parallel-group, add-on, multicenter study. A total of 129 patients with refractory generalized seizures were randomized to receive either placebo or 1200 mg/day gabapentin as add-on therapy. Patients received their standard regimens of antiepileptic drugs (AEDs) during a 12 week baseline period, and gabapentin or placebo was added-on in the subsequent 14 week evaluation period. Results of both an intent-to-treat (ITT) and evaluable-patient analyses showed that gabapentin provided greater reduction in the frequency of generalized tonic-clonic seizures than did placebo; however, the differences between treatments were not statistically significant. Gabapentin did not affect the frequency of absence or myoclonic seizures. Adverse events were reported by 67% of gabapentin-treated patients and by 56% of placebo-treated patients. The most frequently occurring adverse events among patients receiving gabapentin were somnolence, fatigue, and dizziness. Gabapentin is well tolerated by patients with generalized seizures. The results of this study show a trend toward an effect of gabapentin in reducing the frequency of generalized tonic-clonic seizures and suggest that further exploration of high dose gabapentin in generalized epilepsy is warranted.
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PMID:Gabapentin in generalized seizures. 895 16

Efficacy and safety of gabapentin monotherapy were evaluated in 33 children with newly diagnosed absence epilepsy in two identical, double-blind, placebo-controlled trials in which a 2-week double-blind treatment phase was followed by a 6-week open-label phase. Primary efficacy criterion was seizure frequency change from baseline to end of double-blind treatment derived from quantified electroencephalograms. Primary efficacy analyses compared treatment differences in the 2-week double-blind phase. Gabapentin did not significantly decrease or increase seizure frequency compared with placebo. Low dosages with possibly subtherapeutic plasma levels may have contributed to the lack of demonstrable efficacy. Somnolence and dizziness were the only adverse events reported by at least two patients during gabapentin treatment. No clinically important changes in laboratory assessments or other safety parameters were observed. Gabapentin monotherapy at dosages ranging from 9.7 through 19.1 mg/kg/day is well tolerated in pediatric patients aged 4 through 12 years with absence epilepsy.
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PMID:Gabapentin in naive childhood absence epilepsy: results from two double-blind, placebo-controlled, multicenter studies. 912 Feb 26

Gabapentin is a recently introduced antiepileptic drug for the treatment of partial seizures. Although studied extensively in adults, there have been few pediatric studies. It is a unique drug because it has no protein binding, is not metabolized, and is excreted through the kidneys. There are no significant drug interactions with other antiepileptic drugs nor do other antiepileptic drugs alter the pharmacokinetics of gabapentin. The drug is effective in partial seizures, although most studies have used the drug as add-on therapy. It is approved for use of partial seizures with or without secondary generalization in patients over the age of 12 years. The side effect profile of the drug is quite good. No significant idiosyncratic reactions have been reported. The most common side effects have included dizziness, fatigue, and headache. Rarely, children will have adverse behavioral effects, such as hyperactivity and agitated behavior. Usually these children have pre-existing behavioral disturbances. Although the spectrum of efficacy of gabapentin remains to be determined, it is likely to have a major beneficial impact on the treatment of childhood epilepsy.
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PMID:Gabapentin for treatment of epilepsy in children. 932 92

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 development of neuropathic pain involves a series of changes including primary and secondary hyperalgesia, peripheral and central sensitization, and wind-up phenomena. Neurotransmitters play a critical role in this process. For example, glutaminergic subtypes of alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) and neurokinin prime the N-methyl-D-aspartate (NMDA) receptor by triggering the release of intracellular calcium ions, thus unblocking the magnesium ion plug on the NMDA receptor and allowing Ca2+ influx into the cell. Ca2+ ions acting as secondary messengers initiate protein kinase C activation, phospholipase C and nitric oxide synthetase production, and proto-oncogene expression. The activation of the NMDA receptor thereby increases the responsiveness of the nociceptive system. Anticonvulsant drugs--including carbamazepine, phenytoin, and felbamate--have been used to treat neuropathic pain. Gabapentin is a novel anticonvulsant that may have a unique effect on voltage-dependent Ca2+ channel currents at postsynaptic dorsal horn neurons. Thus, gabapentin may interrupt an entire series of events, not just a single process, that lead to the development of neuropathic pain. Preclinical models of anti-inflammatory and neuropathic pain indicate that gabapentin effectively antagonizes the maintenance of this pain. Additionally, in preemptive surgical models, gabapentin has been shown to prevent the induction of pain. Gabapentin has been shown to be efficacious in numerous smaller clinical studies, case reports, and chart reviews in a variety of neuropathic pain syndromes. Two large multicenter studies, one in postherpetic neuralgia (PHN) and one in diabetic peripheral neuropathy (DPN), support preclinical findings. In the PHN study, patients treated with gabapentin demonstrated a significant difference (P<0.001) in their average daily pain score at endpoint compared to placebo patients. In the DPN trial, mean weekly pain was significantly (P<0.001) different for gabapentin-treated patients compared to placebo-treated patients at endpoint. Consistent with the known side-effect profile of gabapentin, the most common adverse events noted in both studies were dizziness and somnolence. Gabapentin should be considered an important addition to the management of neuropathic pain syndromes.
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PMID:Gabapentin use in neuropathic pain syndromes. 1087 51

Gabapentin, which has been approved for add-on therapy of focal seizures, is increasingly used for treatment of neuropathic pain. Its analgesic effect is supposed to be due to reduction of glutamatergic transmission, improvement of GABAergic transmission and to binding to voltage-dependent calcium channels. Experimental studies demonstrated an ameliorating effect of gabapentin on neuropathic pain. Placebo-controlled studies revealed an efficacy of gabapentin against pain in diabetic neuropathy and postherpetic neuralgia and in prophylaxis of migraine. Case reports show an analgesic effect of gabapentin in trigeminus neuralgia and in reflex sympathetic dystrophy. The main adverse events are dizziness, ataxia and somnolence. Controlled studies, which compare the efficacy of gabapentin with that of the respective reference drug, are needed to evaluate its importance in treatment of pain.
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PMID:[Gabapentin therapy for pain]. 1125 57


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