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:C0030193 (pain)
261,466 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Pregabalin, a 3-substituted analogue of gamma-amino butyric acid has recently been approved for treatment of neuropathic pain. We have investigated the anatomical binding profile of [(3)H] pregabalin following chronic constriction injury (CCI) and compared this with alpha 2 delta 1 subunit expression using in situ hybridisation. We report here that the intensity and distribution pattern of [(3)H] pregabalin binding is altered in the ipsilateral dorsal horn following CCI and this is associated with a corresponding increase in alpha 2 delta 1 mRNA in the ipsilateral dorsal root ganglion (DRG). It is likely that increased DRG mRNA production leads to increased alpha 2 delta 1 protein production and subsequent transport by primary afferents to the dorsal horn. The increased expression of calcium channel subunits and protein in central terminals is interesting, given that abnormal activity within sensory nerves is likely to significantly contribute to the symptomatology of neuropathic pain. The upregulation of pregabalin binding sites in sensory nerve terminals may occur as part of the response to nerve damage in neuropathic pain patients, and therefore, preferential actions of pregabalin at these sites may contribute to its mechanism of action in man.
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PMID:[3H] pregabalin binding is increased in ipsilateral dorsal horn following chronic constriction injury. 1736 33

Pregabalin has anticonvulsant, antihyperalgesic, and anxiolytic properties. In this study we evaluated the control of pain after perioperative administration of pregabalin 300 or 600 mg, compared with diazepam 10mg. Altogether 91 women scheduled for laparoscopic hysterectomy were randomized to receive diazepam 10mg (D10), pregabalin 150 mg (P300) or 300 mg (P600) for premedication, and the dose was repeated after 12h, except for the D10 group, in which the patients received placebo. Up until the 1st postoperative morning, analgesia was provided by oxycodone using patient controlled analgesia. The visual analogue scale scores for pain and side effects, and the amounts of the analgesics were recorded for three days after surgery. The doses of oxycodone during hours 0-12 after surgery were similar in the three groups, whereas the dose of oxycodone during hours 12-24 after surgery was smaller in the P600 group than in the P300 group (0.09 vs. 0.16 mg kg(-1); P=0.025). The total dose of oxycodone (0-24h after surgery) was smaller in the P600 group than in the D10 group (0.34 vs. 0.45 mg kg(-1); P=0.046). The incidence of dizziness (70% vs. 35%; P=0.012), blurred vision (63% vs. 14%; P=0.002) and headache (31% vs. 7%; P=0.041) were higher in the P600 group than in the D10 group. In conclusion, perioperative administration of pregabalin 600 mg decreases oxycodone consumption compared with diazepam 10mg, but is associated with an increased incidence of adverse effects.
Pain 2008 Jan
PMID:A randomized controlled trial of perioperative administration of pregabalin for pain after laparoscopic hysterectomy. 1750 63

Seven published, randomized, placebo-controlled clinical trials with pregabalin have shown robust efficacy for relief of neuropathic pain from DPN and PHN. An investigation of the efficacy and safety of twice daily pregabalin enrolled 395 adults with painful DPN for > or = 1 year in a 12-week, double-blind, placebo-controlled trial. Patients were randomized to placebo, 150, 300, or 600 mg/day pregabalin (n = 96, 99, 99, and 101). Primary efficacy measure was change from baseline in endpoint mean pain score from patients' daily pain diaries. Secondary efficacy measures included pain-related sleep-interference scores, Patient and Clinical Global Impressions of Change (PGIC, CGIC), and the EuroQOL Health Utilities Index (EQ-5D). Statistically significant reduction in pain was observed in patients receiving pregabalin 600 mg/day, and 46% of patients treated with 600 mg/day pregabalin reported > or = 50% improvement in mean pain scores from baseline (vs 30% of placebo patients, p = 0.036). Number needed to treat to achieve such response was 6.3. Pregabalin 600 mg/day was significantly superior to placebo in improving pain-related sleep-interference scores (p = 0.003), PGIC (p = 0.021), and CGIC (p = 0.009). (Neither pregabalin 150 nor 300 mg/day separated from placebo on these measures, largely because of an atypically large placebo response in one country representing 42% of patients.) All pregabalin dosages were superior to placebo in improving EQ-5D utility scores (all p > or = 0.0263 vs placebo). Pregabalin was well tolerated at all dosages; adverse events were generally mild to moderate. Number needed to harm (discontinuation because of adverse events) was 10.3 for pregabalin 600 mg/day.
Eur J Pain 2008 Feb
PMID:Pregabalin for relief of neuropathic pain associated with diabetic neuropathy: a randomized, double-blind study. 1763

The effective treatment of patients suffering from central neuropathic pain remains a clinical challenge, despite a standard pharmacological approach in combination with anticonvulsants and antidepressants. A randomized, double-blinded, placebo-controlled trial evaluated the effects of pregabalin on pain relief, tolerability, health status, and quality of life in patients with central neuropathic pain caused by brain or spinal cord injuries. At baseline and 4 weeks after the start of treatment subjects were evaluated with standard measures of efficacy: pain intensity measured by visual analog scale, health status (Pain Disability Index and EQ-5D) and quality of life (SF-36). Forty patients received escalating doses of either pregabalin (150, 300, and 600mg/day) or matching placebo capsules. In both groups, patients started with 1 capsule per day (either 150mg of pregabalin or placebo). If pain relief was insufficient, patients were titrated to a higher dose. There was a statistically significant decrease in mean pain score at endpoint for pregabalin treatment, compared with placebo (P=0.016). Follow-up observation showed no significant difference in Pain Disability Index scores between the two groups. The pregabalin group, however, showed a statistically significant improvement for the EQ-5D. Pregabalin treatment led to a significant improvement in the bodily pain domain of the SF36. In the other domains, more favorable scores were reported without reaching statistical significance. Pregabalin, in a flexible-dose regime, produced clinically significant reductions in pain, as well as improvements in health status in patients suffering from severe central neuropathic pain.
Pain 2008 May
PMID:Pregabalin in patients with central neuropathic pain: a randomized, double-blind, placebo-controlled trial of a flexible-dose regimen. 1770 85

Pregabalin is increasingly being used for the treatment ofneuropathic pain, often as the first-line choice. The question is, however, whether this choice is based on evidence. Seven trials have been published on the effect ofpregabalin in patients with postherpetic neuralgia and painful diabetic neuropathy. These trials more frequently report a 50% reduction in pain in pregabalin treated patients than in patients treated with placebo (number needed to treat 4.3). Dizziness and somnolence are the most frequent adverse events of pregabalin. The number needed to harm for adverse events leading to discontinuation of treatment varies from 3.7 to 113.1 in these studies. Pregabalin has not been compared head-to-head with other drugs commonly used for neuropathic pain. Indirect comparison reveals the effectiveness of pregabalin is comparable with that of carbamazepin, tramadol, and gabapentin; pregabalin is possibly less effective than amitriptylin. However, taking into account its price and the lack of clinical experience and evidence, using pregabalin as first-line choice is not recommended.
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PMID:[Pregabalin in the treatment of neuropathic pain]. 1795 78

Timely repair and robust regeneration after traumatic peripheral nerve injury are essential to ensure optimal recovery. Pregabalin (Lyrica; Pfizer Inc., Morris Plains, NJ), frequently prescribed to attenuate neuropathic pain in patients with traumatic nerve injury, was evaluated for its potential to alter nerve regeneration in the rat sciatic crush model. Rats were randomly assigned to one of three groups of 12 animals each: (1) sham surgery and pregabalin injections; (2) crush injury and pregabalin injections; and (3) crush injury and saline vehicle injections. Nerve regeneration was evaluated with weekly walking tracks and histomorphometry. There were no significant differences in sciatic function index or histomorphometric parameters at the 21-day endpoint between the pregabalin-treated rats undergoing crush injury and the saline-treated controls. Although we have observed a subjectively improved clinical course in human patients treated with pregabalin after traumatic nerve injury, the effect does not appear to be due to accelerated nerve regeneration.
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PMID:Pregabalin does not impact peripheral nerve regeneration after crush injury. 1787 29

Pregabalin is similar in structure to gamma-aminobutyric acid. It is used for neuropathic pain, generalized anxiety disorders and as an adjunct therapy for partial seizures. Tachycardia is a rare side-effect. A 92-year-old patient with a history of paroxystic fibrillation was hospitalised for zoster. She developed a sinusal tachycardia followed by atrial fibrillation and congestive heart failure 15 h after a first dose of pregabalin. The imputation was considered as plausible. Even though the mechanism remains unclear, pregabalin might induce tachycardia in predisposed old patients.
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PMID:[Should we care about pregabalin for elderly patients with a history of cardiac dysrhythmia?]. 1797 66

Central neuropathic pain is a painful condition, often severe, that occurs in a person who is already affected by an injury or disease of the brain or spinal cord. This dual insult is especially threatening to the quality of life of a person and their ability to perform even the most basic of tasks. Despite this high level of suffering there are relatively few trials investigating the management of central neuropathic pain. However, two randomised placebo-controlled studies have recently emerged demonstrating efficacy of pregabalin in reducing central neuropathic pain due to spinal cord injury and central poststroke pain. Pregabalin, an anticonvulsant, has been shown to be efficacious in the management of peripheral neuropathic pain of various causes and now may have a role to play in central neuropathic pain.
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PMID:Pregabalin in the management of central neuropathic pain. 1800 Dec 62

Pregabalin is a new synthetic molecule and a structural derivative of the inhibitory neurotransmitter gamma-aminobutyric acid. It is an alpha2-delta (alpha2-delta) ligand that has analgesic, anticonvulsant, anxiolytic, and sleep-modulating activities. Pregabalin binds potently to the alpha2-delta subunit of calcium channels, resulting in a reduction in the release of several neurotransmitters, including glutamate, noradrenaline, serotonin, dopamine, and substance P. In this review, I will discuss the pharmacology of pregabalin and available efficacy studies in pain management. This review will focus on the advances in pregabalin pharmacology since my previous review in 2005.
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PMID:Pregabalin: its pharmacology and use in pain management. 1804 86

Pregabalin (PGB) is a new antiepileptic drug (AED) approved for adjunctive therapy for partial seizures with and without generalized tonic-clonic seizures and for the treatment of peripheral neuropathic pain in adults. PGB does not bind to plasma proteins and is excreted predominantly unchanged by the kidneys. Previous studies indicated that PGB shows no relevant interactions with other AEDs. The aim of this study was to investigate the influence of PGB dose, patient age, and comedication on the serum concentration of PGB. In total, 198 samples of 167 (adult) inpatients who fulfilled the inclusion criteria (eg, trough concentration, body weight available) were investigated. A patient was considered twice only if the comedication had been changed. The PGB serum concentration (mg/L) in relation to PGB dose/body weight (mg/kg) per day (level-to-dose ratio, LDR, [(mg/L)/(mg/kg)=kg/L]) was calculated and compared for the most frequent drug combinations (n=97). Analysis of covariance (using age as covariate) carried out on the log-transformed data showed that comedication had a slight but significant (P = 0.02) effect on PGB serum concentrations. The median LDR of PGB was 0.29 for PGB + oxcarbazepine (n=16), 0.31 for PGB + carbamazepine (n=20), 0.35 for PGB + levetiracetam (n=11), 0.35 for PGB + lamotrigine (n=15), and 0.39 for PGB + valproic acid + lamotrigine (n=35). Regression analysis including all 198 samples indicated (in accordance with analysis of covariance) that PGB concentrations were lower in combination with enzyme-inducing AEDs (phenytoin, carbamazepine, oxcarbazepine) and were age-dependent (higher in older patients). The PGB dose-concentration relationship was nearly linear (r=0.68, P<0.0001). However, patients on the same PGB dosage per body weight had rather different PGB trough concentrations, which could be explained only in part by age and comedication. The increase of PGB serum concentrations in older patients is in accordance with expectations for drugs that are predominantly renally excreted. Unexpectedly and in contrast to other studies, our data indicate that comedication with enzyme-inducing antiepileptic drugs (eg, carbamazepine) can moderately decrease PGB serum concentrations (about 20% to 30%). Further studies should clarify the effect of age and interactions on PGB concentrations.
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PMID:Serum concentrations of pregabalin in patients with epilepsy: the influence of dose, age, and comedication. 1804 77


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