Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0036572 (seizures)
 80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tramadol (Ultram) is a new analgesic agent with a dual mechanism of action that includes weak agonistic effects at the mu-opioid receptor as well as inhibition of neurotransmitter (serotonin, norepinephrine) re-uptake. Although it has proven to be a safe and effective agent for the control of pain, adverse effects can occur with its use. I report the occurrence of seizure activity after the inadvertent administration of 4 mg/kg of tramadol to a child. Previous reports of seizure activity after tramadol administration are reviewed and the treatment of this problem is discussed.
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PMID:Seizure after overdose of tramadol. 925 10

Tramadol is a centrally acting, binary analgesic that is neither an opiate-derived nor a nonsteroidal anti-inflammatory drug and that was approved for use in the United States in 1995. It is used to control moderate pain in chronic pain settings such as osteoarthritis and postoperative cases. Used in therapy as a racemic mixture, the (+)-enantiomer weakly binds to the mu-opioid receptor, and both enantiomers inhibit serotonin and norepinephrine reuptake. Tramadol's major active metabolite, O-desmethyltramadol (ODT), shows higher affinity for the mu-opioid receptor and has twice the analgesic potency of the parent drug. The synergism of these effects contributes to tramadol's analgesic properties with the (+)-enantiomer exhibiting 10-fold higher analgesic activity than the (-)-enantiomer. Although tramadol was initially thought to exhibit low abuse potential, Ortho-McNeil, the drug's manufacturer, recently reported a large number of adverse events attributed to tramadol including abuse by opioid-dependent patients, allergic reactions, and seizures. The high number of adverse reactions has prompted the company to update the prescribing information for the drug. An analytical method using gas chromatography-mass spectrometry (GC-MS) without derivatization for the determination of tramadol and its metabolites is reported. An n-butyl chloride extraction is followed by GC-MS analysis using a 5% phenylmethylsilicone column (30 m x 0.32-micron i.d.). Analysis of 12 blood samples from tramadol-related deaths and four nonfatal intoxications involving tramadol revealed concentrations ranging from 0.03 to 22.59 mg/L for tramadol, from 0.02 to 1.84 mg/L for ODT, and from 0.01 to 2.08 mg/L for N-desmethyltramadol. Three deaths were clearly attributable to acute morphine toxicity, one was a doxepin overdose, and six were multiple drug overdoses. The role of tramadol in each death is explored.
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PMID:Identification of tramadol and its metabolites in blood from drug-related deaths and drug-impaired drivers. 939 21

1. The centrally acting analgesic tramadol has recently been reported to cause seizures at re-commended dosages in patients, whereas animal experiments had indicated that seizures only occur in high, toxic doses. Tramadol has a dual mechanism of action that includes weak agonistic effects at the mu-opioid receptor as well as inhibition of monoamine (serotonin, norepinephrine) re-uptake. Its major (M1) metabolite mono-O:-desmethyltramadol, which is rapidly formed in vivo, has a markedly higher affinity for mu receptors and may thus contribute to the effects of the parent compound. Furthermore, the pharmacological effects of tramadol appear to be related to the different, but complementary and interactive pharmacologies of its enantiomers. In the present study, we evaluated (+/-)-tramadol, its enantiomers, and its M1 metabolite ((+)-enantiomer) in the amygdala kindling model of epilepsy in rats. Adverse effects determined in kindled rats were compared to those in nonkindled rats. 2. At doses within the analgesic range, (+/-)-tramadol and its enantiomers induced anticonvulsant effects in kindled rats. However, at only slightly higher doses seizures occurred. With (+/-)-tramadol, generalized seizures were observed at 30 mg kg(-1) in most kindled but not in nonkindled rats. The (-)-enantiomer induced myoclonic seizures at 30 mg kg(-1) in most kindled but not in nonkindled rats, although myoclonic seizure activity was observed in some nonkindled rats at 10 or 20 mg kg(-1). Seizures were also observed after the (+)-enantiomer and the (+)-enantiomer of the M1 metabolite, but experiments with higher doses of these compounds were limited by marked respiratory depression. 3. The data demonstrate that kindling enhances the susceptibility of rats to convulsant adverse effects of tramadol and its enantiomers, indicating that a preexisting lowered seizure threshold increases the risk of tramadol-induced seizures.
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PMID:Anticonvulsant and proconvulsant effects of tramadol, its enantiomers and its M1 metabolite in the rat kindling model of epilepsy. 1099 12

Tramadol is an option for the treatment of rheumatological pain. Its mode of action and safety profile distinguishes it from other opioids. Tramadol differs from other opioids by combining a weak opioid and a monoaminergic mode of action. It is effective in different types of moderate-to-severe pain, including neuropathic pain. Moreover, as the mode of action of tramadol does not overlap with that of NSAIDs, it is a useful agent to be combined with these drugs. Tramadol induces fewer opioid adverse reactions for a given level of analgesia compared with traditional opioids. Common adverse reactions of tramadol such as nausea and dizziness, which usually occur only at the beginning of therapy and attenuate over time, can be further minimized by up-titrating the drug over several days. Dose adjustment is only necessary in patients over 75 years of age, or in those with either hepatic or renal insufficiency. Tramadol should be avoided or used with caution in epileptics, or in individuals who are receiving seizure-threshold lowering drugs. Finally, tramadol has a low risk of abuse because it has only a weak opioid effect and its monoaminergic action could inhibit the development of dependence. The low abuse potential of tramadol has been demonstrated by postmarketing surveillance data.
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PMID:The tramadol option. 1131 Apr 78

Tramadol, an analgesic with mean potency one tenth that of morphine is used regularly for the treatment of chronic and postoperative pain. Previous reports have indicated that tramadol may induce seizure activity when given together with a selective serotonin reuptake inhibitor (SSRI). Therefore, its major mode of action may be questioned which purportedly is due to binding with the opioid receptor and partly due to the inhibition of monoamine reuptake. We therefore set out to study its potential in inducing seizure activity and to quantify its effect on EEG-power spectra and on the central modulation of sensory afferents in awake and trained dogs (n=7). In order to demonstrate if opioid receptors mediated these effects, incremental doses of tramadol were given which was followed by naloxone for possible reversal. After a wash-out period the same animals were exposed to graded doses of alfentanil, a pure mu-receptor agonist. Again this was followed by the opioid antagonist naloxone for reversal.The electroencephalogram (EEG) and the event-related evoked potentials (SEP) were used to demonstrate possible excitatory effects. In order to derive the SEP the front paw was stimulated electrically (Digi Stim II trade mark ) while the evoked potentials were picked up contralaterally from the somatosensory cortex using stick-on electrodes. 256 sweeps were averaged (Lifescan) and the peak-to-peak amplitude was measured to demonstrate CNS excitation compared to control (%). Additionally, the raw electroencephalogram was viewed for epileptogenic changes and its power computed into the various power bands alpha, beta, delta und theta using FFT over a time epoch of 60 s. Following control, graded doses of either tramadol (2-5-10 mg/kg i.v.) or alfentanil (10-30-60 microg/kg i.v.) were given every 15 min while the EEG and the SEP were recorded. Thereafter naloxone (20 microg/kg i.v.) was injected for reversal. Tramadol did not suppress the amplitude of the SEP at any dose. High doses (>5 mg/kg i.v.) resulted in an increase (+100%) of the amplitude of the evoked potential. This was accompanied by short-term muscle fibrillations, and a short-term spike-and-wave activity in the EEG followed by a long-lasting theta-dominance. These effects could not be reversed by naloxone. In contrast to tramadol, alfentanil induced a dose-related depression of amplitude in the SEP with a maximum of 82% suggesting a depressive effect of modulation of afferents in the sensory cortex. This effect was fully naloxone reversible and was followed by a rebound in amplitude of the SEP together with an increase in fast beta-waves in the EEG. Tramadol very little mediates its central action via the mu-opioid receptor as the present effects were not naloxone reversible. Consistent with the results is the very low affinity of tramadol to the opioid receptor which is several thousand times less than that of morphine. Most likely, inhibition of central norepinephrine and serotonin reuptake as well as the reduction in 5-HT-turnover may contribute to the effects of tramadol. Due to the monoamine reuptake inhibition an increase in transmission may result, triggering off excitatory phenomena with spike-and-wave activity in the CNS. Such excitatory effects, however, may only be seen when tramadol is used in doses exceeding the therapeutic range.
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PMID:[The opioid tramadol demonstrates excitatory properties of non-opioid character--a preclinical study using alfentanil as a comparison]. 1279 88

An analysis of the treatment of nonmalignant pain in the elderly at a long-term facility was conducted to allow development of a pain management program that complies with both JCAHO guidelines for pain management and with the Tennessee Medicaid (TennCare) reimbursement schedule, and to determine if tramadol can meet the standards of pain management under these new guidelines. Inclusion criteria were residence in our long-term care facility; a pain intensity score > 4 on a modified Wong Baker Pain Scale; the patient having prescription orders for one or more of the following drugs: propoxyphene, meperidine, or high dosages of acetaminophen (approaching 4 g/day); suspected neuropathic or mixed nociceptive/neuropathic pain; and/or a diagnosis of diabetes, osteoarthritis, or degenerative joint disease. Exclusion criteria were history of seizures, history of opioid or alcohol abuse, and demonstrated hypersensitivity to tramadol or opioids. Tramadol administration began at a dose of 25 mg/day titrated up to a maximum of 300 mg/day over a 16-day period. Data were collected from computer records, dispensing reports, medication administration reports (MARs), current federal minimum data set (MDS) data, and weekly care plan meetings. Data were tabulated at baseline and 4-6 weeks after a stable dose of tramadol had been established. Fourteen residents (mean age 85 years, 1 male, 13 female) met the criteria and received tramadol up to 300 mg/day (qid). Tramadol reduced the residents' pain scores from an average of 6 to 2 using the Modified Wong Baker Pain Scale, reduced the percentage of residents taking propoxyphene from 50% to 14%, and reduced those taking high doses of APAP or APAP products from 43% to 14%. Tramadol reduced the percentage of residents falling, losing weight, showing no change or decline in activities in daily living (ADLs), displaying inappropriate behavioral symptoms, suffering depression, and/or taking psychotropic medications. In the state of Tennessee, new reimbursement schedules by TennCare have allowed our hospital to comply with the JCAHO standards of "optimal achievable care" for the treatment of pain by allowing the hospital staff to treat patients with newer, safer, more effective analgesics such as tramadol. Early results from this ongoing study have shown that tramadol can provide a safe and effective treatment on non-malignant pain in a long-term care facility and improve adherence to JCAHO and TennCare standards for proper pain management.
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PMID:Pain management in a long-term care facility: compliance with JCAHO standards. 1464 89

Tramadol, marketed as Ultram in the United States, is as a non-scheduled narcotic analgesic based on its low abuse liability. It is indicated for the treatment of moderately severe pain; however, multiple adverse effects have been reported with its use including seizures, anaphylaxis, angioedema, bronchospasm, and serotonin syndrome. An association between tramadol and pericarditis has not been previously reported. We describe the case of an 88 year-old male who developed acute pericarditis 2 days following tramadol initiation. The temporal relationship between drug initiation and pericarditis as well as the resolution of symptoms upon drug discontinuation suggested a potential association. Although pericarditis has not been described with tramadol administration, clinicians should be aware of a possible association.
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PMID:Tramadol-associated pericarditis. 1577 42

Tramadol is one of the most widely used centrally acting analgesics worldwide. Because of its multimodal analgesic mechanism (opioid plus nonopioid), the adverse effects profile of tramadol, similar to its analgesic profile, can be atypical compared with single-mechanism opioid analgesics. The comparison is often favorable (e.g., less respiratory depression or abuse), but it is sometimes cited as unfavorable in regard to seizure potential. As part of a broader study of this analgesic, we compared seizure induction in mice produced by administration of tramadol, the enantiomers and metabolites [M1 (O-desmethyl tramadol), M2 (N-desmethyl tramadol), M3 (N,N-didesmethyl tramadol), M4 (O,N,N-tridesmethyl tramadol), and M5 (O,N-didesmethyl tramadol)] of tramadol, and opioid and nonopioid reference compounds. We found that tramadol, its enantiomers, and M1 to M5 metabolites were of intermediate potency in this endpoint (on either a milligram per kilogram or millimole per kilogram basis). The SD50 (estimated dose required to induce seizures in 50% of test group) of tramadol to antinociceptive ED50 ratio was almost identical to that of codeine. The enantiomers of tramadol were about equipotent to tramadol on this endpoint. The M1 to M5 metabolites (and M1 enantiomers) of tramadol were less potent than tramadol. The relative potency of tramadol to opioids was not altered by quinidine (an inhibitor of CYP4502D6), noxious stimulus (48 degrees C hot-plate), multiple dosing, or in reserpinized mice. Tramadol seizures were increased by naloxone, principally at high tramadol doses and due to an effect on the (-)enantiomer that overcame the opposite effect on the (+)enantiomer. No synergistic effect on seizure induction was observed between concomitant tramadol and codeine or morphine.
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PMID:Unexceptional seizure potential of tramadol or its enantiomers or metabolites in mice. 1829 93

Opioids have been used for analgesia in nearly all civilizations. In paediatrics their use has become widely accepted for combating severe pain, especially postoperative pain and tumour pain. Receptors in the central nervous system are the best known sites of action of opioids, but the existence of peripheral receptors is also probable. The action depends on whether the opioid is more agonist or antagonist and on the peculiarities of physiology in childhood: in the small child a hyperdynamic blood circulation makes resorption faster, and in newborn and premature infants distribution and excretion are influenced by the different composition of the body and the immaturity of liver and kidney. The best known opioid is morphine, and it is the reference substance with which all other opioids are compared. Fentanyl has been used even for the smallest ventilated prematures in recent times, as it is easy to manage and has an early onset of action. Its depressant action on the respiratory centre is an advantage when attempts of spontaneous breathing make mechanical ventilation difficult. Obstinate constipation is the disadvantage of both morphine and fentanyl, and an exacerbation of hyperbilirubinaemia has been seen with fentanyl. Nalbuphine causes a lower degree of respiratory depression. The newer opioids alfentanil and sufentanil have already been used for the relief of paediatric postoperative pain and during mechanical ventilation, but no special advantages of their use are reported. Meperidine has been favoured especially for postoperative pain, although it appears to have no advantages over morphine. Its active metabolite normeperidine may accumulate and cause seizures; meperidine should not be used in prematures or in children with renal dysfunction. There are few publications on the use of piritramide in paediatric pain. Tramadol is widely used for emergencies, as it has the least sedative action; but it has disadvantages in causing nausea and vomiting. Codeine is widely used for its antitussive action. While the necessity of good analgesia for even the smallest infant cannot be overstated, the opioid used must be carefully selected with reference to the age of the child and the pain to be controlled.
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PMID:[Analgesia with opioids in the paediatric patient.]. 1841 33

Tramadol has been reported to cause seizures in therapeutic dosing and in overdose. We present a series of 2 infants poisoned with tramadol, both presenting with abnormal neurologic findings: either seizures or seizurelike activity. Tramadol poisoning should be considered in the differential diagnosis of dystonia and seizures.
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PMID:Pediatric tramadol ingestion resulting in seizurelike activity: a case series. 1856 82


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