UMLS:C0027497 - FACTA Search

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Query: UMLS:C0027497 (nausea)
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Tramadol-HCl was used clinically in the form of a continuous infusion as the analgesic component of a balanced anaesthetic technique. In over 90% of the anaesthetics a further injection of barbiturate and/or supplementary muscle relaxant was necessary because the patients did not tolerate the operative procedure. Although a higher dosage of Tramadol reduces significantly the supplementary barbiturate dosage per kilogram bodyweight per minute which is required, it has no effect on the incidence of reflex movements, nor does it prevent the marked intraoperative rise of diastolic blood pressure. The balanced anaesthetic with Tramadol-HCl is characterized by prompt awakening, total amnesia, good post-operative analgesia and minimal side effects (occasional nausea). In particular, there was no case in which there was noticeable respiratory depression. As insufficient analgesia and hypnosis is provided by Tramadol-HCl, making the administration of muscle relaxants and barbiturates obligatory, there is no significant advance in our technique of using Tramadol-HCl, despite the advantages which have been outlined.
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PMID:[The clinical usefulness of Tramadol-infusion anaesthesia (author's transl)]. 733 89

Tramadol is effective in treating both acute and chronic pain, exhibiting a potency equivalent to that of pethidine, and it has an acceptable adverse event profile. Whilst the most common adverse events are nausea, vomiting, drowsiness and dizziness, as would be expected from an opioid, there is a noticeable lack of respiratory depression. This latter property, together with its low potential for the development of tolerance and dependence, make tramadol a most interesting agent for clinical use. The studies reported in this article illustrate the beneficial and adverse effects of tramadol to enable the clinician to judge the value of this agent.
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PMID:Chronic pain--challenge and response. 751 24

Tramadol is a centrally acting analgesic which possesses opioid agonist properties and activates monoaminergic spinal inhibition of pain. It may be administered orally, rectally, intravenously or intramuscularly. In patients with moderate to severe postoperative pain, intravenous or intramuscular tramadol has generally proved to be of equivalent potency to pethidine (meperidine) and one-fifth as potent as nalbuphine. Intravenous tramadol 50 to 150mg was equivalent in analgesic efficacy to morphine 5 to 15mg in patients with moderate pain following surgery; however, when administered epidurally tramadol was one-thirtieth as potent as morphine. Tramadol has demonstrated efficacy in a few studies in the short term treatment of chronic pain of various origins. Orally administered tramadol was found to be an effective analgesic in step 2 of the World Health Organization's guidelines for the treatment of patients with cancer pain. Tramadol is well tolerated in short term use with dizziness, nausea, sedation, dry mouth and sweating being the principal adverse effects. Respiratory depression has been observed in only a few patients after tramadol infusion anaesthesia. When used for pain relief during childbirth, intravenously administered tramadol did not cause respiratory depression in neonates. The tolerance and dependence potential of tramadol during treatment for up to 6 months appears to be low, although the possibility of dependence with long term use cannot be entirely excluded. Thus, evidence to date of the analgesic effectiveness of tramadol combined with a low respiratory depressant effect and low dependence potential in short term use, suggests that the drug may become a useful alternative to the opioid analgesics currently available for the treatment of patients with moderately severe acute or chronic pain.
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PMID:Tramadol. A preliminary review of its pharmacodynamic and pharmacokinetic properties, and therapeutic potential in acute and chronic pain states. 769 19

60 patients (except parturients) suffering from shivering after receiving epidural anesthesia were randomly divided into 2 equal groups. In order to evaluate the effect of Tramadol on the shivering, i.v. Tramadol (1 mg/Kg), in contrast to distilled water (20 ml) for the control group, was administered to the patients in the experimental group. We compared the arrest time between the two groups in addition to systolic blood pressure, diastolic blood pressure, heart rate, arterial O2 saturation, respiratory rate and body surface temperature. Furthermore, the degree of shivering was also compared sequentially. The systolic pressure of the control group declined significantly in the first 30 minutes (P < 0.05). The other data, including the diastolic pressure, heart rate, arterial O2 saturation, respiratory rate and body surface temperature, showed no significant difference (P > 0.05). The arrest time in the experimental group was 179 +/- 71.25 seconds in contrast to 2790 +/- 440.23 seconds in the control group, a large significant difference (P < 0.001). 10% of the patients in the experimental group experienced nausea or vomiting and 6.67% of the patients showed sedation which did not disturb consciousness level of psychomotor status. Since the exact mechanism of shivering during epidural anesthesia is not established, we sincerely hope more information about the effect to Tramadol on shivering can be uncovered.
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PMID:[The evaluation of the anti-shivering effect of tramadol during epidural anesthesia]. 783 23

Tramadol is a centrally acting analgesic that has been shown to be effective in a variety of acute and chronic pain states. Unlike other centrally acting analgesics, it exerts a dual action by binding to the opioid receptor site in the central nervous system and by weakly inhibiting the reuptake of biogenic amines. Tramadol is rapidly and almost completely absorbed, with an onset of action occurring within 1 hour of oral administration. The recommended dosage is 50 to 100 mg every 4 to 6 hours; however, regular administration is an alternative, particularly for chronic pain states such as osteoarthritis, where the use of the recently developed sustained release formulation may represent an important advantage. Published studies specifically evaluating the use of tramadol in this disease support its effectiveness. Nausea, drowsiness, constipation, dizziness, and sweating have been reported in association with tramadol use. Nausea occurs early in the course of administration, and may be reduced by slowly titrating the dose of tramadol against response. Tramadol would appear to be particularly useful in the elderly population affected by osteoarthritis because, unlike nonsteroidal anti-inflammatory drugs, it does not aggravate hypertension or congestive heart failure, nor does it have the potential to cause peptic ulcer disease. Compared with narcotics, tramadol does not induce significant respiratory depression, constipation, or have significant abuse potential.
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PMID:Pharmacology and clinical experience with tramadol in osteoarthritis. 891 98

The pharmacology, pharmacokinetics, efficacy, adverse effects, and dosage and administration of tramadol are reviewed. Tramadol is a synthetic analogue of codeine that binds to mu opiate receptors and inhibits norepinephrine and serotonin reuptake. It is rapidly and extensively absorbed after oral doses and is metabolized in the liver. Analgesia begins within one hour and starts to peak in two hours. In patients with moderate postoperative pain, i.v. or i.m. tramadol is roughly equal in efficacy to meperidine or morphine; for severe acute pain, tramadol is less effective than morphine. Oral tramadol can also be effective after certain types of surgery. Tramadol and meperidine are equally effective in postoperative patient-controlled analgesia. In epidural administration for pain after abdominal surgery, tramadol is more effective than bupivacaine but less effective than morphine. In patients with ureteral calculi, both dipyrone and butylscopolamine are more effective than tramadol. For labor pain, i.m. tramadol works as well as meperidine and is less likely to cause neonatal respiratory depression. Oral tramadol is as effective as codeine for acute dental pain. In several types of severe or refractory cancer pain, tramadol is effective, but less so than morphine; for other types of chronic pain, such as low-back pain, oral tramadol works as well as acetaminophen-codeine. Common adverse effects of tramadol include dizziness, nausea, dry mouth, and sedation. The abuse potential seems low. The recommended oral dosage is 50-100 mg every four to six hours. Tramadol is an effective, if expensive, alternative to other analgesics in some clinical situations.
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PMID:Tramadol: a new centrally acting analgesic. 907 93

The analgesic effectiveness and safety of oral tramadol were compared with standard analgesics using a meta-analysis of individual patient data from randomised controlled trials in patients with moderate or severe pain after surgery or dental extraction. Calculation of %maxTOTPAR from individual patient data, and the use of > 50%maxTOTPAR defined clinically acceptable pain relief. Number-needed-to-treat (NNT) for one patient to have > 50%maxTOTPAR compared with placebo was used to examine the effectiveness of different single oral doses of tramadol and comparator drugs. Eighteen randomised, double-blind, parallel-group single-dose trials with 3453 patients using categorical pain relief scales allowed the calculation of %maxTOTPAR. The use of > 50%maxTOTPAR was a sensitive measure to discriminate between analgesics. Tramadol and comparator drugs gave significantly more analgesia than placebo. In postsurgical pain tramadol 50, 100 and 150 mg had NNTs for > 50%maxTOTPAR of 7.1 (95% confidence intervals 4.6-18), 4.8 (3.4-8.2) and 2.4 (2.0-3.1), comparable with aspirin 650 mg plus codeine 60 mg (NNT 3.6 (2.5-6.3)) and acetaminophen 650 mg plus propoxyphene 100 mg (NNT 4.0 (3.0-5.7)). With the same dose of drug postsurgical patients had more pain relief than those having dental surgery. Tramadol showed a dose-response for analgesia in both postsurgical and dental pain patients. With the same dose of drug postsurgical pain patients had fewer adverse events than those having dental surgery. Adverse events (headache, nausea, vomiting, dizziness, somnolence) with tramadol 50 mg and 100 mg had a similar incidence to comparator drugs. There was a dose response with tramadol, tending towards higher incidences at higher doses. Single-patient meta-analysis using more than half pain relief provides a sensitive description of the analgesic properties of a drug, and NNT calculations allow comparisons to be made with standard analgesics. Absolute ranking of analgesic performance should be done separately for postsurgical and dental pain.
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PMID:Single-patient data meta-analysis of 3453 postoperative patients: oral tramadol versus placebo, codeine and combination analgesics. 908 3

(+/-)-Tramadol is a synthetic 4-phenyl-piperidine analogue of codeine. It is a central analgesic with a low affinity for opioid receptors. Its selectivity for mu receptors has recently been demonstrated, and the M1 metabolite of tramadol, produced by liver O-demethylation, shows a higher affinity for opioid receptors than the parent drug. The rate of production of this M1 derivative (O-demethyl tramadol), is influenced by a polymorphic isoenzyme of the debrisoquine-type, cytochrome P450 2D6 (CYP2D6). Nevertheless, this affinity for mu receptors of the CNS remains low, being 6000 times lower than that of morphine. Moreover, and in contrast to other opioids, the analgesic action of tramadol is only partially inhibited by the opioid antagonist naloxone, which suggests the existence of another mechanism of action. This was demonstrated by the discovery of a monoaminergic activity that inhibits noradrenaline (norepinephrine) and serotonin (5-hydroxytryptamine; 5-HT) reuptake, making a significant contribution to the analgesic action by blocking nociceptive impulses at the spinal level. (+/-)-Tramadol is a racemic mixture of 2 enantiomers, each one displaying differing affinities for various receptors. (+/-)-Tramadol is a selective agonist of mu receptors and preferentially inhibits serotonin reuptake, whereas (-)-tramadol mainly inhibits noradrenaline reuptake. The action of these 2 enantiomers is both complementary and synergistic and results in the analgesic effect of (+/-)-tramadol. After oral administration, tramadol demonstrates 68% bioavailability, with peak serum concentrations reached within 2 hours. The elimination kinetics can be described as 2-compartmental, with a half-life of 5.1 hours for tramadol and 9 hours for the M1 derivative after a single oral dose of 100mg. This explains the approximately 2-fold accumulation of the parent drug and its M1 derivative that is observed during multiple dose treatment with tramadol. The recommended daily dose of tramadol is between 50 and 100mg every 4 to 6 hours, with a maximum dose of 400 mg/day; the duration of the analgesic effect after a single oral dose of tramadol 100mg is about 6 hours. Adverse effects, and nausea in particular, are dose-dependent and therefore considerably more likely to appear if the loading dose is high. The reduction of this dose during the first days of treatment is an important factor in improving tolerability. Other adverse effects are generally similar to those of opioids, although they are usually less severe, and can include respiratory depression, dysphoria and constipation. Tramadol can be administered concomitantly with other analgesics, particularly those with peripheral action, while drugs that depress CNS function may enhance the sedative effect of tramadol. Tramadol should not be administered to patients receiving monoamine oxidase inhibitors, and administration with tricyclic antidepressant drugs should also be avoided. Tramadol has pharmacodynamic and pharmacokinetic properties that are highly unlikely to lead to dependence. This was confirmed by various controlled studies and postmarketing surveillance studies, which reported an extremely small number of patients developing tolerance or instances of tramadol abuse. Tramadol is a central acting analgesic which has been shown to be effective and well tolerated, and likely to be of value for treating several pain conditions (step II of the World Health Organization ladder) where treatment with strong opioids is not required.
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PMID:[Pharmacology of tramadol]. 919 Mar 21

Tramadol has been in clinical use in Germany since the late 1970s and has proven effective in both experimental and clinical pain without causing serious cardiovascular or respiratory side effects. Moreover, the negligible abuse potential of tramadol has meant that it has never been a restricted drug, and it therefore very quickly became the most popular analgesic of its class in Germany. Although tramadol has been used in myocardial emergencies, in trauma and obstetric pain, or to supplement balanced anaesthesia, most studies have investigated postoperative patients. The focus of this article is to review clinical experience with tramadol in the treatment of acute postoperative pain. Tramadol, a synthetic opioid of the aminocyclohexanol group, is a centrally acting analgesic with weak opioid agonist properties, and effects on noradrenergic and serotonergic neurotransmission. In addition, these opioid and nonopioid modes of action appear to act synergistically. Tramadol has been shown to provide effective analgesia after both intramuscular and intravenous administration for the treatment of postoperative pain. The drug is available in formulations suitable for oral, rectal and parenteral administration. Clinically effective analgesic doses of tramadol were comparable to those of pethidine (meperidine) and about 10 times higher than those of morphine. While it is not recommended as a supplement to general anaesthesia because of its insufficient sedative activity, tramadol has been successful in the treatment of postoperative pain. A randomised double-blind study reported acceptable analgesia with postoperative intravenous tramadol 50mg, repeated once if required after 30 minutes. It produced an effect similar to that of morphine 5mg or the alpha 2 agonist, clonidine 150 micrograms. In another study, it was shown that the 50mg dose of tramadol fulfilled the requirements of an analgesic for the treatment of moderate postoperative pain, whereas for severe pain a higher dose was recommended. Tramadol is generally well tolerated, the most common adverse events being nausea and vomiting. In contrast to agents such as morphine and pethidine, clinically relevant respiratory depression is rarely observed during tramadol administration at equipotent doses and consequently it can be recommended for first-line management of postoperative pain instead of morphine. It is also associated with a low incidence of cardiac depression and significantly less dizziness and drowsiness than morphine. Finally, the dependence and abuse potential with tramadol is negligible. Comparative studies have generally shown that tramadol is more effective than NSAIDs for controlling post operative pain. Use of a combination of tramadol and NSAIDs allows the tramadol dose to be reduced and results in a lower incidence of adverse effects. Patient controlled analgesia (PCA) with tramadol has been frequently used and is well accepted by patients. Wide individual variations exist with regard to analgesic requirements and, nowadays, it is generally accepted that adequate pain management implies systematic individualisation of the therapy, i.e. titration of the analgesic effect to individual needs. Demand and loading doses play a decisive role in the success of PCA. Analgesic failures requiring rescue medication are rare, but it should be stressed that these can always occur with weak opioids. In conclusion, tramadol can be recommended as a basic analgesic for the treatment of moderate to severe pain. In the event of analgesic failure with tramadol, there is no reason not to switch to more potent opioids. Although no studies are available regarding its use in the management of postoperative pain after day case surgery, tramadol is frequently administered with good results in such patients. The most important side effects of tramadol are nausea and emesis, which can often be prevented by slow injection and administration of a prophylactic antiemetic such as metoclopramid
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PMID:[Tramadol in acute pain]. 919 Mar 22

Basic guidelines for cancer pain treatment can be found in many different handbooks published in the last years. Particularly those of the World Health Organisation published in 1986 and revised in 1996, furnish useful indication for cancer pain treatment. The authors therefore focused on resuming the most recent development in this field. In the research regarding alternative routes of administration of opioids in alternative to the oral route, the rectal administration of morphine and methadone and the transdermal route for fentanyl have proved to be efficacious. The subcutaneous route (for morphine) as well as the intravenous, peridural and subaracnoid routes, being known for some time are not taken in consideration in this paper. Various studies suggest that alternative routes are necessary in 53-70% of patients in their last days or months of live. The most frequent causes for the need to stop oral administration are dysphagia, nausea, and uncontrollable vomiting, bowel obstruction, malabsorption, cognitive failure, coma, and pain syndromes requiring anaesthetics which need be administered via the spinal route. Among the drugs, tramadol seems to be effective in the control of moderate pain. Tramadol is a centrally acting analgesic drug; it has an agonist effect on mu 1 receptors of opioids and acts also by inhibiting the re-uptake of noradrenaline and serotonine which activates descending monoaminergic inhibitory pathways. Recent clinical studies revealed that pamidronate has an analgesic effect in pain due to bone metastasis. Pamidronate is part of the biphosphonates, which are active on bone metabolism and are usually being used for the treatment of hypercalcaemia in cancer. The authors also describe briefly the indication of ketamin in association with morphine for the treatment of neuropathic pain.
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PMID:[Treatment of pain in oncology]. 923 25

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