UMLS:C0027497 - FACTA Search

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Query: UMLS:C0027497 (nausea)
23,468 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tramadol hydrochloride is a novel, centrally acting analgesic with two complementary mechanisms of action: opioid and aminergic. Relative to codeine, tramadol has similar analgesic properties but may have fewer constipating, euphoric, and respiratory depressant effects. A two-center randomized double-blind controlled clinical trial was performed to assess the analgesic efficacy and reported side effects of tramadol 100 mg, tramadol 50 mg, codeine 60 mg, aspirin (ASA) 650 mg with codeine 60 mg, and placebo. Using a third molar extraction pain model, 200 healthy subjects were enrolled in a 6-hour evaluation after a single dose of drug. Of the 200 patients enrolled, seven provided incomplete efficacy data or discontinued prematurely and one was lost to follow-up. Using standard measures of analgesia, including total pain relief score (TOTPAR), maximum pain relief score (MaxPAR), sum of pain intensity difference scores (SPID), peak pain intensity difference (Peak PID), remedication, and global evaluations, all active treatments were found to be numerically superior to placebo. ASA/codeine was found to be statistically superior to placebo for all measures of efficacy. Tramadol 100 mg was statistically superior to placebo for TOTPAR, SPID, and time of remedication, whereas tramadol 50 mg was statistically superior to placebo onlyfor remedication time. Codeine was not found to be statistically superior to placebo for any efficacy measure. A greater TOTPAR response compared with all other active measures was seen for ASA/codeine during the first 3 hours of study. The 6-hour TOTPAR scores for the tramadol groups and ASA/ codeine group were not significantly different. Gastrointestinal side effects (nausea, dysphagia, vomiting) were reported more frequently with tramadol 100 mg, ASA/ codeine, and codeine 60 mg than with placebo.
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PMID:Tramadol hydrochloride: analgesic efficacy compared with codeine, aspirin with codeine, and placebo after dental extraction. 965 May 46

Tramadol may cause awareness and EEG activation during anaesthesia. We compared tramadol with morphine, administered during wound-closure, surmising that tramadol may cause earlier awakening, more rapid recovery, less respiratory depression and equivalent pain relief. Forty patients received nitrous oxide-enflurane for abdominal surgery. At wound closure, patients received tramadol 3 mg kg-1 or morphine 0.2 mg kg-1 and end-tidal enflurane concentrations were maintained at 0.5 kPa until skin closure, whereupon anaesthesia was discontinued. Times to spontaneous respiration, awakening and orientation were similar in the two groups, as were blood-gas tensions, ventilatory frequency, pain scores and incidence of nausea. Half of each group required supplementary analgesia during their 90-min stay in the recovery room. P-deletion counts improved more rapidly in the tramadol group. This study confirms previous reports that tramadol did not antagonize the hypnotic effects of volatile anaesthetics. Tramadol, administered during operation, was as effective as morphine in providing postoperative analgesia while permitting more rapid psychomotor recovery.
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PMID:Tramadol or morphine administered during operation: a study of immediate postoperative effects after abdominal hysterectomy. 1019 86

This report reviews the causes of ocular pain and discusses the pharmacology, pharmacokinetics, efficacy, adverse effects, and dosage of tramadol, a novel non-narcotic oral analgesic. Tramadol is a synthetic analog of codeine with a dual mechanism of action that involves agonist activity at the mu opioid receptor, as well as inhibition of monoaminergic (norepinephrine and serotonin) re-uptake. Unlike opiate analgesics, tramadol has very low propensity toward physical dependence. Common dose-related adverse effects of tramadol include dizziness, nausea, vomiting, dry mouth, and/or drowsiness. Clinically, tramadol has been shown to be equivalent to acetaminophen (325 mg)-codeine (30 mg) combinations for the treatment of moderate or severe nonocular pain. Tramadol appears to be an effective analgesic agent for pain control due to postoperative surgical trauma, as well as in various chronic malignant and nonmalignant disease states. Tramadol has shown variable effectiveness in the control of pain related to dental procedures. The usefulness of tramadol in pain states from ophthalmic origin has yet to be clinically established.
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PMID:Analgesics in ophthalmic practice: a review of the oral non-narcotic agent tramadol. 1044 36

As has been demonstrated in binding studies the two opioids tilidine (CAS 27107-79-7)/naloxone (CAS 357-08-4) and tramadol (CAS 36282-47-0) differ in regard to their affinities to the opioid receptor site. Therefore it is of interest to evaluate whether such a difference in opioid affinity is also seen in the pharmacological effects of clinically relevant doses in man. Following institutional approval by the local ethical committee and informed consent, 12 volunteers received oral doses of tramadol (100 mg), tilidine/naloxone (100 mg) and placebo, respectively, in a randomized, double-blind cross-over design. In order to determine the degree of constipation, oral-caecal transit time was measured using the H2-exhalation test. Additionally, in order to evaluate a centrally mediated effect, the response of the pupil to light was quantified using the pupillary light reflex technique. Both, peripheral and central mediated effects were compared to placebo. Tramadol as well as tilidine/naloxone induced a significant (p < 0.05) prolongation of oral-caecal transit when compared to placebo. However, prolongation of oral-caecal transit was significantly longer in the tilidine/naloxone (p < 0.05) than in the tramadol group. Compared to tramadol, the pronounced constipating effect of tilidine/naloxone is likely to be due to the 10 fold higher affinity of that drug to the peripheral opioid receptor sites in the intestinal tract, which are responsible for normal propulsion. Such difference in binding is underlined by a central effect, the pupillary light reflex response. The amount of constriction of the iris to light was reduced after both opioids. Again, tilidine/naloxone significantly reduced (p < 0.001) the pupillary light reflex when compared to tramadol. Other side effects such as tiredness, nausea, emesis and dry mouth were more often reported after tilidine/naloxone than after tramadol (40% versus 15%; p < 0.05). Vertigo and perspiration were more often reported after tramadol than after after tilidine/naloxone (58% and 78% versus 8%; p < 0.01). All these data support the findings that while tramadol is considered an opioid, it does not mediate its main clinical relevant properties via binding at the opioid receptor. More likely, due to its monoaminergic reuptake mechanism, to a lesser extent opioid-like effects are induced.
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PMID:Effects of tramadol and tilidine/naloxone on oral-caecal transit and pupillary light reflex. 1068 12

Tramadol, a weak opioid mu-receptor agonist, may have a favourable potency and side effect profile for intravenous patient-controlled analgesia (PCA). In a prospective, double-blind, randomized study involving 54 patients, tramadol was compared with oxycodone in PCA after maxillofacial surgery. All the patients were given diclofenac sodium 1 mg kg-1 intramuscularly and dexamethasone 8 mg twice a day. Post-operatively patients received tramadol or oxycodone by a PCA apparatus (lockout 5 min, tramadol 0.3 mg kg-1 bolus, oxycodone 0.03 mg kg-1 bolus). During the immediate recovery period, opioid was administered i.v. in a double-blind fashion, either tramadol 10 mg or oxycodone 1 mg increments until the pain control was judged to be satisfactory by the patient. Pain was assessed at rest and during activity (mouth opening) before and after loading, at 2 h after commencing the PCA, as well as at 21.00 and at 09.00 hours on the following morning. Side effects were recorded. The potency ratio of tramadol to oxycodone was found to be approximately 8:1. There was no significant difference between the groups in the VAS scores for pain. No respiratory depression was identified. Tramadol was found to provide adequate analgesia after maxillofacial surgery without risk of respiratory depression. However, the incidence of nausea was slightly greater in the tramadol group than in the oxycodone group (44% vs. 28%, NS).
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PMID:Efficacy and side effects of tramadol versus oxycodone for patient-controlled analgesia after maxillofacial surgery. 1074 12

Tramadol is a weak centrally acting analgesic and it might provide efficacious postoperative pain relief with minimal sedative effects in the use of intravenous patient-controlled analgesia (PCA). Sixty women scheduled to undergo microvascular breast reconstruction under standard general anaesthesia were enrolled in a study on the performance of patient-controlled analgesia with tramadol or morphine with special emphasis on drug- and technique-related side-effects. Seven patients were re-operated within the same day, leaving 25 patients in the tramadol group and 28 in the morphine group for comparison. When postoperative pain occurred, loading doses of either 10 mg tramadol or 1 mg morphine intravenous increments were administered in a double-blind fashion until the pain control was judged to be satisfactory by the patient. After that the patients received tramadol or morphine by a PCA apparatus (lockout 5 min, tramadol 450 microg kg-1, morphine 45 microg kg-1 bolus). In addition, all patients received 500 mg paracetamol rectally, three times a day. The potency ratio of tramadol to morphine was found to be between 8.5 : 1 (loading) and 11 : 1 (PCA). There was neither a significant difference between the groups in the overall satisfaction of the analgesic medication nor in the visual analogue and verbal rate scales for pain. Women in the tramadol group had more nausea and vomiting during the administration of loading doses (P < 0.05) and more patients in the tramadol group (7) than in the morphine group (3) (NS) wanted to discontinue the PCA therapy before the end of the study due to nausea. Sedation or blurred vision prevented the performance of the psychomotor tests in 22 and 32% of the tramadol and morphine patients, respectively. The remaining patients performed similarly in the Digit Symbol Substitution Test. In women receiving intravenous PCA for analgesia after microvascular breast reconstruction tramadol and morphine provided comparable postoperative analgesia with similar sedative effects. However, tramadol was associated with a disturbingly high incidence of nausea and vomiting.
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PMID:Comparison of intravenous patient-controlled analgesia with tramadol versus morphine after microvascular breast reconstruction. 1096 47

The success of out-patients laparoscopic surgery depends on a careful selection of patients and the ability of anesthetic technique to ensure a rapid emergence from anesthesia, with a satisfactory control of postoperative pain and the absence of side effects. This study was undertaken to investigate the influence of a total intravenous anesthetic management on the recovery process after laparoscopic varicocelectomy. Fifty-three ASA 1 patients aged 12-41 yrs (mean 26.02) scheduled to undergo laparoscopic varicocelectomy as day surgery procedure were included in this study. Propofol was used as inductor agent and in variable-rate infusion (170-100 mcg/Kg/min) to maintain anesthesia supplemented with Fentanyl (FNT) before endotracheal intubation, incision surgery and if the patient manifested clinical signs of inadequate analgesia. Local anesthesia was infiltrated into the skin before incision. Tramadol 100 mg and Ketorolac 30 mg were administered before the end of surgery to delay the onset of the postoperative pain. Pain was evaluated using a self-rating visual analoque scale (VAS) ranging from 0 to 10 at 0-0.5 hrs postoperatively and every 2 hrs until discharge. At the same time nausea was clinically evaluated using a scale ranging from 0 to 3. Postoperative pain and nausea (PONV) treatment were standardized. Patients were discharged by Post-Anesthesia Discharge Scoring System (PADS). Mean operating time was 34.2 min and mean estubation time was 11.6 min. At time 0 all patients had VAS pain score < 3, on the same time 2 of patients was treated for mild PONV; mean time to first request for postoperative analgesia treatment in 89% of patients was more than 6 hrs, 5 patients required pain treatment before discharge in a mean time 216' +/- 156'. Using the PADS system, 64% of patients were discharged at 4 hrs and 89% at 6 hrs after surgery. One patient was admitted to hospital for an overnight stay for walking dizziness; another was readmitted for surgical complications. This results suggest that the proposed anesthetic management provided adequate pain control with minimun postoperative nausea and a good recovery rate. This permitted a short postoperative hospital stay without compromising in safety, efficacy, or patient satisfaction.
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PMID:[Laparoscopic surgery of varicocele. Role of total endovenous anesthesia in same-day discharge]. 1112 41

We compared in a prospective, randomized, double-blinded study the analgesic efficacy of three drugs in 120 ASA I and II patients scheduled to undergo ambulatory hand surgery with IV regional anesthesia. At discharge, oral analgesic tablets were prescribed as follows: tramadol 100 mg every 6 h, metamizol 1 g every 6 h, and paracetamol (acetaminophen) 1 g every 6 h. Rescue medication consisted of oral dextropropoxyphene 100 mg on demand. Analgesic efficacy was evaluated by self-assessment of pain intensity by visual analog score at six different time intervals during the 48-h study period. Patients also recorded global pain relief on a 5-grade scale, total number of study and rescue analgesic tablets, frequency and severity of adverse effects, sleep pattern, and overall satisfaction. None of the study drugs alone provided effective analgesia in all patients. The percentage of patients who required supplementary analgesics was 23% with tramadol, 31% with metamizol, and 42% with acetaminophen. Tramadol was the most effective analgesic, as evidenced by low pain scores, least rescue medication, and fewest number of patients with sleep disturbance. However, the incidence of side effects was also increased with tramadol. Seven patients (17.5%) withdrew from the study because of the severity of nausea and dizziness associated with the use of tramadol. Metamizol and acetaminophen provided good analgesia in about 70% and 60% of patients, respectively, with a decreased incidence of side effects. Despite receiving oral analgesic medication, up to 40% of patients undergoing hand surgery experienced inadequate analgesia in this controlled trial. Although tramadol was more effective, its use was associated with the highest frequency and intensity of adverse effects and the most patient dissatisfaction. Metamizol and acetaminophen provided good analgesia with a small incidence of side effects. For patients undergoing ambulatory hand surgery, postoperative pain can last longer than 2-3 days, and there is a need for both better education before the procedure and oral analgesic therapy at home.
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PMID:Postoperative analgesia at home after ambulatory hand surgery: a controlled comparison of tramadol, metamizol, and paracetamol. 1115 30

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

We evaluated the use of remifentanil administered as a component of an inhalation or of a Target Controlled Infusion (TCI) anesthetic technique during outpatient oral surgery. Sixty-three unpremedicated patients undergoing removal of four impacted third molars participated to this prospective, randomized study. Anesthesia was induced with Propofol and Rocuronium. Remifentanil 1 microgram.kg-1 i.v. was given over 30 s followed by a continuous infusion reduced from 25% each time a tooth was removed (0.25-->0.0625 microgram.kg-1 min-1). Anesthesia was maintained with Desflurane (group D, n = 31) (end-tidal concentration 4-6%) or Propofol (group P, n = 32) (initial infusion TCI 8 micrograms.ml-1 reduced to 2-3 micrograms.ml-1 after intubation). Corticosteroids, a non-steroidal anti-inflammatory drug (NSAID) (Diclofenac) and a partial mu agonist drug (Tramadol) were administered i.v. during the procedure to prevent early postoperative pain. Recovery time, postoperative pain, recovery of cognition and nausea or vomiting were also evaluated during the first six postoperative hours. Overall mean systolic blood pressures and heart rate were similar in the two groups during surgery. Mean times to extubation and to recall of birth-date and room number were also similar. The quality of awakening was good in the two groups. Most patients complained of moderate pain or had no pain during the first six postoperative hours. The incidence of nausea and vomiting was similar in both groups. No other side effect was observed. These data suggest that the association of Remifentanil, Methylprednisolone, Diclofenac and Tramadol is an useful technique in ambulatory oral surgery in two comparable anesthetic regimens.
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PMID:Use of remifentanil in combination with desflurane or propofol for ambulatory oral surgery. 1153 10

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