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

Opioids have an unjustified reputation for causing mania in cats, but with refinements in dosing they are now used successfully in this species. The mu-opioid agonists are generally considered the best analgesics. Morphine (0.1-0.3 mg/kg) is effective in a clinical setting. Methadone (up to 0.5 mg/kg) has a similar profile to morphine. Pethidine (Demerol, meperidine; 2-5 mg/kg) is a useful analgesic with a faster onset but shorter duration of action than morphine. Oxymorphone and hydromorphone (0.05-0.1 mg/kg) are widely used in the USA. These opioids are more potent (up to 10 times), and longer acting than morphine in cats. Butorphanol (0.1-0.4 mg/kg) is a mu-opioid antagonist that produces its analgesic actions through kappa agonist activity. It rapidly reaches a ceiling effect, is short acting and is a weaker analgesic than pure mu opioids. Buprenorphine (0.01-0.02 mg/kg), a partial mu-agonist, is the most popular opioid used in small animal practice in the UK, other parts of Europe, Australia and South Africa. In clinical studies it has produced better analgesia than several other opioids and appears to be highly suitable for perioperative pain management in cats. NSAIDs are also used in cats for pain management, although cats metabolise these differently from other species. With appropriate dosing, carprofen (1-4 mg/kg) and meloxicam (0.3 mg/kg) have proved highly effective with few side effects. The use of ketoprofen (2 mg/kg), tolfenamic acid (4 mg/kg) and vedaprofen (0.5 mg/kg) has been reported in cats. Other less traditional analgesics such as ketamine, medetomidine and local anaesthetics are also used for clinical pain management. The transmucosal, transdermal and epidural routes offer novel methods for administration of analgesic drugs and have considerable potential for improving techniques in feline pain management.
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PMID:Pain management in cats--past, present and future. Part 2. Treatment of pain--clinical pharmacology. 1536 64

Methadone is a synthetic opioid, used both as an analgesic in severe pain relief and now mainly in the treatment of opiate dependence. Such use of the drug has increased as its advantages have become widely recognized. There are undesirable outcomes from its greater use, including a substantial market in diverted methadone and a high number of deaths where the drug has been implicated. It is important to understand how and why methadone causes death so that such fatalities can be minimized, and to disseminate such information. This paper presents an overview of the chief effects of methadone on the human body, considering its metabolism, drug interactions and tolerance. The principal mechanisms by which methadone causes death are discussed: respiratory depression, aspiration of vomit, pulmonary oedema, bronchopneumonia, cardiac problems and renal failure. Many such deaths are preventable, if drug interactions and polydrug use are avoided, its longer period of metabolism and individuals' tolerance levels are considered. It is hoped that this paper will (a) help guide health professionals in their management and treatment of patients participating in methadone treatment programmes, and (b) provide some basic information for those dealing with individuals who have consumed methadone.
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PMID:The effects of methadone and its role in fatalities. 1537 62

Methadone is effective for chronic cancer pain, but its early pharmacodynamic profile and effectiveness for breakthrough pain remain uncertain. This was an open-label, non-randomized, crossover study comparing the use of oral methadone for breakthrough pain with patients' usual opioid. Study variables included pain intensity (pretreatment and at 10-minute intervals post treatment), treatment-related side effects, and treatment satisfaction. In 37 discrete episodes of breakthrough pain, onset of analgesic effect of a titrated dose of oral methadone was rapid for all patients; 3 of 6 study patients experienced an onset of relief by 10 minutes post-ingestion. The adverse effect profile of oral methadone was not different from patients' usual 'rescue' opioid, and patients were moderately to completely satisfied with oral methadone as a breakthrough pain medication. These observations suggest that oral methadone can have a rapid onset of analgesic action and may have a legitimate role in the management of cancer-related breakthrough pain.
J Pain Symptom Manage 2004 Dec
PMID:Characterization of the early pharmacodynamic profile of oral methadone for cancer-related breakthrough pain: a pilot study. 1558 88

Topical morphine has been used on open wounds for pain management, but has a variable duration of action not suitable for palliative dressing changes. The objective of this study is to find an opioid and delivery method that would provide long-lasting pain relief between dressing changes. Methadone powder (100 mg) was mixed in Stomahesive powder (10 g) and sprinkled on the open wound once daily at the time of dressing change. Four cases are presented with varying results using the methadone/Stomahesive mixture. Exudative wounds with exposed tissue work best, whereas dry wounds with eschar show less response. Topical methadone powder can be effective for pain relief in open, exudative wounds with little eschar. Further research questions are raised.
Clin J Pain
PMID:Analgesic effects of topical methadone: a report of four cases. 1572 14

Methadone is a synthetic opioid with potent analgesic effects. Although it is associated commonly with the treatment of opioid addiction, it may be prescribed by licensed family physicians for analgesia. Methadone's unique pharmacokinetics and pharmacodynamics make it a valuable option in the management of cancer pain and other chronic pain, including neuropathic pain states. It may be an appropriate replacement for opioids when side effects have limited further dosage escalation. Metabolism of and response to methadone varies with each patient. Transition to methadone and dosage titration should be completed slowly and with frequent monitoring. Conversion should be based on the current daily oral morphine equivalent dosage. After starting methadone therapy or increasing the dosage, systemic toxicity may not become apparent for several days. Some medications alter the absorption or metabolism of methadone, and their concurrent use may require dosing adjustments. Methadone is less expensive than other sustained-release opioid formulations.
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PMID:Methadone treatment for pain states. 1583 38

The effects of opioids usually parallel the plasma concentrations but with a temporal shift. This temporal shift differs between opioids. It is small with alfentanil or remifentanil and very long with the active metabolite of morphine, morphine-6-glucuronide (M6G). The mathematical and experimental techniques for modeling these pharmacokinetic-pharmacodynamic (PK/PD) relationships were developed in the late 1970s. The delay between plasma concentrations and effects is accounted for by the introduction of a hypothetic effect compartment, which is linked to the plasma compartment by a first-order transfer function with a rate constant k(e0). The effects are then linked to the concentrations at effects site by standard pharmacodynamic models such as sigmoid ("E(max)") models or power models, depending on the actual effect measure. These principles were first applied to the opioids fentanyl and alfentanil in 1985. Since then, PK/PD of opioids have been repeatedly assessed, using EEG derived parameters, pupil size, and experimental and clinical pain as effect measures. The opioids of the fentanyl group, methadone, morphine, and piritramid, are today well characterized with respect to their PK/PD properties. Alfentanil and remifentanil are very fast equilibrating opioids with equilibration half-lives between plasma and effect site of about 1 minute. They are followed by fentanyl and sufentanil, each with equilibration half-lives of about 6 min. Methadone equilibrates with a half-life of about 8 min. Morphine, in contrast, equilibrates with a half-life of 2-3 h. The slowest opioid with respect to plasma-effect site transfer is M6G, with an equilibration half-life of about 7 h. PK/PD modeling has advanced the understanding of the time course of the clinical effects of opioids after various dosing regimens. It may provide a rational basis for the selection of opioids in clinical circumstances. PK/PD modeling of opioids may also be employed for the design and the interpretation of experiments addressing clinical effects of opioids.
J Pain Symptom Manage 2005 May
PMID:Pharmacokinetic-pharmacodynamic modeling of opioids. 1590 50

The synthetic opioid methadone has generated much interest in recent years among clinicians involved in the management of intractable chronic cancer pain. Its use as an analgesic is starting to extend to the treatment of noncancer pain, particularly neuropathic pain. Unfortunately, the evidence for its use in the management of neuropathic pain is limited to a few case studies. We examined retrospectively during a 12-month study period the clinical response of all 13 patients at our pain clinic who were prescribed methadone in an attempt to control neuropathic pain resistant to conventional analgesics. A questionnaire was also administered to the 9 patients who continued to take methadone at 12 months posttreatment. A total of 4 patients (31%) discontinued it by the end of the 12-month study period. Patients discontinued methadone due to the absence of pain relief and due to various intractable, undesirable side effects. Somnolence was the most common adverse effect reported, followed by nausea, constipation, and vomiting. All patients took coanalgesics (eg, amitriptyline, gabapentin) or other analgesics (eg, morphine, nonsteroidal anti-inflammatory drugs) during methadone treatment to control pain. The 9 patients who continued to take methadone at 12 months reported experiencing on average 43% pain relief (range 0-80%), 47% improvement in quality of life (range 0-100%), and 30% improvement in quality of sleep (range 0-60%). Methadone was effective at relieving pain and ameliorating quality of life and sleep in 62% of patients. These findings suggest that methadone can offer an acceptable success rate for the treatment of neuropathic pain. Prospective randomized, placebo-controlled studies are now needed to examine more rigorously the benefits of methadone for this type of pain.
Clin J Pain
PMID:Management of chronic neuropathic pain with methadone: a review of 13 cases. 1595 57

Methadone is a strong opioid analgesic that has been used successfully in cancer pain management. The oral route of administration is generally preferred for opioid analgesics. However that route sometimes cannot be used. Experience with continuous subcutaneous methadone infusions has produced local intolerance. The aim of this study was to analyze the use of intermittent subcutaneous methadone injections. Ten patients whose pain was well-controlled with oral methadone (average dose 30 mg, range 10 to 120 mg) participated in the study. A subcutaneous small vein needle (butterfly) was used exclusively for administration of methadone. Over a period of seven days the local discomfort of each injection was evaluated by means of a Verbal Numerical Rating Scale (NRS) and the site of infusion was observed. When any degree of erythema or inflammation was seen, the infusion site was changed. The initial subcutaneous dose was the same as the previously administered oral dose. A daily record was kept of the dose used, level of pain, and toxicity symptoms. This close vigilance was aimed at avoiding dosage errors due to variations among individuals in acceptance to previous oral medication. Changes in dosage were allowed according to standard medical criteria. Two patients were withdrawn from the study due to non-painful irritation at the infusion point. Another eight patients tolerated repeated administration of subcutaneous methadone over seven days. Any local irritation from subcutaneous methadone that occurred was managed satisfactorily by changing the infusion site and limiting doses to 30 mg. In seven of 182 repeat administration, injection site changes were necessitated by local irritation. The NRS for local discomfort was 2/10. The two patients who were intolerant of the subcutaneous injections were receiving injected doses which were significantly higher than the others (42 mg as compared to 25 mg). Dose adjustments needed when changing from the oral to the subcutaneous methadone route were minimal. Subcutaneous intermittent administration of methadone appears to be a useful alternative to oral administration in selected clinical situations when oral administration is not feasible.
J Pain Palliat Care Pharmacother 2005
PMID:Intermittent subcutaneous methadone administration in the management of cancer pain. 1606 56

Methadone is a synthetic opioid agonist and N-methyl-D-aspartate (NMDA) receptor antagonist that is being increasingly used in pain management, particularly for pain that is resistant to conventional opioids. We describe two patients with neurotoxic side effects on escalating doses of parenteral hydromorphone with uncontrolled cancer pain who were successfully converted to oral methadone at a dose much smaller than predicted. The phenomenon of increasing pain despite opioid dose escalation is discussed and the rationale for the use of methadone in this situation is described. While methadone is useful for patients with unremitting pain on another opioid, existing conversion regimens do not specifically take into account the setting of dose escalation. Clinical guidelines for rotation to methadone after dose escalation of the previous opioid are needed to avoid toxicity including respiratory depression. A possible conversion method for rotation to methadone for patients with escalating pain and opioid use is suggested.
J Pain Palliat Care Pharmacother 2005
PMID:Rotation to methadone after opioid dose escalation: How should individualization of dosing occur? 1606 58

Methadone, although having been available for approximately half a century, is now receiving increasing attention in the management of chronic pain. This is due to recent research showing that methadone exhibits at least three different mechanisms of action including potent opioid agonism, N-methyl-D-aspartate antagonism and monoaminergic effects. This, along with methadone's excellent oral and rectal absorption, high bioavailability, long duration of action and low cost, make it a very attractive option for the treatment of chronic pain. The disadvantages of significant interindividual variation in pharmacokinetics, graduated dose equivalency ratios based on prerotation opioid dose when switching from another opioid, and the requirement for special exemption for prescribing methadone make it more complicated to use. The present review is intended to educate physicians interested in adding methadone to their armamentarium for assisting patients with moderate to severe pain.
Pain Res Manag 2005
PMID:A review of the use of methadone for the treatment of chronic noncancer pain. 1660 92


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