Lona Louring Christrup

The mu1, mu2, delta, kappa opioid receptor binding profiles of methadone stereoisomers and morphine

The finding affinities of racemic methadone and its optical isomers R-methadone and S-methadone were evaluated for the opioid receptors mu1, mu2, delta and kappa, in comparison with that of morphine. The analgesic R-methadone had a 10-fold higher affinity for mu1 receptors than S-methadone (IC50 3.0 nM and 26.4 nM, respectively). At the mu2 receptor, the IC50 value of R-methadone was 6.9 nM and 88 nM for S-methadone, respectively. As expected, R-methadone had twice the affinity for mu1 and mu2 receptors than the racemate. All of the compounds tested had low affinity for the delta and kappa receptors. This results suggests that S-methadone does not essentially contribute to opioid effect of racemic methadone. R-methadone has a receptor binding profile which resembles that of morphine.

Recommended use of morphine in neonates, infants and children based on a literature review: Part 1—Pharmacokinetics

The English language literature has been reviewed in order to evaluate the present knowledge on morphines metabolism and pharmacokinetics in children. The majority of preterm neonates are capable of glucuronidating morphine, but birth weight, gestational and postnatal age influence the glucuronidation capability. Term neonates, infants, and children are able to produce morphine glucuronides. For the reported pharmacokinetics parameters a meta‐analysis was made; volume of distribution, estimated to be 2.8±2.6 l·kg−1, seems to be regardless of age, while half‐life and clearance were found to be related to age. Half‐life was estimated to be 9.0±3.4 h in pre‐term neonates, 6.5±2.8 h in term neonates aged 0–57 days, and 2.0±1.8 h for infants and children aged 11 days to 15 years. Clearance was estimated to be 2.2±0.7 ml·min−1·kg−1 for preterm neonates, 8.1±3.2 ml·min−1·kg−1 in term neonates aged 0–57 days, and 23.6±8.5 ml·min−1·kg−1 in infants and children more than 11 days old.

A comparative study of oxycodone and morphine in a multi-modal, tissue-differentiated experimental pain model.

Abstract Visceral pain can be difficult to treat with classical &mgr;‐opioid agonists and it has been suggested to use opioids with distinct pharmacological profiles. In animal experiments, oxycodone has shown different effects compared to morphine, and clinical observations have shown that oxycodone may occasionally be superior to, e.g., morphine in the treatment of visceral pain. In the current study, we randomised 24 healthy subjects to treatment with either morphine (30 mg), oxycodone (15 mg) or placebo in a crossover study. The experimental pain model involved multi‐modal (mechanical, thermal and electrical) pain tests in the skin, muscles and viscera. The pain tests were carried out at baseline and 30, 60 and 90 min after oral administration of the drugs. The model showed effect of the two opioids compared to placebo on all stimulus modalities in all three types of tissues (all P values <0.001). Both opioids attenuated the sensory response mainly to painful stimulations. Morphine and oxycodone were equipotent in pain modulation of the skin and muscles, but oxycodone had superior analgesic effect to both morphine and placebo on the mechanical (P < 0.001) and thermal (P < 0.001) stimulations of the oesophagus. In conclusion, the multi‐modal and tissue‐differentiated pain model could link findings from animal experiments to clinical findings. A different pharmacological profile of oxycodone compared to that of morphine was shown, and thus oxycodone may be a useful alternative to morphine in the treatment of visceral pain syndromes.

Recommended use of morphine in neonates, infants and children based on a literature review: Part 2–Clinical use

The indication for morphine use is primarily pain, but also a combined analgesic and sedative effect may be the rationale behind morphine administration. Paediatric morphine regimens have been reported for children with postoperative pain, pain related to cancer, sickle cell crisis pain, burns and AIDS. No dose response curve for morphine in neonates, infants or children has been established, and different levels for the minimum effective plasma concentration have been estimated. The side effects observed in neonates, infants, and children are similar to those observed in adults, and neonates do not seem to be more susceptible to respiratory depression than older children. Despite shortcomings in the knowledge of the pharmacodynamics of morphine, it can be considered safe to administer morphine to neonates, infants or children. Initial regimens has been calculated from the pharmacokinetic parameters of morphine, but treatment must be adjusted according to analgesic effect and incidence of side effects.

Stereoselective pharmacokinetics of methadone in chronic pain patients.

SummaryTen patients with chronic pain were randomized to an open, balanced, crossover study. Each patient received two different preparations of racemic methadone, i.e., tablets and intravenous infusion. The pharmacokinetic parameters of the R- and S-enantiomers of the racemate are reported. The ana

Relationships Among Morphine Metabolism, Pain and Side Effects During Long-Term Treatment: An Update

The two metabolites of morphine, morphine-3-glucuronide (M3G) and morphine-6-glucuronide (M6G), have been studied intensively in animals and humans during the past 30 years in order to elucidate their precise action and possible contribution to the desired effects and side effects seen after morphine administration. M3G and M6G are formed by morphine glucuronidation, mainly in the liver, and are excreted by the kidneys. The metabolites are found in the cerebrospinal fluid after single as well as multiple doses of morphine. M6G binds to opioid receptors, and animal studies have demonstrated that M6G may be a more potent analgesic than morphine. Results from human studies regarding the analgesic effect of M6G are not unanimous. The potency ratio between systemic M6G and morphine in humans has not been settled, but is probably lower than previously assumed. Hitherto, only a few studies have found evidence for a contributory effect of M6G to the overall effects observed after morphine administration. Several studies have demonstrated that administration of M6G is accompanied by fewer and a milder degree of opioid-like side effects than observed after morphine administration, but most of the studies have used lower doses of M6G than of morphine. M3G displays very low affinity for opioid receptors and has no analgesic activity. Animal studies have shown that M3G may antagonize the analgesic effect of morphine and M6G, but no human studies have demonstrated this. M3G has also been connected to certain neurotoxic symptoms, such as hyperalgesia, allodynia and myoclonus, which have been observed after administration of M3G or high doses of morphine in animals. The symptoms have been reported sporadically in humans treated primarily with high doses of morphine, but the role of M3G in eliciting the symptoms is not fully elucidated.

Role of active metabolites in the use of opioids

The opioid class of drugs, a large group, is mainly used for the treatment of acute and chronic persistent pain. All are eliminated from the body via metabolism involving principally CYP3A4 and the highly polymorphic CYP2D6, which markedly affects the drug’s function, and by conjugation reactions mainly by UGT2B7. In many cases, the resultant metabolites have the same pharmacological activity as the parent opioid; however in many cases, plasma metabolite concentrations are too low to make a meaningful contribution to the overall clinical effects of the parent drug. These metabolites are invariably more water soluble and require renal clearance as an important overall elimination pathway. Such metabolites have the potential to accumulate in the elderly and in those with declining renal function with resultant accumulation to a much greater extent than the parent opioid. The best known example is the accumulation of morphine-6-glucuronide from morphine. Some opioids have active metabolites but at different target sites. These are norpethidine, a neurotoxic agent, and nordextropropoxyphene, a cardiotoxic agent. Clinicians need to be aware that many opioids have active metabolites that will become therapeutically important, for example in cases of altered pathology, drug interactions and genetic polymorphisms of drug-metabolizing enzymes. Thus, dose individualisation and the avoidance of adverse effects of opioids due to the accumulation of active metabolites or lack of formation of active metabolites are important considerations when opioids are used.

Pharmacokinetics, Efficacy, and Tolerability of Fentanyl Following Intranasal Versus Intravenous Administration in Adults Undergoing Third-Molar Extraction : A Randomized, Double-Blind, Double-Dummy, Two-Way, Crossover Study

OBJECTIVE The aim of this study was to compare the pharmacokinetic profile, as well as the efficacy and tolerability, of i.n. and i.v. administration of fentanyl in acute, episodic pain in patients undergoing third-molar extraction. METHODS In this randomized, double-blind, double-dummy, 2-way, crossover study, patients were randomized to receive 1 of 4 doses (75, 100, 150, or 200 microg) by both the i.n. and i.v. routes in random order, after each of 2 separate molar extractions (interval, >or=1 week). Venous blood samples were obtained for quantification of plasma fentanyl concentrations before and at 1, 3, 5, 7, 9, 12, 15, 25, 40, 60, 90, 120, and 180 minutes after administration. Pain scores (on an 11-point numeric rating scale) were recorded before and at 15, 30, 45, 60, 75, 90, 105, 120, 150, 180, 210, and 240 minutes. Patients indicated the times at which they perceived meaningful pain relief (onset of action) and at which analgesia ended (duration of effect), after which they were able to use rescue medication (time to rescue medication use). RESULTS A total of 24 patients were enrolled (in all, 47 extractions) (46% male; mean age, 24.1 years; 94% white, 6% Asian). Mean T(max) values were 12.8 and 6.0 minutes (P<0.001), times to onset of analgesia were 7 and 2 minutes (P<0.001), and durations of effect were 56 and 59 minutes after i.n. and i.v. administration (P=NS), respectively. Differences in the onsets and durations of analgesia after i.n. and i.v. administration of single doses were not significantly different, and neither was the difference in overall analgesia, with pain scores returning to near-predose values at statistically similar times after dosing. Duration of effect was directly related to i.n. fentanyl dose, with significantly less use of rescue medication after i.n. than after i.v. administration (P<0.005). The i.n. and i.v. formulations were both well tolerated, with similar numbers of nasally related adverse events recorded for both routes of administration. CONCLUSIONS Onsets and durations of analgesia were not significantly different between single doses of i.n. and i.v. fentanyl in these adults undergoing third-molar extraction. Both i.n. and i.v. administration were generally well tolerated.

Is development of hyperalgesia, allodynia and myoclonus related to morphine metabolism during long-term administration?: Six case histories

Background: Recently, clinical reports have suggested a relationship between the occurrence of hyperalgesia, allodynia and/or myoclonus and treatment with high doses of morphine in humans. Although few clinical descriptions of these phenomena are available, experimental work supports the notion that high doses of morphine may play a pathogenetic role in the observed behavioural syndrome.

Neuropsychological assessment of chronic non-malignant pain patients treated in a multidisciplinary pain centre.

The aim of the study was to investigate the influence of pain, sedation, pain medications and socio‐demographics on cognitive functioning in chronic non‐malignant pain patients. Chronic non‐malignant pain patients (N = 91) treated in a multidisciplinary pain centre were compared with age and sex matched healthy volunteers (N = 64). Furthermore four subgroups of patients were examined: Group 1 (N = 21) received no pain medications, group 2 (N = 19) were in long‐term oral opioid treatment, group 3 (N = 18) were treated with antidepressants and/or anticonvulsants and group 4 (N = 33) were treated with a combination of long‐term oral opioids and antidepressants and/or anticonvulsants. Assessments comprised pain (PVAS) and sedation (SVAS), Continuous Reaction Time (CRT) testing for sustained attention, Finger Tapping Test (FTT) testing for psychomotor speed, Paced Auditory Serial Addition Task (PASAT) testing for information processing and working memory and Mini Mental State Examination (MMSE). CRT and FTT were impaired in the total patient sample. Treatment with opioids was associated with poorer performance of PASAT. High scores of PVAS and SVAS were associated with poor performance of PASAT and CRT, respectively. MMSE seems to be too insensitive for detecting the milder forms of cognitive impairment found in chronic non‐malignant patients.