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Query: UMLS:C0043352 (
xerostomia
)
4,250
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
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.
...
PMID:Effects of tramadol and tilidine/naloxone on oral-caecal transit and pupillary light reflex. 1068 12
It is well accepted that long-term administration of opioids results in a dose-related constipation. No data so far have demonstrated conclusively whether such constipation is also seen after intake of a controlled release formulation. It was therefore of interest to evaluate whether increasing doses of a controlled release formulation of dihydrocodeine (DHC, CAS 125-28-0) after oral administration also induces a dose-related increase in constipation. Additionally, it was of interest to study whether such a peripheral opioid-related side effect is also seen in another, central receptor-mediated effect, the constriction of the pupil, at clinically relevant doses. Twelve volunteers were given controlled release DHC (60 and 120 mg, respectively) or placebo orally within a randomized, double-blind cross-over study. In order to determine the degree of constipation, oro-cecal 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, peripherally and centrally mediated effects were compared to placebo. DHC at both dosages induced a significant (p < 0.01) prolongation of oro-cecal transit time when compared to placebo. However, prolongation of oro-cecal transit was not significantly longer when comparing the lower (60 mg) with the higher dose (120 mg). DHC also induced a significant (p < 0.005) depression of the pupillary light reflex from 53.9 mm (control) to 8.3 and 7.4 mm, respectively. Similar to intestinal transit, the pupillary light reflex was not significantly different among the two doses of DHC. Also, both dosages induced a similar amount of side effects. Tiredness and
dry mouth
were reported in 80% after both doses while vertigo was reported in 5% and 1% complained of headache. None of the volunteers reported nausea or emesis. It is concluded that
opioid receptor
sites, which are located in the plexus myentericus of the intestinal wall, are responsible for the delay in propulsion. Because of the controlled release of a fixed amount of DHC over time there is constant binding of the ligand followed by a constant conformational change of peripheral and central receptor sites. Thus constant release induces no dose-related increase in oro-cecal transit and inhibition of the pupillary light reflex.
...
PMID:Dose-related effects of controlled release dihydrocodeine on oro-cecal transit and pupillary light reflex. A study in human volunteers. 1121 27
The three-step analgesic ladder, originally proposed for cancer pain relief by the World Health Organization (WHO), is now widely employed for all types of pain, including the chronic pain of musculoskeletal disease. Tramadol, an analgesic with weak
opioid receptor
affinity and possessing monoaminergic activity, has proved suitable for use at Step 2 of the WHO ladder. Owing to its pharmacological properties, tramadol is more appropriate than NSAIDs for patients suffering from gastrointestinal and renal problems. Importantly, the analgesic potency of tramadol is greater than that of NSAIDs and of other weak opioids (codeine, dextropropoxyphene). It also causes fewer opioid-type adverse effects, e.g. nausea, drowsiness, vomiting,
dry mouth
and constipation. In chronic musculoskeletal pain it is recommended that tramadol should be given by mouth and by the clock; the initial dose should be titrated upward gradually to reach the individual level required for suitable pain control. This dosage strategy will also minimise the usual opioid-type adverse effects encountered with tramadol. Four recent publications are reviewed to illustrate the efficacy of tramadol, alone or in conjunction with an NSAID, in the management of low back pain, osteoarthritis pain and breakthrough pain.
...
PMID:Tramadol in musculoskeletal pain--a survey. 1195 1
Opioid-induced bowel dysfunction (OIBD) comprises gastrointestinal (GI) symptoms, including
dry mouth
, nausea, vomiting, gastric stasis, bloating, abdominal pain, and opioid-induced constipation, which significantly impair patients' quality of life and may lead to undertreatment of pain. Traditional laxatives are often prescribed for OIBD symptoms, although they display limited efficacy and exert adverse effects. Other strategies include prokinetics and change of opioids or their administration route. However, these approaches do not address underlying causes of OIBD associated with opioid effects on mostly peripheral opioid receptors located in the GI tract. Targeted management of OIBD comprises purely peripherally acting
opioid receptor
antagonists and a combination of
opioid receptor
agonist and antagonist. Methylnaltrexone induces laxation in 50%-60% of patients with advanced diseases and OIBD who do not respond to traditional oral laxatives without inducing opioid withdrawal symptoms with similar response (45%-50%) after an oral administration of naloxegol. A combination of prolonged-release oxycodone with prolonged-release naloxone (OXN) in one tablet (a ratio of 2:1) provides analgesia with limited negative effect on the bowel function, as oxycodone displays high oral bioavailability and naloxone demonstrates local antagonist effect on opioid receptors in the GI tract and is totally inactivated in the liver. OXN in daily doses of up to 80 mg/40 mg provides equally effective analgesia with improved bowel function compared to oxycodone administered alone in patients with chronic non-malignant and cancer-related pain. OIBD is a common complication of long-term opioid therapy and may lead to quality of life deterioration and undertreatment of pain. Thus, a complex assessment and management that addresses underlying causes and patomechanisms of OIBD is recommended. Newer strategies comprise methylnaltrexone or OXN administration in the management of OIBD, and OXN may be also considered as a preventive measure of OIBD development in patients who require opioid administration.
...
PMID:Emerging therapies for patients with symptoms of opioid-induced bowel dysfunction. 2593 15
