Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0026837 (muscle rigidity)
 1,077 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A study was made of the effects of different volumes of injection product, adrenaline, the alpha 2-adrenoceptor-agonist medetomidine and Mycobacterium butyricum on epidural sufentanil in the rat. Increasing the volume of epidural sufentanil, and similarly decreasing the concentration of the injection product, resulted in a potentiation of the analgesic properties of epidural sufentanil without affecting the effects of the drug on the pinna and cornea reflexes and on muscle tonus. An analogue effect was observed if rats were tested for epidural analgesia during a chronic pain phase after inoculation with Mycobacterium butyricum. Adding adrenaline to epidural sufentanil also resulted in an increased analgesia but there was also a minor potentiation of all other behavioural parameters measured. The alpha 2-adrenoceptor-agonist medetomidine, clearly potentiated all behavioural effects induced by epidural sufentanil. As a consequence, there was no gain in specificity for epidural analgesia. Medetomidine, however, clearly reversed the normally observed skeletal muscle rigidity into a muscle hypotonia. Globally, these results thus indicate that manipulations of the volume of injection, the additional treatment with other drugs and the pain state of the animal can alter the activity of epidural sufentanil. Therefore, it might be concluded that the differences in the duration of analgesia observed with epidural sufentanil between human and animal studies can be partially explained in terms of differences between the experimental conditions.
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PMID:Effects of adrenaline, an alpha 2-adrenoceptor agonist, the volume of injection, and the global pain state of the animal on the activity of epidural sufentanil. 257 73

The experiments examined the characteristics of analgesia produced by different doses of morphine, meperidine (pethidine), fentanyl, and sufentanil after epidural and subcutaneous injection in rats. The specificity of the analgesia was also determined; other in vivo pharmacologic activities (i.e., blockade of pinna and cornea reflexes and production of skeletal muscle rigidity) were monitored as pharmacologic indices of opiate drug activity in the brain. After subcutaneous injection, the opiates produced dose-dependent analgesia, blocked the pinna and cornea reflexes, and induced muscle rigidity. After epidural injection, all four compounds produced dose-dependent analgesia and had greater potency, earlier onset, shorter duration, and greater specificity of analgesic action than was the case after subcutaneous injection. Specificity is defined here as the ratio of the ED50 dose that blocked the pinna reflex to the ED50 dose that produced analgesia. The gains in potency and specificity, but not the gains in onset time and the losses in duration of analgesia, differed considerably among the compounds that were examined. The subcutaneous-to-epidural potency ratio related in a linear manner with the lipid-to-water partition coefficient. The gain in specificity also appeared to be related to lipid solubility. The microgram X kg-1 doses at which the opiates produced analgesia in rats correlate well with the potency of these compounds in producing analgesia after epidural injection in humans. The rat epidural preparation reflected the doses, onset, and specificity, but not the duration, of analgesia produced by epidural opiates in humans.
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PMID:Epidural and subcutaneous morphine, meperidine (pethidine), fentanyl and sufentanil in the rat: analgesia and other in vivo pharmacologic effects. 294 76

Doses of sufentanil (i.e., 0.01, 0.04, 0.16, 0.63, 2.5, 10, and 40 micrograms/rat) were injected either into the lumbar epidural space or intravenously in rats weighing +/- 250 g, and in vivo pharmacologic activities (i.e., prolongation of latency to tail withdrawal in response to noxious heat, blockade of cornea and pinna reflexes, increase of skeletal muscle tone), ex vivo mu-opiate receptor binding (i.e., displacement of specific 3H-sufentanil binding in thalamus, striatum, hippocampus, cortex, mamillary body-medulla oblongata segment, medulla oblongata, and in cervical, thoracic, and lumbar spinal cord), and drug concentrations in plasma, brain, cortex, and cerebellum, were determined. An ED50 dose of intravenous sufentanil of 0.075 micrograms/rat produced analgesia. CNS-mediated in vivo side effects (i.e., blockade of pinna and cornea reflexes, muscle rigidity) were apparent at 6-28 times higher doses. Epidural sufentanil also produced analgesia at an ED50 dose of 0.08 micrograms/rat, but CNS-mediated side effects occurred only at 35 to 76 times higher doses. This greater in vivo selectivity of epidural sufentanil in producing analgesia was consistent with ex vivo binding data that showed that in most areas of brain, but not in spinal cord, more mu-opiate binding occurs with intravenous than with epidural sufentanil. The two routes nonetheless differed by no more than a factor of approximately two in producing detectable levels of sufentanil both in plasma and in brain tissue.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Epidural and intravenous sufentanil in the rat: analgesia, opiate receptor binding, and drug concentrations in plasma and brain. 301 23