UMLS:C0040822 - FACTA Search

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Query: UMLS:C0040822 (tremor)
18,428 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The relationship between wet-dog shaking (WDS) and afterdischarge (AD) elicited by dorsal hippocampal stimulation was investigated. The number of the WDS during a 150-s observation period was 9.6 +/- 2.0 (mean +/- SEM) and no WDS was seen during the non-seizure period. The effects of morphine and neuroleptics on WDS and AD were also investigated. Morphine significantly inhibited the number of WDS elicited by hippocampal stimulation. Naloxone significantly antagonized the inhibitory effect of morphine. Haloperidol and chlorpromazine significantly and dose-dependently inhibited the number of WDS at very small doses. The inhibitory effect of chlorpromazine on WDS was not antagonized by pretreatment with naloxone. The present results suggest that central dopaminergic mechanisms may be important in WDS elicited by hippocampal stimulation. The effect of morphine on WDS is probably mediated via an opioid receptor having a modulating effect on central dopaminergic mechanisms.
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PMID:Effects of morphine and neuroleptics on wet-dog shaking behavior elicited by hippocampal stimulation in rats. 286 Jun 86

In untreated rats, the intraperitoneal injection of putrescine evoked a typical wet-dog shake response, that was maximal at a dose of 300 mg/kg and at room temperature (22 degrees) (number of shakes: 84.00 +/- 17.90/hr). In a hot environment (30 degrees) the number of shakes was markedly reduced (26.90 +/- 5.19/hr). The putrescine-induced shaking behaviour was unaffected by atropine, bicuculline, chlorpheniramine, cimetidine, methysergide, naloxone and noradrenaline, but was markedly antagonized by morphine. Naloxone pretreatment nullified the antagonistic activity of morphine. Histological studies showed marked alterations in brain vascular permeability, which was increased by putrescine. Morphine completely prevented this putrescine-induced vascular effect. These results suggest a correlation between WDS produced by putrescine and increase in brain vascular permeability. Furthermore they show that morphine can affect brain vascular permeability.
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PMID:Shaking behaviour induced by putrescine in naive rats: a pharmacological and histological study. 289 67

The in vivo selectivity of the novel delta opioid-receptor antagonist N,N-bisallyl-Tyr-Gly-Gly-psi-(CH2S)-Phe-Leu-OH (ICI 154129) was examined in several opioid-selective models. Antagonism at the delta receptor was demonstrated in the striatal head-turn model in the rat. Intrapallidal injection of the relatively selective delta-receptor agonist D-Ala2,D-Leu5-enkephalin (0.5 micrograms) slowed the head-turn time and this effect was completely prevented by prior subcutaneous administration of ICI 154129 (30 mg/kg). The role of delta receptors in two classical test situations was studied using the mixed opioid agonist etorphine and the antagonists naloxone and ICI 154129. The drug ICI 154129 (30 mg/kg, s.c.) failed to prevent the antinociceptive effects and stimulation of locomotor activity produced by etorphine, whereas the relatively selective mu-opioid receptor antagonist, naloxone was effective in both test situations. The possible involvement of delta receptors in morphine-induced dependence was studied by monitoring the abstinence behaviour precipitated in rats given pellets of morphine by either ICI 154129 or naloxone. Naloxone (0.5 mg/kg, i.p.) precipitated a characteristic withdrawal syndrome in conscious rats and, at a much smaller dose (0.02 mg/kg, i.p.), induced shaking behaviour in pentobarbitone-anaesthetised rats. No withdrawal signs were observed in either model after injection of ICI 154129 (30 mg/kg, s.c.), suggesting that the delta receptors are not involved in dependence on morphine.
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PMID:In vivo evidence for the selectivity of ICI 154129 for the delta-opioid receptor. 298 29

beta-Endorphin (5-80 microgram) or [D-Ala2,Met5]enkephalinamide (DALA) (5-40 microgram) was administered intracerebroventricularly to rats. With both opioid peptides, there was no direct relationship between log dose and mean number of wet-dog shakes (WDS) that occurred during the following 15 min. When the results were analyzed quantitatively, the dose of DALA that caused 50% of the rats to shake at least twice was 8.6 microgram (4.9-15 microgram). beta-Endorphin had such poor efficacy that an ED 50 could not be obtained. Morphine (1 and 5 mg/kg, s.c.) antagonized shaking caused by the optimal dose of DALA (20 microgram). Naloxone (0.1-10 mg/kg, s.c.) attenuated both DALA- and beta-endorphin-induced WDS in a dose-related manner. This latter result differentiates shaking associated with opioid peptides from that caused by thyrotropin releasing hormone (TRH), another endogenous stimulant of WDS in rats. There was no cross-tolerance between RX 336-M (7,8-dihydro-5',6'-dimethylcyclohex-5'-eno-1',2',8',14 codeinone), a novel shake inducing agent, and beta-endorphin. This finding again differentiates beta-endorphin-induced shaking from that caused by TRH and also from that associated with several exogenous stimulants of WDS.
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PMID:A quantitative analysis of the shaking behavior induced in rats by beta-endorphin and [D-Ala2, Met5]enkephalinamide. 627 33

Naloxone in doses up to 2 mg/kg and beta-endorphin in doses up to 1 mg/kg had no suppressive effect on pressure-induced tremor or cortical EEG activity in the guinea pig. The lack of effect of either naloxone or beta-endorphin on the HPNS provides evidence that opiate receptor mechanisms are not significantly involved in this syndrome.
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PMID:Failure of naloxone or beta-endorphin to affect pressure-induced tremor in guinea pig. 631 Aug 41

This study examined whether the antinociception produced by electrical stimulation of medullary raphe nuclei is mediated by activation of monoaminergic neurons projecting to the spinal cord. Ninety-four sites distributed about the midline of the medulla were stimulated and their ability to produce antinociception was determined using two different analgesiometric tests. Stimulation of sites in the nuclei raphe pallidus and raphe obscurus did not produce antinociception, but rather, produced tremor and, on occasion, extensor rigidity. In contrast, stimulation at sites located in the nucleus raphe magnus and the adjacent nucleus reticularis paragigantocellularis produced antinociception, as indicated by increased tail flick latencies and decreased responsiveness to noxious pinch applied to the extremities. Intrathecal administration of saline prior to electrical stimulation of these sites did not attenuate either the elevation of tail flick latencies or the decreased responsiveness to pinch. However, intrathecal administration of 30 micrograms of either methysergide or phentolamine prior to stimulation at these same sites significantly attenuated the increase in tail flick latency and restored responsiveness to pinch. Naloxone (1 mg/kg, s.c.) did not attenuate the stimulation-produced antinociception evoked from any of these sites. These data support the postulate that the antinociceptive effect of electrical stimulation of the nucleus raphe magnus and the nucleus reticularis paragigantocellularis is mediated by activation of serotonergic and noradrenergic neurons projecting to the spinal cord. The inability of either methysergide or phentolamine alone to completely antagonize the elevation of tail flick latency further suggests that the serotonergic and noradrenergic bulbospinal systems are coactivated by electrical stimulation of these sites.
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PMID:Antagonism of stimulation-produced antinociception by intrathecal administration of methysergide or phentolamine. 632 54

A comparison of several methods for developing physical dependence to morphine was made. Male Sprague-Dawley rats were treated with morphine-admixed food (drug-admixed food, DAF; 0.5 and 1 mg/g food), morphine slow release emulsion (SRE; 75, 100 and 150 mg/kg) and morphine (75 mg) pellets. In the SRE and pellet methods, the typical signs of morphine toxicity, such as catatonia, exophthalmos and shallow respiratory movements, were observed 15-20 min after the treatment and these signs were maintained for 14-18 hr. In rats treated with SRE and pellets, plasma morphine levels reached a maximum 1 day after the morphine treatment, and subsequently decreased, while plasma morphine levels in rats treated with DAF increased treatment period-dependently. Withdrawal signs precipitated by naloxone (3 mg/kg, sc) in rats treated with DAF, SRE and pellets were characterized by loss of body weight, shaking, vocalization, diarrhea, ptosis, tooth-chattering, nose bleed, salivation and lacrimation. Naloxone-precipitated withdrawal signs reached a maximum 1-2 days after treatment with SRE and pellets, and were correlated with the duration of DAF treatment. Rats treated with DAF, SRE (150 and 225 mg/kg) and pellets for 3 days, manifested loss of body weight, diarrhea etc. after the morphine withdrawal. Maximum body weight loss in each group was 7-10% at 1-2 days after the morphine withdrawal. It was thus, concluded that physical dependence on morphine can be induced rapidly by these three methods. However, the SRE and pellet methods induced morphine toxicity and it was difficult to maintain physical dependence on morphine in these rats.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Comparison of three methods of inducing physical dependence to morphine in rats using short-term medication]. 654 77

Intracerebroventricular administration of leu5 - and met5 - beta h - endorphin produces sequential behavioral changes characterized by restlessness, eye fixation, head tremor, and exaggerated orienting reaction to external auditory stimuli, accompanied by EEG alterations. These changes take place during three stages. Met5- produces an increase in amplitude and reactivity of the theta rhythm in the hippocampus. Leu5- produces a masking of the theta rhythm by the appearance of spiking activity. Leu5- produces a loss of reactivity to visual stimuli not observed with met5-. The exaggerated reaction to auditory stimuli accompanied by an increased response of the reticular formation indicates a sensitivity of some mesencephalic structures (concerned with the modulation of sensory input) to both endorphins. Naloxone blockade of the subcortical (limbic) activity prominent in Stage II reveals the persistence of the first seen Stage I characteristics. These reticular-neocortical effects persist also into Stage III where they are seen intermixed with the limbic effects most prominent in Stage II. This suggests the presence of two endorphin-sensitive neural systems, only one of which is Naloxone reversible, and is that which in the cat covaries with the excited, hyperattentive state rather than the sedation and immobility phase seen in the rat. This dual system is compared to that described by Jacquet (13).
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PMID:Effects of leucine5 - and methionine5 - beta h - endorphin on behavior and electroencephalogram in cats. 682 99

The present study assessed the ability of various site-selective N-methyl-D-aspartate (NMDA) receptor antagonists to affect the discriminative stimulus properties of naloxone in morphine-dependent rats. Adult male Wistar rats were trained to discriminate 0.1 mg/kg of s.c. naloxone from saline using a Y-maze shock-avoidance procedure. Naloxone-appropriate responding was exhibited as a function of naloxone dose (0.01-1.0 mg/kg, ED50 = 0.03 mg/kg) and was also observed when morphine treatment temporarily was discontinued (8-96 hr, peak at 24 hr). Discriminative stimulus effects of naloxone (0.1-3.0 mg/kg) were antagonized by morphine (10-100 mg/kg). Ligands of peripheral opioid receptors failed to either substitute for naloxone (methylnaloxone, 0.1-3.0 mg/kg) or attenuate naloxone's stimulus effects (loperamide, 1-30 mg/kg). In rats treated with the training dose of naloxone, administration of dizocilpine (0.03-0.3 mg/kg) and D-CPPene (1-10 mg/kg) decreased levels of naloxone-appropriate responding, whereas memantine (1-30 mg/kg), ACEA-1021 (10 and 50 mg/kg) and eliprodil (3-30 mg/kg) seemed to have little or no effects. Meanwhile, all NMDA receptor antagonists produced a decrease in the occurrence of two or more of the following opioid withdrawal signs: weight loss, forelimb tremor, ptosis, diarrhea and "wet-dog"-like shaking. Additionally, dizocilpine (0.1 mg/kg), D-CPPene (5.6 mg/kg) and ACEA-1021 (50 mg/kg) but not memantine (10 mg/kg) or eliprodil (30 mg/kg) significantly reduced the naloxone-appropriate escape area selection when administered during the period of suspended morphine treatment 24 hr after the last morphine injection. Thus, NMDA receptor antagonists appear to inhibit the discriminative stimulus effects of both naloxone-precipitated and spontaneous morphine withdrawal, and this ability depends on the type of antagonist applied.
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PMID:Effects of N-methyl-D-aspartate receptor antagonists on discriminative stimulus effects of naloxone in morphine-dependent rats using the Y-maze drug discrimination paradigm. 973 87

This work was performed to clarify the differences between a long or short development of morphine dependence as well as between a recently installed or a long-term dependence. Morphine withdrawal in rats is a well-characterized phenomenon but this is not so in mice. A study of the principal withdrawal signs have been performed in mice, evaluating their specificity and particular profile of appearance in each type of dependence. Mice were divided into two groups that received increasing doses of morphine every 24 h, three groups that received increasing doses of morphine twice a day for 3 days, and a control group that received saline. Naloxone-induced opiate withdrawal was evaluated following short-term exposition to morphine [Test 1 (T1)--saline and Test 2 (T2)--naloxone] and long-term exposition to morphine [Test 3 (T3)--naloxone and Test 4 (T4)--saline]. Morphine administration twice a day is more effective in inducing opiate dependence than once a day, and with the latter, the duration of morphine exposure increases the intensity of withdrawal signs. Weight loss, diarrhea, body shakes, jumping, paw tremor, ptosis, piloerection, and the modified Gellert-Holtzman scale for mice are specific patterns of naloxone-induced withdrawal. The first four signs allow the discrimination between different levels of opiate dependence. Body care, piloerection, and the modified Gellert-Holtzman scale could be useful to detect conditioned withdrawal.
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PMID:Ethological analysis of morphine withdrawal with different dependence programs in male mice. 1181 12

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