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Query: UMLS:C0004134 (
ataxia
)
15,886
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The interactions of caffeine (10 mg/kg p. o.) with various doses of
ethanol
, diazepam or pentobarbital were investigated by observing the ambulatory activity of mice. The ambulatory activities after the coadministration of caffeine with
ethanol
(1.6, 2.4 and 3.2 g/kg p. o.) were significantly higher than those after the single administration of the corresponding doses of individual drugs.
Ethanol
alone significantly increased the activity with
ataxia
at 2.4 and 3.2 g/kg, suggesting that 1.6 g/kg of
ethanol
was an optimum dose for studying the interaction of caffeine with
ethanol
. Although diazepam (0.25, 0.5 and 2 mg/kg s. c.) and pentobarbital (1, 3 and 10 mg/kg s. c.) alone did not change the activity, they significantly reduced the effect of caffeine. Naloxone (1 and 5 mg/kg s. c.) did not modify the effect of caffeine alone, but, at 5 mg/kg, it was effective in significantly reducing the ambulation-increasing effect of caffeine with
ethanol
(1.6 g/kg) to nearly the level of caffeine alone. Ca-cyanamide (5 mg/kg p. o., pretreatment 30 min before), reserpine (1 mg/kg s. c., pretreatment 4 hr before) and alpha-methyl-p-tyrosine (200 mg/kg i. p., pretreatment 1 hr before) reduced the ambulation increment induced by caffeine alone or combination of caffeine with
ethanol
.
Ethanol
, diazepam and pentobarbital are classified as CNS depressants, and caffeine as a CNS stimulant. However, the present experiment demonstrated that the interaction of caffeine with
ethanol
was very different from that of caffeine with diazepam or pentobarbital. In the enhancing interaction of caffeine and
ethanol
, both dopaminergic and endogenous opioid systems may be involved.
...
PMID:Ethanol enhances, but diazepam and pentobarbital reduce the ambulation-increasing effect of caffeine in mice. 144 12
The effects of two structurally different inhibitors of phenylethanolamine-N-methyltransferase, LY 134046 and CGS 19281A were investigated in a holeboard test of directed exploration and locomotor activity. Both compounds dose-dependently reduced exploratory head-dipping without affecting locomotor activity. The interaction of each drug with
ethanol
was also studied by testing the
ataxia
. Administration of these compounds had differential effects in a test of
ethanol
-induced
ataxia
. LY 134046 significantly attenuated
ethanol
-induced
ataxia
whereas CGS 19281A was without effect or (at 50 mg kg-1) potentiated
ethanol
's effect. These results suggest that the
ethanol
attenuating properties of LY 134046 may not solely be due the inhibition of PNMT and that its alpha 2-adrenoceptor blocking properties may be playing a role.
...
PMID:The effects of two different inhibitors of PNMT and their interactions with ethanol. 151 94
Rats selectively bred for high alcohol sleep times (HAS) and those that are less affected (LAS) by hypnotic doses (3.0-3.6 g/kg) of
ethanol
were tested for differential responses to the aversive effects of 1.0 g/kg
ethanol
in a conditioned place preference task. Likewise, the effects of 0.3-1.0 g/kg
ethanol
on spontaneous locomotor activity over a 30-min period, as well as the loss of righting reflex with a higher
ethanol
dose (3.0 g/kg), were determined in these animals. The LAS rats reacted more aversively to 1.0 g/kg during conditioned place aversion testing than the HAS animals and also had a shorter mean sleeping time following 3.0 g/kg
ethanol
. Furthermore, dose-related depression of spontaneous motor activity was seen in the HAS animals and not in the LAS animals over a 30-min period using doses of 0.3, 0.6, or 1.0 g/kg (10% w/v)
ethanol
. Taken together, the results indicate that the intoxicating sequelae of high
ethanol
doses, such as
ataxia
and sedation, may not be correlated with the aversive effects of low
ethanol
doses.
...
PMID:Differences in response to the aversive properties and activity effects of low dose ethanol in LAS and HAS selectively bred rats. 160
Ethylene glycol (EG) is a toxic chemical found in antifreeze and heat exchangers. Standard therapy for EG intoxication in administration of
ethanol
(ETOH) to inhibit its metabolism by alcohol dehydrogenase (ADH). Studies indicate 1,3-butylene glycol (BG) binds to ADH more efficiently than EG and is orally less toxic than EG or ETOH. Male rats were divided into 5 groups of 6 animals. Groups received by oral intubation a single dose of EG (32 mmole/kg), BG (39 mmole/kg) initially and every 6 h up to 72 h, ETOH (39 mmole/kg) initially and every 6 h up to 72 h, or EG initially and then either BG or ETOH every 6 h up to 72 h. Administration of ETOH produced hepatotoxicity and pulmonary pathology as indicated by changes in clinical chemistry, urinalysis, and histopathology, while BG did not. Neither ETOH nor BG produced any apparent nephrotoxicity. ETOH produced
ataxia
, lethargy and central nervous system depression while BG did not. BG produced a higher concentration of urinary EG indicating a better inhibition of ADH metabolism of EG.
Ethanol
produced a higher EG blood concentration than BG.
Ethanol
's higher EG blood concentration may be partially attributed to dehydration and a decreased urine output as well as inhibition of ADH metabolism.
Ethanol
produced mortality in all animals prior to 72 h. The EG/ETOH combination produced mortality more quickly due to additive toxicity of the combination. Lack of any significant toxicity produced by BG and the production of significant toxicities by ETOH indicates that BG is potentially a better antidote than ETOH.
...
PMID:The toxicokinetics of 1,3-butylene glycol versus ethanol in the treatment of ethylene glycol poisoning. 162 60
The role of central adrenoceptors in the
ethanol
-attenuating effects of alpha-2 adrenoceptor blockers was investigated in mice; the centrally active antagonist atipamezole was compared with L 659,066, which penetrates the brain poorly. L 659,066 (1-10 mg/kg) had no effect on the hypothermia induced by
ethanol
(2 g/kg) or
ethanol
ataxia
(2.4 g/kg), whereas atipamezole (1 mg/kg) significantly attenuated both
ethanol
-induced hypothermia and
ataxia
. Atipamezole (1-3 mg/kg) significantly attenuated the
ethanol
-induced reduction in exploratory head-dipping in a holeboard test whereas L 659,066 was only effective at a dose of 1 mg/kg, higher doses (3 and 10 mg/kg) and a lower dose (0.3 mg/kg) were ineffective. Atipamezole was without effect on
ethanol
's locomotor stimulant effect in the holeboard but L 659,066 attenuated this effect at doses less than 3 mg/kg Many alpha-2 adrenoceptor ligands also have affinity for nonadrenergic imidazoline-binding sites. The role these sites may play in attenuating
ethanol
's effects was investigated by comparing RX 821002 (methoxy idazoxan), which has little or no affinity for imidazoline-binding sites with atipamezole. Both atipamezo 1 e (1 mg/kg) and RX 821002 (0.06-0.2 mg/kg) significantly attenuated
ethanol
-induced hypothermia,
ataxia
and reduction in head-dipping, but were without effect on
ethanol
-induced locomotor stimulation. These results suggest that nonadrenergic imidazoline-binding sites are not implicated in the
ethanol
-attenuating properties of alpha-2 adrenoceptor antagonists.
...
PMID:Evidence for central alpha-2 adrenoceptors, not imidazoline binding sites, mediating the ethanol-attenuating properties of alpha-2 adrenoceptor antagonists. 167 13
The paper is aimed at the evaluation the effect of relatively low doses of
ethanol
and physostigmine salicylate on behavior of the male Wistar rat in an open field test. Both drugs were administered as a solution intragastrically 1 hour before the test started in dose ranges of 0.6-1.8 g/kg and 0.06-0.18 mg/kg, respectively. Lower doses of
ethanol
showed dose dependent biphasic effect on the ambulation and grooming time in animals. The medium dose 1.2 g/kg was rather ineffective in affecting rat behavior in the hole board test. Individual variables showed different sensitivity to individual
ethanol
doses. But from the medium dose, individual manifestations of
ataxia
were observed. Using the dose, only total ambulation, rearing time and rear latency were not affected when the rats were experienced with repeated exposure to open field arena or
ethanol
dose beforehand. Physostigmine alone increased defecation level significantly by two doses but lower doses changed some of the other variables, too. Combined administration of both drugs in medium doses did not affect the rat behavior considerably. The intra-trial habituation of three parameters of OF behavior seems to be influenced differently.
Ethanol
showed a tendency to facilitate the habituation of rearing, but rather to interfere with that of grooming. The later effect was also shown for physostigmine 0.12 mg/kg. The experimental part of the paper is supplied by the discussion of aspects important for modulation of rodent behavior in an open field test.
...
PMID:Ethanol and physostigmine effects on open field behavior in Wistar rats. 184 Mar 58
Pretreatment with pertussis toxin (0.5 and 1.0 microgram/animal, i.c.v., seven days prior to testing) reversed the reduction in locomotor activity in the holeboard test caused by administration of the alpha 2-adrenoceptor agonist, medetomidine (0.1 mg/kg, i.p.). Intrinsic behavioral effects of pertussis toxin treatment were also observed, these included a reduction in exploratory head-dipping and an increase in locomotor activity. These doses of pertussis toxin also reduced the
ataxia
induced by a 2.4 g/kg dose of
ethanol
. Pertussis toxin treated animals also exhibited a diminished hypothermic response to
ethanol
(2 g/kg), although the pertussis toxin treated animals had lower body temperatures prior to
ethanol
administration compared to sham treated animals. Neither the behavioral effect of pertussis holotoxin in the holeboard nor its effects on reversing medetomidine hypolocomotion or
ethanol
-induced
ataxia
were seen following administration of the binding oligomer of pertussis toxin which binds to the cell membrane but does not possess the enzymatically active subunit. These findings implicate mechanisms involving pertussis toxin sensitive G-proteins in modulating some behavioral and physiological effects of
ethanol
.
...
PMID:Interactions of intracerebroventricular pertussis toxin treatment with the ataxic and hypothermic effects of ethanol. 194 14
Pharmacological interest in the tripeptide thyrotropin-releasing hormone (TRH) is due to the multiple effects it produces. In fact, apart from taking part in regulating the activity of the hypothalamo-pituitary-thyroid axis, TRH produces various neuropharmacological effects which indicate a biological role that is probably more important than that of a releasing hormone. Trials performed in animals have shown, for example, the dose-dependent capacity of TRH to induce analgesia, probably by interacting with the opioid peptide system. Motor activity is affected by TRH. In fact this tripeptide elicits an increase in spontaneous motor and explorative activities by interacting with the dopaminergic neurotransmitter system at the nucleus accumbens level. The neuropharmacological activities of TRH include an interesting arousal effect and an analeptic action on generalized depression of the CNS whether this depression is of natural origin, such as hibernation, or induced pharmacologically (barbiturates,
ethanol
) or of a traumatic origin (coma). This analeptic action is attributable to stimulation of cholinergic neurons in the septo-hippocampal area and to the presence of terminals containing TRH in the lateral septum and TRH receptors concentrated especially in the medial septum and diagonal band of Broca. It has also been suggested that TRH localized in the pineal gland has a part in activating the neuronal mechanisms of arousal. Associated with the arousal effect and especially evident in variously originated shock conditions are the activating effects of TRH on vegetative functions (body temperature, circulation, the gastrointestinal tract). These stimulatory activities on the CNS were the rationale for therapeutic use of TRH in the initial treatment of coma due to brain trauma and for the treatment of endogenous depression. A most interesting property of TRH is that of counteracting the neurological deficit due to experimental lesion of the spinal cord particularly with regard to spasticity and
ataxia
. Electrophysiological trials have shown that TRH depolarizes the motoneurons in frog spinal cord thereby increasing the monosynaptic reflex. Furthermore, TRH has recently been shown to have a trophic effect on cultures of rat fetus spinal cord. On this basis TRH has been used successfully for the treatment of amyotropic lateral sclerosis (Charcot's syndrome) and spinocerebellar degeneration. Further support for this therapeutic strategy is given by the demonstration that deafferentiation of rat spinal cord produces an increased density of TRH spinal receptors. Recent studies have also given encouraging results on the possible therapeutic use of TRH for the treatment of Alzheimer's disease.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:[Pharmacologic profile of protirelin tartrate]. 212 84
Three patients had neurologic signs due to isopropyl alcohol (IPA) intoxication. Over a several-week period, a known alcoholic developed apathy, confusion,
ataxia
, and hyperreflexia. During this period, there was no
ethanol
available to him, and he denied use of other intoxicants. He was found stuporous in the hospital after drinking IPA and admitted to IPA abuse during the preceding weeks. Two other men were admitted in a stupor after large ingestions of IPA. Intoxication with IPA has two different presentations: stupor in a known alcoholic and encephalopathy of unknown cause in individuals who hide their addiction.
Ethanol
, methanol, IPA, and ethylene glycol intoxications are associated with different clinical and laboratory findings.
...
PMID:Isopropyl alcohol intoxication. 198 19
The clinical and neuropathological consequences of either
ethanol
consumption or thiamin deficiency or both were examined in Wistar rats aged nine weeks divided into five groups and fed one of the following diets: a thiamin-replete (control) diet (A): a thiamin-fortified diet with water (B) or 15%
ethanol
(C); or a thiamin-deficient diet with water (D) or 15%
ethanol
(E). Rats fed diets A, B or C for 35 weeks showed no clinical signs of neurological disease at any stage and no significant brain pathology when harvested. Rats fed diets D and E progressed through a common sequence of clinical signs of neurological disease typical of acute thiamin deficiency, viz loss of coat condition,
ataxia
, opisthotonus and ultimately death within 10-23 weeks. The onset and progression of these stages of neurological disease were significantly earlier and faster (p less than 0.001 for proportion of opisthotonic and ataxic animals at weeks 10 and 15) in the thiamin-deficient rats that received
ethanol
than in those that did not. At death, the brain pathology in these two groups was limited and similar.
Alcohol
PMID:Progression of neurological disease in thiamin-deficient rats is enhanced by ethanol. 226 Oct 86
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