Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0004134 (ataxia)
 15,886 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Strychnine toxicosis is characterized by inducible tetanic seizures and metaldehyde poisoning by fine fasciculations progressing to generalized tremors and seizures. Intoxication with 1080 causes seizures, random running movements, vomiting, defecation, urination, acidosis and hyperglycemia. Intoxication with rodenticides causing coagulopathy is characterized by hemorrhage into body cavities but not necessarily external hemorrhage. Anticholinesterase insecticides cause salivation, urination and defecation, while chlorinated hydrocarbon insecticides cause CNS disturbances. Ethylene glycol intoxication results in ataxia, depression, coma, vomiting and tachypnea, followed by acute renal failure. Urea poisoning causes bloat and CNS signs in cattle. Monensin intoxication in horses lasts several days and causes stiffness, colic, uneasiness and recumbency. Salt poisoning results in depression, seizures and hypernatremia. Lead poisoning is associated with central and peripheral nervous system signs, as well as increased numbers of nucleated RBC and basophilic stippling of RBC. Arsenic poisoning results in GI pain, diarrhea, weakness and death. Copper toxicosis in sheep is manifested by hemolytic anemia, hemoglobinemia and hemoglobinuria. Plants that may intoxicate domestic animals include sorghum, greasewood, halogeton, water hemlock, Japanese yew, larkspur, lupine, milk-weed, philodendron, oleander, castor bean and precatory bean.
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PMID:Practical toxicologic diagnosis. 649 3

Salt toxicosis was confirmed in a flock of 20,000 thirteen-week-old tom turkeys experiencing an increase in mortality. Clinical signs included polydipsia, diarrhea, ataxia, incoordination, tremors that progressed to depression, sternal and lateral recumbency accompanied by torticollis, and death. Mortality over a 5-day period was 6.7%. Necropsy lesions included pallor and dehydration of pectoral muscles, hepatic congestion, and fluid-filled small and large intestines. Microscopic lesions consisted of bilaterally symmetrical areas of necrosis within the cerebral hemispheres accompanied by vascular congestion and edema, as well as hyalinization of the glomerular capillary walls of the kidney and eosinophilic granular casts in the renal tubules. Average salt concentration in the feed from affected houses with 8.04%.
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PMID:Salt toxicosis in commercial turkeys. 779 77

Recent studies have provided evidence that excitatory amino acid antagonists can exert analgesic effects in animals. These studies, however, have focused primarily on phasic pain or hyperalgesia rather than tonic pain. The present study evaluates the effects of systemic administration of Memantine (1-amino-3,5-dimethyl-adamantane), a clinically used N-methyl-D-aspartate (NMDA) receptor antagonist, on formalin-induced phasic and tonic pain behavior in the rat. Memantine (2.5, 5.0, 10.0 and 20.0 mg/kg) or normal saline was injected i.p. 1 h prior to a s.c. injection of formalin (5%, 50 microliters) into the vibrissal pad of adult rats (n = 5/group). Pain behavior was measured by the number of seconds of formalin-induced face grooming during a 42-min post-injection observation period. Saline-injected animals displayed a biphasic face-grooming response, consisting of an early, phasic phase (0-6 min) and a delayed, prolonged tonic phase (12-42 min). Memantine at doses of 2.5-10 mg/kg produced a significant dose-related inhibition of the second phase (65-93%) and a much smaller inhibition of the first phase (up to 52%). A higher dose (20 mg/kg) further inhibited both phases but also produced other motor effects (increased exploratory and decreased freezing behavior, hind-paw weakness and gait ataxia) which were not observed at the lower doses. These results suggest that the NMDA receptor antagonist Memantine can block formalin-induced tonic and, to a lesser extent, phasic pain, at doses that do not alter observed motor behaviors.
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PMID:The NMDA antagonist Memantine blocks pain behavior in a rat model of formalin-induced facial pain. 823 44

Genetic differences in sensitivity to ethanol's aversive effects may play an important role in the development of alcohol-seeking behavior and alcoholism. The present study examined the development of ethanol-induced conditioned taste aversion in 20 BXD/Ty recombinant inbred strains of mice and their progenitor inbred strains, C57BL/6J (B6) and DBA/2J (D2). Adult male mice were given 1-hr access to a saccharin-flavored solution every 48 hr for 12 days. After all but the first and last saccharin access periods, they received ethanol injections (0, 2, or 4 g/kg, i.p.). Separate groups of unpaired control mice received 4 g/kg of ethanol 1 hr after water access. Saline control mice were also used for examining preference across a wide range of saccharin concentrations (0.019 to 4.864% w/v). As expected, saccharin consumption during taste conditioning declined over conditioning trials in a dose-dependent manner, indicating development of ethanol-induced conditioned taste aversion. Correlational analyses using strain means from recently published papers indicated no significant genetic correlation between taste conditioning and two phenotypes thought to reflect ethanol reinforcement or reward (ethanol drinking, conditioned place preference). However, there were significant genetic correlations between taste conditioning at the high dose and sensitivity to ethanol-induced hypothermia, rotarod ataxia, and acute withdrawal. Quantitative trait locus (QTL) analyses of strain means indicated that taste aversion was associated (p < 0.01) with genetic markers on nine chromosomes (1, 2, 3, 4, 6, 7, 9, 11, and 17). These QTLs were located near several candidate genes, including genes encoding several different acetylcholine receptor subunits, the delta opioid receptor, and two serotonin receptors (1B and 1D). QTLs for saccharin preference were located on several of the same chromosomes (2, 3, 4, 6, and 11). Two of these saccharin QTLs overlap candidate genes influencing sensitivity to sweet or bitter taste stimuli. In general, these findings support the conclusion that multiple genes influence ethanol-induced conditioned taste aversion. Some of these genes appear to influence taste sensitivity, whereas others appear to mediate sensitivity to aversive pharmacological effects of ethanol.
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PMID:Ethanol-induced conditioned taste aversion in BXD recombinant inbred mice. 975 38

Salt poisoning has been described under various circumstances in adult cattle. Presenting clinical signs in 6 Holstein beef cattle with such poisoning were primarily dysfunction of the central nervous system and included ataxia, opisthotonus, nystagmus, depression, muscle twitching and intermittent convulsions, as well as abdominal pain and polydipsia. Diarrhea occurred in 2, and blindness in 3/6 cattle. Hypernatremia (161.8 - 178.8 mmol/L) and hyperosmolality (331.81 - 366.18 mOsm/L) were present in all animals. To treat the affected cattle, access to fresh water was restricted, vascular volume was expanded with isotonic saline and then hypotonic fluid (5% Dextrose solution) i.v. and dexamethasone im was administered. Although biochemical parameters returned to normal reference ranges, 3/6 affected animals remained blind.
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PMID:Salt poisoning in beef cattle. 1508 Feb 19

Sodium chloride (NaCl) is widely used as a deicing agent on roadways. There are numerous anecdotal reports of poisoning of passerine birds by road salt in the United States and Canada, but little is known about the toxicity of NaCl to songbirds. The objectives of this study were to determine the lethal dose range for NaCl in a representative passerine species (house sparrow [Passer domesticus]); to determine the clinical, physiologic, and pathologic effects of sublethal and lethal oral NaCl exposure; and to assess the potential for recovery after exposure to granular salt or highly concentrated salt solutions. The up-and-down method was used in a pilot study to estimate the lethal oral dose of granular NaCl in wild caught house sparrows. The toxicity of highly concentrated NaCl solution also was investigated. This was followed by an acute dose response study in which house sparrows were dosed orally with granular NaCl at 0, 500, 1,500, 2,500, or 3,500 mg/kg. Sparrows were deprived of water for 6 hr postexposure (PE) in an attempt to mimic specific winter conditions. Groups of three birds at each dose were euthanized at 1, 3, 6, and 12 hr PE, and samples were collected for histopathology and brain and plasma electrolyte analyses. Results indicated an approximate mean lethal dose (LD50) of 3,000-3,500 mg/kg in water-deprived birds, which is similar to mammalian values. House sparrows dosed with a concentrated solution of NaCl generally died at doses of 8,000 mg/kg. Clinical signs observed at >or=1,500 mg/kg included rapid onset (<30 min) of depression (indicated by reduced activity and reduced response to visual and auditory stimuli), ataxia, inability to fly or perch, and death in as little as 45 min. Birds that survived for 6 hr usually recovered. Plasma Na concentrations >200 mmol/l were consistently associated with clinical signs. Pathologic lesions consisted of edema and distension of the caudoventral thin muscled region of the gizzard and were observed 1 hr PE in most birds dosed with >or=500 mg/kg. Brain Na concentrations in clinically ill sparrows and those that died of NaCl toxicity ranged from 1,297 to 1,615 (mean=1,450; SD=115) ppm wet weight or 5,603 to 6,958 (mean=6,367; SD=454) ppm dry weight, which differed significantly from control birds. No histologic lesions were observed in brain sections of exposed birds, likely reflecting the acute nature of the exposure. However, fluid accumulation beneath the koilin layer of the gizzard was observed in the majority of birds at high dosage levels. These results indicate that passerines ingesting relatively small numbers of road salt granules or small quantities of highly concentrated NaCl solutions are at risk of sodium poisoning.
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PMID:Toxicity of sodium chloride to house sparrows (Passer domesticus). 1610 71

Seasonal ataxia was reported in humans following the consumption ofAnaphe venata larva as protein supplement in diet and altered motor function in rodents when the extract was administered intraperitoneally. In this study we investigated the effect of the crude aqueous and Phosphate Buffer Saline (PBS) extracts of this larva on altered spontaneous rat behavior in a novel environment particularly chewing behaviour, with a view to determine the mechanism(s) involved in these behavioural alteration. Animals were randomly assigned into four groups (n = 6-12 per group) and graded doses of aqueous and PBS extracts (100-400 mg/kg) were administered dissolved in saline intraperitoneally (i.p.) to each animal in the experimental groups. The control group received an equivalent volume of saline. Behavioral scores were recorded for a period of 30 minutes after the administration of saline or extract. The role of various receptors in the extract induced chewing was evaluated using known receptor agonist/antagonists. Results revealed a significant increase in purposeless chewing (F (7, 95) = 7.85; p <0.05) by the aqueous extract compared to saline control at all dose levels, which was significantly attenuated by scopolamine (3 mg/kg, i.p) and thiamine (1 mg/kg, i.p) respectively (p <0.05); while flumazenil (2 mg/kg, i.p) and naloxone (2.5 mg/kg, i.p) did not alter the induced purposeless chewing behaviour. Also, administration of PBS induced a significant (F (7, 95) = 6.11; p <0.05) increase in chewing behaviour but only at 400 mg/kg dose level which was attenuated by scopolamine (3 mg/kg, i.p); while flumazenil (2 mg/kg, i.p), naloxone (2.5 mg/kg, i.p), and thiamine (1 mg/kg, i.p) potentiated purposeless chewing behaviour respectively. It may therefore be concluded from this study that Anaphe extract-induced purposeless chewing behaviour in rat is mediated via the activation of cholinergic neurotransmission which is modulated by GABAergic and opioid receptor systems.
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PMID:Anaphe venata larva extract-induced purposeless chewing in rats: the role of cholinergic, GABAergic and opioid systems. 2231 3