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

The present study was designed to evaluate the influence of acrylamide (ACR) on male and female reproductive function. Male rats received ACR in drinking water (50, 100, or 200 ppm) for up to 10 wk. Copulatory behavior, semen, and (for controls and 100 ppm only) fertility and fetal outcomes were evaluated. Females received ACR (25, 50, 100 ppm) for 2 wk prior to initiation of breeding and then throughout gestation and lactation. Hindlimb splaying was apparent in the 200-ppm males by wk 4; less severe splaying appeared in the 100-ppm group at wk 8. Disruptions in copulatory behavior preceded the appearance of this ataxia. These disruptions in mating performance interfered with ejaculatory processes and subsequent transport of sperm, since semen was found in the uterus of only 1 of the 15 females mated with the 100-ppm males at wk 9. Moreover, only 33% of the females mated (wk 10) to the 100-ppm males were pregnant. Postimplantation loss was also significantly increased in this group. Hindlimb splaying appeared in the females receiving 100 ppm ACR during wk 1-2 of pregnancy. Body weight and fluid intake were also depressed. Dams in the 50-ppm group showed depression in these parameters during the last 2 wk of lactation. ACR did not significantly affect mating performance of the females, pregnancy rates, litter size, or survival. However, ACR did significantly depress pup body weight at birth (100-ppm group) and weight gain during lactation through post-weaning, d 42 (50- and 100-ppm groups). Vaginal patency was delayed in the 100-ppm group only.
 ...
PMID:Reproductive toxicity associated with acrylamide treatment in male and female rats. 395 25

A group of 23 professional divers was investigated before and after dives to 300 and 350 metres of sea water. 12 divers were also studied during the actual dive. All divers presented neurological symptoms and signs during compression. Intention tremor, ataxia, motor weakness, sensory symptoms, vertigo, nausea and reduced memory were the most prominent features of the High Pressure Nervous Syndrome (HPNS). There were considerable individual differences. Neuropsychological and neurophysiological investigations performed after one dive showed no significant changes in any of the divers, while there was a clear-cut impairment in a group of 6 divers who had performed 2 dives 3 months apart. These changes indicate that there may be pressure-induced brain dysfunction which persists for a transient post-dive period. Loss of short-term memory is a prominent part of this dysfunction. Transitory neurological signs indicating focal cerebral dysfunction were found immediately post-dive in 4 divers, presumably reflecting the unmasking of pre-existing subclinical minimal CNS lesions.
 ...
PMID:Central nervous dysfunction associated with deep-sea diving. 397 49

After reviewing the literature, a personal series of 10 adult patients with cerebellar infarction diagnosed by CT scan is described. The clinical picture in young adult men is characterized by rapid onset of headache, vomiting, vertigo, ataxia and blurred vision. After this sudden onset the patients may present a stable course or a rapid or delayed onset of brain stem compression, revealed by impairment of consciousness. CT scan is the diagnostic method of choice. The correlation between angiographic and CT localization of the infarction is not good. For therapy the following policy is suggested: in alert and clinically stable patients: medical treatment (mannitol, glycerol, dexamethason), ICP and serial CT monitoring; in alert patients with hydrocephalus or mass effect: medical treatment and monitoring as mentioned before; ventricular drainage if ICP surpasses 350 mm H2O; in patients with impaired consciousness and hydrocephalus or mass effect: immediate ventricular drainage. If it is not followed by prompt improvement of the level of consciousness, an emergency suboccipital craniectomy with removal of the infarcted tissue should be done.
 ...
PMID:Surgical management of acute cerebellar infarction. 398 89

Two subchronic studies were conducted to assess the potential toxicity of N-D-ornithyl amphotericin B methyl ester (OAME). In both studies the comparative control substance was amphotericin B (AMB). Dogs (5/sex/group) were given OAME (82% pure, based on high-pressure liquid chromatographic (HPLC) analysis) at 0.6, 2.5, and 10 mg/kg or AMB at 0.6 mg/kg intravenously once daily for 3 months. Two dogs per sex per group were retained for a 7-week postdose observation period. Rats (15/sex/group) were given daily doses of OAME at 4, 12, 24, and 36 mg/kg or AMB at 5 and 12 mg/kg intraperitoneally for 3 months. The principal organs of toxicity in both species were the liver, kidneys, and circulating erythrocytes. Hepatic changes in dogs consisted of periportal and centrilobular inflammation in animals of all dosed groups and were equivalent in dogs given 0.6 mg/kg OAME or AMB. In rats, acute hepatic necrosis with periportal, centrilobular, or panlobular distribution in animals of all OAME (except 4 mg/kg) and AMB-dosed groups was observed. These changes were equivalent in the 36-mg/kg OAME- and 12-mg/kg AMB-dosed animals. Renal changes, evidenced by increases in serum urea nitrogen water consumption, urine volume, decreased urine osmolality, and renal tubular changes (ranging from degeneration and regeneration to necrosis), were observed in both species. In dogs, these changes in the OAME-dosed animals were less severe at all doses than those observed in the AMB-dosed dogs. Renal changes in rats, which were mild in comparison to the dogs, were equivalent at doses of 5 and 12 mg/kg AMB and 36 mg/kg OAME. Decreased erythrocyte counts, hematocrit, and hemoglobin values were observed in both species. Unique to the dog study, however, were irreversible behavioral (somnolence, ataxia, tremors, and compulsive searching) and/or morphologic brain changes (gliosis with astrocytic hypertrophy and hyperplasia) at doses of 2.5 and 10 mg/kg OAME. Similar changes were observed in two dogs given 10 mg/kg OAME (100% pure, based on HPLC analysis) in a 6-week pilot study, indicating that the neurological changes were induced by OAME rather than by an impurity. These changes appear related to prolonged exposure to high plasma concentrations of OAME.
 ...
PMID:Subchronic toxicity studies of N-D-ornithyl amphotericin B methyl ester in dogs and rats. 404 96

Unialgal cultures of Gonyaulax monilata were cultured and harvested. A modified Westphall procedure was used to prepare an extract which did not contain saxitoxin, the gonyautoxins and structurally related toxins. The extract was administered i.p. to young adult, male CD-1 mice and produced: sedation, abdominal constriction, fecal clumping in the perianal area, ataxia, tremors, cyanosis, loss of reflexes, convulsions and death (LD50 = 2.28 mg/kg). Gross and microscopic pathology in the treated mice included: acute active hyperemia of the viscera, multifocal areas of necrosis of the musculature of the intestinal wall and diaphragm and the presence of cytoplasmic vacuoles in the peripheral margins of the acinar portion of the pancreas. Clinical pathology of the mice which survived 24 hr included significant elevation in the levels of serum lactic dehydrogenase, glutamic pyruvic and glutamic oxaloacetic transaminases. Some of these mice also had significantly decreased white blood cell counts. The extract administered orally produced similar signs without the abdominal constriction and convulsions (median lethal oral dose = 6.73 mg/kg). Gross pathology findings included extensive and severe congestion of the abdominal visceral organs. Vehicle control mice were normal. In conclusion, G. monilata, previously reported as nontoxic in homeotherms, yields an extract which contains a water soluble glycosidic substance(s) which is lethal to mice.
 ...
PMID:Acute toxic effects in mice of an extract from the marine algae Gonyaulax monilata. 408 72

Mammalian exposure to toxic levels of the trialkyltin compounds, triethyltin (TET) and trimethyltin, results in pathological manifestations largely restricted to the nervous system. The remarkable features of TET toxicity are cerebral edema and muscular weakness. Rats exposed orally to TET (10-30mg TET Br/l of drinking water) progress through an increasingly compromised state beginning with mild ataxia and hindlimb weakness after one week, spastic paresis of the hindlimbs by two weeks; and hindlimb paraplegia and sensory changes by 3 weeks. Histopathological studies of chronic TET-exposed rats report minimal ultrastructural damage to distal peripheral nerves, myelin, and muscle. Chromatolytic reactions are observed in some alpha motor neurons; intramyelinic vacuolization in the ventral roots and horn is substantial by 3 weeks. Myelin vacuolization and degeneration are observed to a lesser extent in the dorsal roots of the spinal cord. Wet weights and myofiber diameters of EDL and soleus muscles are reduced during chronic TET intoxication, but no histopathology is evident using light microscopy. Conduction of compound action potentials in vivo along distal sensory fibers, ventral roots and distal motor fibers (in sciatic n.) is normal in 3 week TET rats as compared to control; however, nerve conduction velocity is decreased in the segment of the H-reflex arc involving the dorsal roots. Earlier studies by Stoner and coworkers led to suggestions that the neuromuscular junction may be preferentially affected by TET and could contribute, in part, to the symptoms of muscular weakness. In support of this hypothesis preliminary studies from our laboratory and others indicate that neurotransmission is functionally depressed at the myoneural junction following chronic TET treatment in vivo or when applied in vitro to isolated muscle preparations. Stimulated, but not unstimulated, release of acetylcholine from the vascular perfused rat phrenic nerve-hemidiaphragm preparation is decreased by TET especially at higher stimulation rates (20 Hz). In vitro administration of TET Br (10(-6)M) results in an irreversible decrease in the amplitude of evoked endplate potentials; chronic in vivo exposure to TET causes a decrease in the resting membrane potential of soleus muscle (in situ recordings) and provokes a peculiar post-stimulus (200Hz bursts) elevation of spontaneous miniature endplate potentials in isolated cut diaphragm preparations.(ABSTRACT TRUNCATED AT 400 WORDS)
 ...
PMID:Neuromuscular function and organotin compounds. 609 43

Many studies have demonstrated that the ability of alcohols and other intoxicant-anesthetics to affect biochemical, physiological, and behavioral processes rests in their hydrophobicity. This means that potency is determined by the ability of the drug to move from a water phase into a lipid or membrane phase. In more precise terms, anesthetic effects are correlated with the volume occupied by the anesthetic molecules within the membrane. Although the anesthetic effects, particularly the inhibition of nerve condition, have been used most frequently in establishing this correlation, the intoxicating effects (i.e., ataxia) of a series of alcohols had also been correlated with their membrane partitioning. These results suggest that the intoxicating, as well as anesthetic, effects of ethanol and related drugs are due to their penetrating into hydrophobic regions of nerve membranes. The predominant hydrophobic region of biological membranes is the "sea" of lipid that surrounds "islands" of functional proteins. This leads to the postulate that intoxicant-anesthetics alter the physical properties of membrane lipids and thus affect neuronal function. To evaluate this hypothesis, we must consider the lipid composition of brain membranes, the importance of membrane lipids in neuronal function, the techniques available for the study of membrane physical properties, and the effects of ethanol on nerve membranes.
 ...
PMID:Membrane fluidity and alcohol actions. 628 44

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.
 ...
PMID:Practical toxicologic diagnosis. 649 3

Pharmacological effects of ritodrine hydrochloride (ritodrine), a beta 2-adrenoceptor agonist, were investigated in comparison with that of isoxsuprine hydrochloride (isoxsuprine) on the motor nervous system and the central nervous system. Ritodrine (1-30 mg/kg, i.v.) suppressed spontaneous movements in mice, rats and dogs. The animals became slightly sedative and immobile. Ritodrine caused an increase of water intake and vomitting in dogs. These fingings were recovered in 3-5 hr. Isoxsuprine showed similar effects on general behaviour, but the depressive action was more potent than that of ritodrine. Ritodrine slightly suppressed exploratory behaviour in high dose, but had little effect on emotional behaviour. Ritodrine had no effects on conditioned avoidance response, tremor, motor coordination, thiopental induced sleeping time and few types of convulsions. Ritodrine showed no analgetic effects or muscle relaxant actions. Isoxsuprine, in high dose, suppressed motor coordination and showed ataxia. Ritodrine slightly raised body temperature and dose-dependently suppressed hypothermia and ptosis induced by reserpine. Ritodrine (1-10 mg/kg, i.v.) caused a slight resting pattern of spontaneous EEG in rabbits. On the other hand, arousal responses evoked by auditory stimulation, photic stimulation or electrical stimulation of mesencephalic reticular formation were unaffected by ritodrine at any doses used. These results suggest that ritodrine shows little effect on the motor nervous system and central nervous system, and its effects may be nonspecific.
 ...
PMID:[Effects of ritodrine hydrochloride on motor nervous system and central nervous system]. 650 Apr 5

Dimetridazole at a concentration of 1.0 g/l in drinking water caused mortality in both ducklings and goslings. When given to goslings at a concentration of 0.5 g/l, the drug caused growth depression and nervous signs characterized by excess activity, abnormal head attitudes, and ataxia.
 ...
PMID:Toxicity of dimetridazole in waterfowl. 652 38


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>