Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027497 (nausea)
 23,468 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Sharp pain is conducted rapidly by myelinated delta A fibers and diffused pain slowly by nonmyelinated C fibers to pseudobipolar neurons in the posterior ganglion and from there to neurons located in the posterolateral horn of the spinal cord. From here on nociferous impulses are transmitted by excitatory peptides (e.g. substance P) or amino acids (e.g. glutamate, aspartate) through interconnecting neurons of the pain pathways, primarily on the contralateral side, to the brain stem and from there to the sensory cortex, where they are appreciated and acted upon. There are specific inhibitory receptors located on axon terminals, near to the release sites of the excitatory amino acids and peptides. Stimulation of these receptors by their appropriate ligands such as endogenous (e.g. enkephalis, endorphins) or exogenous opioids, clonidine, serotonin, somatostatin inhibits the release of excitatory neurotransmitters and relieves pain. There are at least 3 different opioid receptors, called mu-, kappa- and delta-receptors in the spinal cord. These can be differentiated from one another by their specific affinity toward different endogenous or exogenous opioids and the pure narcotic antagonist, naloxone. It appears that the nociferous impulses transmitted by parallel pathways equipped with different inhibitory receptors have to be integrated to produce pain sensation and partial inhibition of transmission in different pathways or complete inhibition in one of the pathways may relieve pain. In recent years the concept of "selective spinal analgesia" has been applied clinically for the relief of postoperative, obstetrical and chronic pain. At first it was expected that the intrathecal or peridural administration of morphine will produce analgesia without the side effects of systemically administered morphine. It soon became evident, however, that intrathecally and peridurally administered morphine after several hours of delay reaches the fourth ventricle and by stimulating mu-receptors may cause respiratory depression and other undesired effects (e.g. nausea, vomiting, pruritus). Several different approaches are being investigated for the production of selective spinal analgesia without side effects. They include: a. the use of more lipophilic, long-lasting opioids (e.g. lofentanil) which would be almost completely absorbed by the spinal cord and therefore would not reach the medullary centers; b. the development of opioids with specific affinity to kappa- and for delta- and little or no affinity to mu-receptors, primarily responsible for side effects; and c. combining lower doses of opioid agonists with alpha 2-adrenergic agonists (e.g. clonidine) or with somatostatin. It is conceivable that in the not-too-distant future, it will be possible to achieve through these measures, selective spinal analgesia without side effects.
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PMID:Pain control with intrathecally and peridurally administered opioids and other drugs. 168 73

Since his birth, we have been monitoring a 12-year-old boy suffering from selective severe magnesium malabsorption. Our essential problem is to prepare a form of galena with acceptable taste, tolerated by the digestive tract and well absorbed; also, the carrier compound must not cause short- or long-term side effects. An additional factor is the steadily increasing need for magnesium from 1 mmol/kg.d at 1 year to 14 mmol/kg.d at present age (345 mg/kg.d). The galena forms currently on sale were, with the exception of lactate and pyrollidone carboxylate, immediately rejected since they contain insufficient Mg2+. Following short trials resulting in diarrhoea, the other two preparations were also rejected. We then constituted - and also abandoned - our own galena compounds: aspartate (bitterness), aspartate + glycerophosphate (GLP) (bitterness), glutamate + GLP ('Chinese restaurant syndrome' and fear of the long term toxic effect of the glutamate), gluconate (excessive volume: 11/1 proportion with Mg2+). A recent test featuring GLP of Mg 40 g + cocoa butter 40 g + cocoa 10 g, brought about vomiting and diarrhoea, and was not adequately absorbed. The best tolerated formula is: Mg GLP 21.33 g; saccharose 6 g; aspartam 1 g; gelatin 0.5 g; citric acid, conserving agent, fruity aroma; water: qs 100 g. Such composition yields a caramel cream absorbed in five small portions, at a daily quantity of 375 g (80 g GLP Mg, 10 g Mg2+). Vitamin B6, which promotes intestinal absorption of magnesium, must be given separately in tablet form at a dose of 1 g/d, since it causes nausea if it is included in the Mg preparation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Severe selective magnesium malabsorption: tests of tolerance of oral magnesium supplements. 213 77

It has been postulated that individuals reporting an idiosyncratic symptom response after glutamate ingestion might also experience such symptoms after aspartame ingestion. Such sensitive subjects might have been missed in earlier studies of aspartame. In the present study, six subjects reporting various symptoms after glutamate ingestion, but not after placebo, were administered aspartame (34 mg/kg body weight) or sucrose (1 g/kg body weight) dissolved in orange juice in a randomized, cross-over, double-blind study. No subject reported symptoms typical of a glutamate response after either sucrose or aspartame loading. One subject reported slight nausea approximately 1.5 h after aspartame ingestion, but indicated that the symptoms were not those of a glutamate response. Plasma phenylalanine and aspartate levels were similar to those noted in normal subjects administered identical doses of aspartame. The data indicate no effect of aspartame loading in glutamate-susceptible subjects.
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PMID:Effect of aspartame and sucrose loading in glutamate-susceptible subjects. 728 15

Succinylated Acinetobacter glutaminase-asparaginase (SAGA) has broader antitumor activity than Escherichia coli L-asparaginase in experimental systems; moreover, drug resistance does not develop in tumor cell lines initially sensitive to this enzyme. We have investigated the pharmacology and toxicology of SAGA after both single-dose and serial daily dose injections in 20 adult patients. Glutaminase activity in plasma after i.v. injection of single doses did not follow simple first-order kinetics (half-life during the initial 24 hr was 21 +/- 9 hr. A linear relation was observed between increasing doses of SAGA and resultant levels of plasma enzyme activity and blood glutamate. Assay of whole blood which had been deproteinized immediately following phlebotomy showed that single doses of SAGA lowered glutamine only transiently to nondetectable levels; serial daily doses were required to achieve and maintain continuous glutamine depletion. Reversible depression of the central nervous system, ranging from encephalopathy to coma, occurred in a dose-related manner and was dose limiting. Other prominent reactions included respiratory alkalosis, hyperglycemia, nausea, and vomiting. Transient antitumor effects were noted in two patients with solid tumors and in two patients with leukemia. SAGA causes considerable neurotoxicity in adults which requires close patient monitoring. Phase II studies in leukemic patients are in progress.
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PMID:Phase I evaluation of succinylated Acinetobacter glutaminase-asparaginase in adults. 743 89

Lamotrigine is a novel antiepileptic that, although its mechanism is not completely understood, appears to affect voltage-activated sodium channels, resulting in inhibition of the presynaptic release of the excitatory neurotransmitter glutamate. It is well absorbed after oral administration. Its route of elimination is hepatic glucuronidation, which is susceptible to both hepatic microsomal enzyme-inducing and -inhibiting agents. In clinical trials lamotrigine was effective as add-on therapy for refractory partial seizures in adults. Small trials suggest the feasibility of monotherapy, but further controlled trials are warranted to support this practice. Additional data indicate the utility of lamotrigine for generalized seizures. Reported side effects are rash, nausea, vomiting, blurred vision, diplopia, and vision abnormalities. Lamotrigine appears to be an attractive alternative to currently available antiepileptics.
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PMID:Lamotrigine. 762 59

The anti-tumor drug D-aspartate beta-hydroxamate (D-A beta H), selectively destroys HIV-1 infected peripheral blood mononuclear cells, but produces anorexia and nausea during prolonged treatment to AIDS patients. Consequently, based on the structural similarity between D-A beta H and the excitotoxins L-aspartate and NMDA, we have investigated the potential neurotoxic action and pharmacology of D-A beta H and of a series of chemically related anti-tumor drugs on rat primary neuronal/glial cultures. In this aim, after a 30 min exposure to D-A beta H (1-2 mM), cortical neurons were selectively destroyed within 24 h. The stereoisomer L-A beta H (0.5-2 mM) was highly neurotoxic for both glial and neuronal cells in mixed cultures but demonstrated no toxicity in glial cell cultures alone. Furthermore, for a series of D-A beta H analogues, VHS.121 and VHS.122 demonstrated a reduced but significant neurotoxicity, whereas VHS.124 and VHS.125 showed no significant neurotoxic effect, and in the case of VHS.125 also prevented D-A beta H and glutamate-mediated neurotoxicity. The related anti-tumor drugs L- or D-glutamate gamma-monohydroxamate or keto-glutamate gamma-monohydroxamate (< or = 2 mM) were not neurotoxic for cortical neurons. The neurotoxic effect of D-A beta H and L-A beta H was attenuated by the NMDA antagonists MK-801, TCP, memantine, ifenprodil, pentamidine and CGS-19755. alpha-Difluoromethylornithine, an inhibitor of polyamine biosynthesis, also protected cultures against the neurotoxicity of L-A beta H and D-A beta H.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Neurotoxic effect of the anti-HIV drug D-aspartate beta-hydroxamate for rat primary neuronal cultures: attenuation by N-methyl-D-aspartate (NMDA) antagonists. 811 99

There is evidence to suggest that the arginine vasopressin release observed in association with emesis after i.v. injection of cholecystokinin (CCK) and N-methyl-D-aspartate (NMDA) is mediated by stimulation of emetic centers in the brainstem. That the GnRH-releasing action of NMDA is also sometimes accompanied by emesis led to the suggestion that stimulation of this parvocellular system by the glutamate agonist may also be mediated in part via activation of brainstem pathways. If this is the case, then other nauseogenic agents, such as CCK, should similarly elicit GnRH release. The foregoing prediction was tested in the castrated juvenile male monkey, an experimental model characterized by the absence of spontaneous GnRH release. GnRH discharges were monitored indirectly by measuring changes in circulating LH concentrations after the responsivity of the gonadotroph had been heightened by a chronic intermittent i.v. infusion of the decapeptide. An i.v. bolus of CCK at 10 and 30 micrograms/kg BW led to a distinct discharge of GnRH accompanied by emesis or other behaviors suggestive of nausea. Lower doses of CCK (1 and 3 micrograms/kg BW) failed to significantly perturb GnRH release or cause emesis, although NMDA (5 mg/kg BW; racemic form) injected i.v. 3 h after the CCK challenge led to a robust rise in GnRH. In a parallel study, three repetitive i.v. CCK injections at 2h intervals maintained intermittent GnRH release. Pretreatment with a long-acting GnRH receptor antagonist ([AcD2Nal1,4ClPhe2,DTrp3,DArg6,DAla10]GnRH -HOAc) abolished the LH response to CCK, confirming that the action of this peptide was mediated by GnRH release. Although a direct hypothalamic site of action for these agents remains the most likely possibility, since both NMDA and CCK receptors are present in the infundibular region, the present data are consistent with the notion that CCK and, by inference, NMDA may activate GnRH release in part via the stimulation of brainstem emetic centers. Plasma GH, PRL, and cortisol concentrations were also monitored during the course of some of these experiments, and the release of these hormones was observed after the administration of either the 10 or 30 micrograms/kg BW dose of CCK.
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PMID:Cholecystokinin stimulates gonadotropin-releasing hormone release in the monkey (Macaca mulatta). 846 72

Glutamine is used to supplement intravenous and enteral feeding. Although there have been many human studies of its efficacy, there have been very few studies with safety as a primary goal. This article analyzes the literature on the safety of glutamine and also examines the available information on high intakes of total protein and other amino acids, so that additional indicators of potentially adverse effects can be suggested. Four studies that specifically addressed glutamine safety were identified, from which it was concluded that glutamine is safe in adults and in preterm infants. However, the published studies of safety have not fully taken account of chronic consumption by healthy subjects of all age groups. To help identify potential undetected hazards of glutamine intake, the literature on adverse effects of high dietary intake of protein and other amino acids was examined. High protein is reputed to cause nausea, vomiting and ultimately death in adults, and has been shown to result in neurological damage in preterm infants. Individual amino acids cause a variety of adverse effects, some of them potentially fatal, but neurological effects were the most frequently observed. Because glutamine is metabolized to glutamate and ammonia, both of which have neurological effects, psychological and behavioral testing may be especially important.
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PMID:Assessment of the safety of glutamine and other amino acids. 1153 13

Vagal afferents are extensively distributed in the digestive tract from the oesophagus to the colon. They are involved in the reflex control of normal gastrointestinal (GI) tract function (e.g. secretion and motility) as well as reflexes more characteristic of diseases such as functional dyspepsia and gastroesophageal reflux disease (e.g. vomiting, disordered lower esophageal sphincter relaxation and gastric accommodation). They are also implicated in signalling non-painful sensations (e.g. nausea and early satiety) associated with disease. A variety of receptors has been identified on vagal afferents, which can either enhance (e.g. 5-HT3, CCK1, VR1 and NK1 receptors) or reduce (e.g. ghrelin, leptin, k-opioid and GABAB receptors) activity, offering a range of potential therapeutic targets. Commonly used laboratory species (e.g. rat and mouse) lack an emetic reflex, and the implications of this for models of upper GI disorders have been explored in the light of expanding knowledge of the neuropharmacology of the emetic reflex implicating glutamate, prostanoids, cannabinoids and substance P. Additional pathophysiological roles for vagal afferents (e.g. in thermoregulation, arousal and fatigue) are being investigated, raising the intriguing possibility of the vagus as a target in non-GI disorders.
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PMID:Abdominal vagal afferent neurones: an important target for the treatment of gastrointestinal dysfunction. 1248 26

Amyotrophic lateral sclerosis (ALS) is a progressive neurodegenerative disease with the fatal evolution. Recent studies in knowledge of the pathogenic mechanisms underlying ALS showed that the excitotoxicity has an important role in the neurodegeneration. The riluzole, an antagonist of glutamate, is the first drug approved by FDA for the treatment of patients with ALS. The efficacy of riluzole (dose recommended 50 mg twice a day) in prolonging the survival of patients with ALS has been demostrated in two principal controlled clinical trials. The most frequent adverse events related to riluzole treatment were: nausea, vomiting, anorexia, diarrhea, asthenia, somnolence, vertigo, circumoral paresthesia, abdominal pain and dizziness. Some events tend to be related to the dose: vertigo, diarrhea, nausea, circumoral paresthesia and anorexia appear more frequently with 200 mg/die that with lower dose. Generally with tree months from the beginning of the treatment with riluzole, an increase serum transaminase levels has been noted; mostly transient and regressing after two-sex months of treatment. A monitoring of serum transaminase levels is suggested during the first year of treatment with riluzole The clinical studies shows that the adverse events produced by riluzole are mostly reversible and dose-dependent, this demostrates a satifying profile of tolerability of the drug. Anyway, a deeper knowledge of its tolerability may lead us to a better use of riluzole, avoiding in this way the interruption of treatment.
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PMID:[Tolerability of riluzole: a review of the literature]. 1514 78


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