UMLS:C0027497 - FACTA Search

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Query: UMLS:C0027497 (nausea)
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Ifosfamide is an oxazaphosphorine alkylating agent with a broad spectrum of antineoplastic activity. It is a prodrug metabolised in the liver by cytochrome P450 mixed-function oxidase enzymes to isofosforamide mustard, the active alkylating compound. Mesna, a uroprotective thiol agent, is routinely administered concomitantly with ifosfamide, and has almost eliminated ifosfamide-induced haemorrhagic cystitis and has reduced nephron toxicity. Therapeutic studies, mostly noncomparative in nature, have demonstrated the efficacy of ifosfamide/mesna alone, or more commonly as a component of combination regimens, in a variety of cancers. In patients with relapsed or refractory disseminated nonseminomatous testicular cancer, a salvage regimen of ifosfamide/mesna, cisplatin and either etoposide or vinblastine produced complete response in approximately one-quarter of patients. As a component of both induction and salvage chemotherapeutic regimens, ifosfamide/mesna has produced favourable response rates in small cell lung cancer, paediatric solid tumours, non-Hodgkin's and Hodgkin's lymphoma, and ovarian cancer. Induction therapy with ifosfamide/mesna-containing chemotherapeutic regimens has been encouraging in non-small cell lung cancer, adult soft-tissue sarcomas, and as neoadjuvant therapy in advanced cervical cancer. As salvage therapy, ifosfamide/mesna-containing combinations have a palliative role in advanced breast cancer and advanced cervical cancer. Ifosfamide/mesna can elicit responses in patients refractory to numerous other antineoplastic drugs, including cyclophosphamide. With administration of concomitant mesna to protect against ifosfamide-induced urotoxicity, the principal dose-limiting toxicity of ifosfamide is myelosuppression; leucopenia is generally more severe than thrombocytopenia. Reversible CNS adverse effects ranging from mild somnolence and confusion to severe encephalopathy and coma can occur in approximately 10 to 20% of patients after intravenous infusion, and the incidence of neurotoxicity may be increased to 50% after oral administration because of differences in the preferential route of metabolism between the 2 routes of administration. Other adverse effects of ifosfamide include nephrotoxicity, alopecia, and nausea/vomiting. In general, intravenously administered mesna is associated with a low incidence of adverse effects; however, gastrointestinal disturbances are common following oral administration. Thus, ifosfamide/mesna is an important and worthwhile addition to the currently available range of chemotherapeutic agents. It has a broad spectrum of antineoplastic activity and causes less marked myelosuppression than many other cytotoxic agents. At present, the role of ifosfamide/mesna in refractory germ cell testicular cancer is clearly defined; however, its overall place in the treatment of other forms of cancer awaits delineation in future well-controlled comparative studies.
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PMID:Ifosfamide/mesna. A review of its antineoplastic activity, pharmacokinetic properties and therapeutic efficacy in cancer. 172 Mar 82

The authors report a case of toxic hepatitis in a woman of 22 years of age in the third trimester of her first pregnancy treated by methyldopa for hypertension of pregnancy which was diagnosed at 33 weeks of amenorrhoea. The prodromal symptoms were mild and consisted of nausea, vomiting and rise in temperature and this phase was associated with febrile jaundice without pruritus and it was only associated with coagulation disorders in the third stage of labour. This was a case of mixed cytolytic hepatitis (ASAT x 3N) and cholestasis (x 1.5N). The outcome was fatal. The patient died three days after delivery following haematemesis and renal failure as well as hepatic encephalopathy. The main diagnostic feature was acute hepatic stasis in spite of the absence of pruritus and the presence of a raised temperature after hematolytic, viral and obstructive causes had been eliminated. Histology confirmed that there was toxic hepatitis. This aetiology was suggested by the timing of the symptoms after MD (methyldopa) had been taken. Elkington described methyldopa hepato-toxicity in 1969. Fatal cases in the literature were in patients who were over 40 years of age. Methyldopa is used in pregnant women because of its safety as far as the fetus is concerned. Mechanism by which it causes toxic hepatitis is a combination of abnormal metabolism (the cytochrome P450 chain produces an antigen) and an immune reaction in response to this antigen and these explain why such severe and potentially fatal forms of the condition exist.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Fatal toxic hepatitis in pregnancy. A discussion of the role of methyldopa]. 232 42

The three best-described genetic polymorphisms of drug metabolism--the debrisoquin/sparteine type of oxidative polymorphism (hereafter referred to as the debrisoquin polymorphism), the polymorphism of N-acetylation, and the mephenytoin type of oxidative polymorphism--are reviewed. For all three polymorphisms, the poor-metabolizer phenotype is inherited as an autosomal recessive trait. The debrisoquin and mephenytoin oxidative polymorphisms involve defects in two separate cytochrome P450 enzymes. The prevalence of the poor-metabolizer phenotype for debrisoquin ranges between 2% and 10% for groups of various ethnic origins. The poor-metabolizer phenotype for mephenytoin comprises about 5% of the Caucasian population and about 20% of the Japanese population. N-acetyltransferase is a cytosolic enzyme whose clinical polymorphism was discovered using isoniazid as the substrate probe. The prevalence of the slow-acetylator phenotype among American and European Caucasian and American black groups is about 50%; among the Japanese it is about 10%. More than 20 agents are substrates for debrisoquin hydroxylase, about 15 for N-acetyltransferase, and 3-5 for mephenytoin. In poor metabolizers, debrisoquin can cause hypotension, and sparteine can cause blurred vision, headache, and dizziness. Clinical consequences of the slow-acetylator phenotype include increased susceptibility to systemic lupus erythematosus induced by procainamide and hydralazine, peripheral neuropathy induced by isoniazid, hydralazine, and dapsone, and sulfasalazine-induced dose-related leukopenia, nausea, vomiting, headache, and vertigo. After administration of mephenytoin, poor metabolizers have increased somnolence and intellectual impairment. Awareness of genetic polymorphisms of drug metabolism should improve understanding of interindividual variability in drug disposition and response.
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PMID:Polymorphic drug metabolism. 268 60

The new 5-hydroxytryptamine type 3 (5HT3) receptor antagonist tropisetron is used in the treatment of chemotherapy-related nausea. The drug is extensively metabolized in man, with the enzymes involved in tropisetron biotransformation being unknown. Identification of these enzymes would make it possible to predict both interindividual variability in plasma concentrations and metabolic interaction potential. The present in vitro study was therefore aimed at identifying and characterizing the cytochrome P450 enzymes catalysing tropisetron metabolism. Enzyme kinetics for formation of 5-hydroxy (5-OH-ICS), 6-hydroxy (6-OH-ICS) and N-demethyl tropisetron (N-De-ICS) were studied in the microsomal fraction of eight human livers (seven livers from extensive metabolizer (EM), one liver from a poor metabolizer (PM) for CYP2D6). Formation of 5-OH-ICS and 6-OH-ICS was biphasic with a high (5-OH: Km 3.9 +/- 2.1 microM; Vmax 1.88 +/- 0.73 pmol/mg/min; 6-OH: Km 4.66 +/- 1.84 microM; Vmax 4.00 +/- 1.77 pmol/mg/min) and low (5-OH: Km 172 +/- 51 microM; Vmax 17.0 +/- 9.4 pmol/mg/min; 6-OH: Km 266.0 +/- 76.0 microM; Vmax 81.4 +/- 27.9 pmol/mg/min) affinity component. The high-affinity component was identified as CYP2D6 which exhibits a genetic polymorphism in man. This component was absent in the PM liver. The low-affinity component was present in EM and PM livers and was identified as CYP3A4. LKM1 antibodies directed against CYP2D6 completely inhibited the high affinity component. Quinidine (0.5 microM) inhibited 5- and 6-hydroxylation at 10-80 microM tropisetron concentrations competitively by 70% with Ki values of 10 and 18 nM, respectively. Stably-expressed CYP2D6 catalysed the formation of both 5-OH-ICS and 6-OH-ICS. Both inhibition experiments and use of stably-expressed enzymes revealed formation of N-De-ICS to be mediated by CYP3A4. Based on in vitro intrinsic clearances CYP2D6-catalysed 5-OH-ICS and 6-OH-ICS is the predominant route of tropisetron elimination. Large phenotype-related differences in total clearance are to be expected after administration of tropisetron. However, in view of the wide therapeutic index of tropisetrone and the rather high Ki for inhibition of the metabolism of other drugs by tropisetron, both the interindividual variability and the interaction potential appear to be of no clinical relevance.
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PMID:In vitro characterization of cytochrome P450 catalysed metabolism of the antiemetic tropisetron. 759 39

Paroxetine is a trans-isomeric phenylpiperidine with antidepressant properties induced by selective inhibition of the neuronal high affinity uptake of serotonin. In comparison with other selective serotonin uptake inhibitors paroxetine is 2 to 23 times more potent. With the exception of a low affinity to muscarinic receptors, which is not relevant for therapeutic effects, it does not interact directly with monoamine neurotransmitter receptors. Paroxetine is applied orally at single daily doses of 20 to 50 mg and well absorbed from the gastrointestinal tract. It undergoes a partially saturated first pass metabolism which reduces the bioavailability at therapeutic doses to about 30-60%. Maximal blood levels are reached 2 to 8 hours after oral administration. In the plasma 95% of the drug are bound to protein. Paroxetine is eliminated after transformation in the liver into pharmacologically inactive metabolites. High affinity to the cytochrome P450 isoenzyme CYP2D6 indicates that interferences occur with other drugs which are metabolized via the same isoenzyme. Although clinical practice has not reported problematic drug interactions so far, comedications with tricyclic antidepressants should be avoided. The most frequent side effects of paroxetine concern nausea and somnolescence. Since cardiotoxicity or other toxic side effects are much less frequent than under tricyclic antidepressants paroxetine seems advantageous in elderly patients. The onset of antidepressant effects requires several weeks as known for all currently available antidepressants. The pharmacokinetic and pharmacodynamic properties of paroxetine taken together indicate that this selective serotonin uptake inhibitor seems advantageous to other antidepressant agents because of its high selectivity and poor toxicity.
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PMID:[Paroxetine: pharmacokinetics and pharmacodynamics]. 795 22

Major depression is a common and disabling disorder with far-reaching social and economic implications. Nonetheless, major depression is treatable by one of the many currently available antidepressants with response rates of approximately 65-70%. Treatment of depression has improved in recent years because of the availability of effective and well-tolerated antidepressants, such as the selective serotonin reuptake inhibitors (SSRIs). The currently available antidepressants are generally equally effective and are distinguished primarily by side-effect profiles. The side effects of tricyclic antidepressants (TCAs) are attributed to their nonspecific interaction with cholinergic, histaminergic, serotonergic, and dopaminergic receptors in the central nervous system. The secondary amine TCAs, nortriptyline and desipramine, are preferred among the TCAs because of a more favorable side-effect profile. The TCAs are cardiotoxic, and overdoses are frequently fatal. Adverse effects, including potentially fatal drug and food interactions, limit the use of the monoamine oxidase inhibitors (MAOIs); however, these agents have a role in the treatment of depression with comorbid anxiety, refractory depression, atypical depression, and bulimia. The SSRIs possess a class side-effect profile of headache, nausea, and sexual dysfunction. Individual differences in side effects may distinguish fluoxetine (nervousness, restlessness), sertraline (diarrhea, loose stools), and paroxetine (dry mouth). The SSRIs all inhibit certain cytochrome P450 isoenzymes involved in the metabolism of drugs, such as the TCAs, and each SSRI has been reported to increase plasma concentrations of concomitantly administered TCAs. Bupropion therapy is associated with a risk of seizure development, which can be minimized by multiple daily doses. Trazodone is sedating and can rarely cause priapism. The related compound, nefazodone, does not cause sexual dysfunction or priapism, but is associated with sedation. Venlafaxine, a recently available antidepressant that appears to have efficacy in treatment-refractory depression, may cause nausea that requires gradual upward dosage titration. Higher doses of venlafaxine may also cause elevations in blood pressure, heart rate, and serum cholesterol. As more is learned about the pathophysiology of depression, even more specific and well-tolerated antidepressants will be developed.
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PMID:Contemporary management of depression. 799 23

The question of whether the pharmacokinetics of ethinyl estradiol (EE2) is affected differently by the progestins in low-dose combined oral contraceptives containing gestodene or desogestrel was revisited. 80 randomly allocated women took 30 mcg EE2 and either 75 mcg gestodene or 150 mcg desogestrel for the first 21 days of each cycle for 6 months. Blood samples taken on days 1, 10, and 21 of the 1st, 3rd and 6th cycle, at frequent times for 24 hours after pill intake, were analyzed for EE2, corticosteroid binding globulin, cortisol and 6beta-hydroxycortisol. 31 women in each group completed the study. Minor side effects such as headache, breast tension, acne, and nausea occurred in each group; 1 subject dropped out because of headache, nausea, and hypermenorrhea and 1 because of a hematoma. No significant differences were seen in serum EE2 levels including the rise in mean EE2 on days 1-10, or the smaller rise between days 10-21, or the pharmacokinetic parameters Cmax, tmax, area under the curve (AUC) at 0-4 hours, or AUC at 0-24 hours. There was a maximal variation of 11% in intracyclical increases in serum EE2, but no change in intercyclical variations. There were also no significant differences between groups in the expected estrogen-induced increase in corticosteroid binding globulin. Urinary hydroxycortisol increased slightly over each cycle, somewhat more in the 1st cycle, and a bit more in the desogestrel cycles than in gestodene cycles, but not significantly. This study was contrasted in detail with the reports that prompted the controversy over pharmacokinetics of estradiol during intake of the involved combined pills. The import of the assays for cortisol metabolites is the fact that estradiol and cortisol are metabolized by the same liver cytochrome P450 isoenzyme.
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PMID:Influence of gestodene and desogestrel as components of low-dose oral contraceptives on the pharmacokinetics of ethinyl estradiol (EE2), on serum CBG and on urinary cortisol and 6 beta-hydroxycortisol. 846 17

The pharmacokinetics of fluvoxamine, a selective serotonin reuptake inhibitor (SSRI) with antidepressant properties, are well established. After oral administration, the drug is almost completely absorbed from the gastrointestinal tract, and the extent of absorption is unaffected by the presence of food. Despite complete absorption, oral bioavailability in man is approximately 50% on account of first-pass hepatic metabolism. Peak plasma fluvoxamine concentrations are reached 4 to 12 hours (enteric-coated tablets) or 2 to 8 hours (capsules, film-coated tablets) after administration. Steady-state plasma concentrations are achieved within 5 to 10 days after initiation of therapy and are 30 to 50% higher than those predicted from single dose data. Fluvoxamine displays nonlinear steady-state pharmacokinetics over the therapeutic dose range, with disproportionally higher plasma concentrations with higher dosages. Plasma fluvoxamine concentrations show no clear relationship with antidepressant response or severity of adverse effects. Fluvoxamine undergoes extensive oxidative metabolism, most probably in the liver. Nine metabolites have been identified, none of which are known to be pharmacologically active. The specific cytochrome P450 (CYP) isoenzymes involved in the metabolism of fluvoxamine are unknown. CYP2D6, which is crucially involved in the metabolism of paroxetine and fluoxetine, appears to play a clinically insignificant role in the metabolism of fluvoxamine. The drug is excreted in the urine, predominantly as metabolites, with only negligible amounts ( < 4%) of the parent compound. Fluvoxamine shows a biphasic pattern of elimination with a mean terminal elimination half-life of 12 to 15 hours after a single oral dose; this is prolonged by 30 to 50% at steady-state. Plasma protein binding of fluvoxamine (77%) is low compared with that of other SSRIs. Fluvoxamine pharmacokinetics are substantially unaltered by increased age or renal impairment. However, its elimination is prolonged in patients with hepatic cirrhosis. Fluvoxamine inhibits oxidative drug metabolising enzymes (particularly CYP1A2, and less potently and much less potently CYP3A4 and CYP2D6, respectively) and has the potential for clinically significant drug interactions. Drugs whose metabolic elimination is impaired by fluvoxamine include tricyclic antidepressants (tertiary, but not secondary, amines), alprazolam, bromazepam, diazepam, theophylline, propranolol, warfarin and, possibly, carbamazepine. Fluvoxamine is a second generation antidepressant that selectively inhibits neuronal reuptake of serotonin (5-hydroxytryptamine; 5-HT). Fluvoxamine exhibits antidepressant activity similar to that of the tricyclic antidepressants, but has a somewhat improved tolerability profile, particularly with respect to a lower incidence of anticholinergic effects and reduced cardiotoxic potential. However, gastrointestinal adverse effects, especially nausea, are seen more frequently with fluvoxamine than with the tricyclic antidepressants. Fluvoxamine does not have an asymmetric carbon in its structure (fig. 1) and therefore does not exist as optical isomers. For this reason, the potentially confounding problem of stereoisomerism does not arise with fluvoxamine.
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PMID:Overview of the pharmacokinetics of fluvoxamine. 884 17

Nefazodone hydrochloride is a phenylpiperazine antidepressant with a mechanism of action that is distinct from those of other currently available drugs. It potently and selectively blocks postsynaptic serotonin (5-hydroxytryptamine; 5-HT) 5-HT2A receptors and moderately inhibits serotonin and noradrenaline (norepinephrine) reuptake. In short term clinical trials of 6 or 8 weeks' duration, nefazodone produced clinical improvements that were significantly greater than those with placebo and similar to those achieved with imipramine, and the selective serotonin reuptake inhibitors (SSRIs) fluoxetine, paroxetine and sertraline. The optimum therapeutic dosage of nefazodone appears to be between 300 and 600 mg/day. Limited long term data suggest that nefazodone is effective in preventing relapse of depression in patients treated for up to 1 year. Analyses of pooled clinical trial results indicate that nefazodone and imipramine produces similar and significant improvements on anxiety- and agitation-related rating scales compared with placebo in patients with major depression. Short term tolerability data indicate that nefazodone has a lower incidence of adverse anticholinergic, antihistaminergic and adrenergic effects than imipramine. Compared with SSRIs, nefazodone causes fewer activating symptoms, adverse gastrointestinal effects (nausea, diarrhoea, anorexia) and adverse effects on sexual function, but is associated with more dizziness, dry mouth, constipation, visual disturbances and confusion. Available data also suggest that nefazodone is not associated with abnormal weight gain, seizures, priapism or significant sleep disruption, and appears to be relatively safe in overdosage. Nefazodone inhibits the cytochrome P450 3A4 isoenzyme and thus has the potential to interact with a number of drugs. Further long term and comparative studies will provide a more accurate assessment of the relative place of nefazodone in the management of major depression. Nonetheless, available data suggest that nefazodone is a worthwhile treatment alternative to tricyclic antidepressants and SSRIs in patients with major depression.
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PMID:Nefazodone. A review of its pharmacology and clinical efficacy in the management of major depression. 921 Oct 88

Midazolam is a familiar agent commonly used in the emergency department to provide sedation prior to procedures such as laceration repair and reduction of dislocations. Midazolam is also effective in the treatment of generalized seizures, status epilepticus, and behavioral emergencies, particularly when intravenous access is not available. Midazolam is often employed as an induction agent for rapid sequence endotracheal intubation. Midazolam has a rapid onset of action following intravenous, intramuscular, oral, nasal, and rectal administration. Only 50% of an orally administered dose reaches the systemic circulation due to extensive first-pass metabolism. Midazolam is metabolized by the cytochrome P450 enzyme system to several metabolites including an active metabolite, alpha-hydroxymidazolam. Cytochrome P450 inhibitors such as cimetidine can profoundly reduce the metabolism of midazolam. Midazolam has a half-life of approximately 1 h, but this half-life may be prolonged in patients with renal or hepatic dysfunction. Midazolam has been associated with respiratory depression and cardiac arrest when used in combination with an opioid, particularly in the elderly, although all ages are at risk for respiratory depression. Midazolam is relatively free of side effects when used alone and offers several advantages over traditional pharmacological agents such as chloral hydrate and the combination of meperidine, chlorpromazine, and promethazine. Hiccups, cough, nausea, and vomiting are the most commonly reported adverse effects. Many of the adverse effects associated with midazolam can be reversed rapidly by the administration of flumazenil, a competitive benzodiazepine receptor antagonist. Midazolam is a safe and effective agent for providing sedation in the emergency department.
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PMID:Midazolam: a review of therapeutic uses and toxicity. 925 87

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