UMLS:C0027497 - FACTA Search

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Query: UMLS:C0027497 (nausea)
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Chagas' disease (American trypanosomiasis) is an endemic parasitic disease in some areas of Latin America. About 16-18 million persons are infected with the aetiological agent of the disease, Trypanosoma cruzi, and more than 100 million are living at risk of infection. There are different modes of infection: (1) via blood sucking vector insects infected with T. cruzi, accounting for 80-90% of transmission of the disease; (2) via blood transfusion or congenital transmission, accounting for 0.5-8% of transmission; (3) other less common forms of infection, eg, from infected food or drinks or via infected organs used in transplants. The acute phase of the disease can last from weeks to months and typically is asymptomatic or associated with fever and other mild nonspecific manifestations. However, life-threatening myocarditis or meningoencephalitis can occur during the acute phase. The death rate for persons in this phase is about 10%. Approximately 10-50% of the survivors develop chronic Chagas' disease, which is characterized by potentially lethal cardiopathy and megacolon or megaoesophagus. There are two drugs available for the aetiological treatment of Chagas' disease: nifurtimox (Nfx) and benznidazole (Bz). Nfx is a nitrofurane and Bz is a nitroimidazole compound. The use of these drugs to treat the acute phase of the disease is widely accepted. However, their use in the treatment of the chronic phase is controversial. The undesirable side effects of both drugs are a major drawback in their use, frequently forcing the physician to stop treatment. The most frequent adverse effects observed in the use of Nfx are: anorexia, loss of weight, psychic alterations, excitability, sleepiness, digestive manifestations such as nausea or vomiting, and occasionally intestinal colic and diarrhoea. In the case of Bz, skin manifestations are the most notorious (e.g., hypersensitivity, dermatitis with cutaneous eruptions, generalized oedema, fever, lymphoadenopathy, articular and muscular pain), with depression of bone marrow, thrombocytopenic purpura and agranulocytosis being the more severe manifestations. Experimental toxicity studies with Nfx evidenced neurotoxicity, testicular damage, ovarian toxicity, and deleterious effects in adrenal, colon, oesophageal and mammary tissue. In the case of Bz, deleterious effects were observed in adrenals, colon and oesophagus. Bz also inhibits the metabolism of several xenobiotics biotransformed by the cytochrome P450 system and its reactive metabolites react with fetal components in vivo. Both drugs exhibited significant mutagenic effects and were shown to be tumorigenic or carcinogenic in some studies. The toxic side effects of both nitroheterocyclic derivatives require enzymatic reduction of their nitro group. Those processes are fundamentally mediated by cytochrome P450 reductase and cytochrome P450. Other enzymes such as xanthine oxidoreductase or aldehyde oxidase may also be involved.
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PMID:Toxic side effects of drugs used to treat Chagas' disease (American trypanosomiasis). 1693 19

A total of 17 years after its introduction, bupropion remains a safe and effective antidepressant, suitable for first-line use. Bupropion undergoes metabolic transformation to an active metabolite, 4-hydroxybupropion, through hepatic cytochrome P450-2B6 (CYP2B6) and has inhibitory effects on cytochrome P450-2D6 (CYP2D6), thus raising concern for clinically-relevant drug interactions. Common side effects are nervousness and insomnia. Nausea appears slightly less common than with the SSRI drugs and sexual dysfunction is probably the least of any antidepressant. Bupropion is relatively safe in overdose with seizures being the predominant concern. The mechanism of action of bupropion is still uncertain but may be related to inhibition of presynaptic dopamine and norepinephrine reuptake transporters. The activity of vesicular monoamine transporter-2, the transporter pumping dopamine, norepinephrine and serotonin from the cytosol into presynaptic vesicles, is increased by bupropion and may be a component of its mechanism of action. Bupropion is approved for use in major depression and seasonal affective disorder and has demonstrated comparable efficacy to other antidepressants in clinical trials. Bupropion is also useful in augmenting a partial response to selective serotonin reuptake inhibitor antidepressants, although bupropion should not be combined with monoamine oxidase inhibitors. It may be less likely to provoke mania than antidepressants with prominent serotonergic effects. Bupropion is effective in helping people quit tobacco smoking. Anecdotal reports indicate bupropion may lower inflammatory mediators such as tumor necrosis factor-alpha, may lower fatigue in cancer and may help reduce concentration problems.
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PMID:Bupropion: pharmacology and therapeutic applications. 1700 13

Nausea and vomiting are ranked as the most severe side effects to chemotherapy by cancer patients. Twenty years ago, treatment of nausea and vomiting from chemotherapy only had moderate effect and often unpleasant side effects. The drugs used included dopamine(2)-receptor antagonists and corticosteroids alone or combined. This review summarizes the development of anti-emetic therapy, but will focus on the importance of two new classes of anti-emetics: the serotonin(3)- and the neurokinin(1)-receptor antagonists. Furthermore, evidence-based guidelines for the treatment of chemotherapy-induced nausea and vomiting will be given. The serotonin(3)-receptor antagonists, the first group of drugs developed specifically as anti-emetics, have significantly improved the prophylaxis of chemotherapy-induced emesis especially in combination with a corticosteroid. The improvement in the prophylaxis of nausea with this combination is however modest. A new group of anti-emetics, the neurokinin(1)-receptor antagonists, has now been developed, and the first drug, aprepitant, was marketed in 2003. Aprepitant increases the effect of a serotonin(3)-receptor antagonist plus a corticosteroid against acute emesis induced by highly or moderately emetogenic chemotherapy and aprepitant is also active in the protection against delayed emesis. The importance of drug-drug interactions with anti-emetics and other drugs, especially cytotoxins, through their competition for cytochrome P450 enzymes, have been studied. At present, there is no evidence that such interactions are of major clinical importance. Evidence-based clinical guidelines are now available and regularly updated, but unfortunately clinical implementation is slow. Recommendations for some types of chemotherapy-induced emesis such as delayed emesis, is based on a low level of evidence. Furthermore, the majority of clinical trials include highly selected groups of patients not permitting definite conclusions for other and more heterogeneous patient groups. Development of new anti-emetics with other mechanisms of action is awaited with interest.
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PMID:Anti-emetic therapy in cancer chemotherapy: current status. 1769 32

Loperamide is an antidiarrheal medication approved for the control of diarrhea symptoms and is available without a prescription. Loperamide works by a number of different mechanisms of action that decrease peristalsis and fluid secretion, resulting in longer gastrointestinal transit time and increased absorption of fluids and electrolytes from the gastrointestinal tract. It is a phenylpiperidine derivative with a chemical structure similar to opiate receptor agonists such as diphenoxylate and haloperidol. It was designed to maintain the antidiarrheal activity of these drugs, but minimize the negative aspects associated with their effects on the opiate receptor. Because of loperamides's low oral absorption and inability to cross the blood-brain barrier, it has minimal central nervous system effects. It also has a longer duration of action than diphenoxylate. However, it has no clinically significant analgesic activity and does not decrease the pain associated with some forms of irritable bowel syndrome and diarrhea. Loperamide is metabolized by the cytochrome P450 (CYP) system and is a substrate for the CYP3A4 isoenzyme. Concurrent administration with CYP3A4 inhibitors may elevate loperamide concentrations. Common adverse reactions to loperamide include cramps and nausea. Loperamide is an effective treatment for patients with painless diarrhea and is considered to be free of abuse potential.
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PMID:Loperamide: a pharmacological review. 1819 61

Anidulafungin is a new echinocandin antifungal agent recently approved in Spain by the Spanish Drug Agency. As other echinocandins, it inhibits a selective target, 1,3- beta-D-glucan synthesis, a major structural component of the fungal cell wall which is not present in mammalian cells, this avoiding toxicity problems. It has fungicidal activity against many Candida spp., including fluconazole-resistant, and fungistatic activity against other yeast and moulds such as Aspergillus spp. Clinical trials have shown non-inferiority of anidulafungin to fluconazole for invasive, including candidemia, and non-invasive Candida infections. It is well-tolerated, and no drug-related serious adverse events have been reported. Anidulafungin, which has a very long half life, is slowly degraded by human peptidases and proteases and has a low drug-drug interaction profile based on its lack of interaction with the cytochrome P450 system. Thus, dosing adjustments of anidulafungin based on age, gender, body weight, disease status, concomitant therapy or renal or hepatic insufficiency is not necessary. As it does not interact with amphotericin B and voriconazole, cyclosporine, tacrolimus and other drugs, it can be used in combination with other antifungal agents and co-administered with immunosuppressant drugs. It is generally well-tolerated in clinical trials. Its most frequent adverse events are nausea, vomiting, moderate diarrhea, transient elevation of hepatic enzymes and headache. Some of the patients have mild, passing reactions such as facial blushing, nausea and dyspnea related with rapid intravenous perfusion. Its antifungal activity, clinical efficacy, safety profile, and pharmacokinetic characteristics make it a suitable alternative antifungal compound for therapy of mucosal candidiasis, candidemia and invasive candidiasis, above all in patients with some degree of renal and hepatic insufficiency.
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PMID:[Anidulafungin]. 1850 69

Etravirine (TMC125) is a next-generation non-nucleoside reverse transcriptase inhibitor (NNRTI) that is being developed for the treatment of HIV-1 infections. The drug was recently approved by the US FDA to be used in combination with other anti-HIV medications. Etravirine is a highly flexible diarylpyrimidine compound, with favorable binding interactions toward mutant HIV strains as well as wild-type virus. This conformation confers an increased genetic barrier to resistance compared with other NNRTIs: multiple mutations are required before there is a decrease in susceptibility to etravirine; whereas, only one mutation (K103N) is typically needed to confer high-level resistance to the first-generation NNRTIs. In vitro, etravirine is predominantly metabolized by cytochrome P450 (CYP)3A4 and CYP2C (2C9, 2C18 and 2C19). In vivo, the most important metabolic pathway for etravirine is methyl hydroxylation, with subsequent glucuronidation of the metabolites. Etravirine is an inducer of CYP3A4 and a weak inhibitor of CYP2C9, CYP2C19 and P-glycoprotein. In Phase II and III trials in treatment-experienced patients, treatment with etravirine led to better virological suppression than placebo. In the DUET I and II trials (Phase III), approximately 60% of the etravirine group achieved a confirmed viral load of less than 50 copies/ml at week 24, compared with approximately 40% in the placebo arm. The mean change in viral load at week 24 was -2.34 (standard deviation: 1.31) and -1.68 (1.40) log(10) copies/ml in the etravirine and placebo groups, respectively. The presence of three or more NNRTI-associated mutations at baseline negatively influenced the outcome. There were no safety concerns and no major differences in frequency or severity of side effects between etravirine and placebo groups, with the exception of rash. Furthermore, the overall rate of discontinuation due to any adverse event was similar between the etravirine and placebo groups. The most common adverse events reported were rash and nausea.
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PMID:Etravirine for the treatment of HIV infection. 1866 9

Modafinil is a wake-promoting agent that is pharmacologically different from other stimulants. It has been investigated in healthy volunteers, and in individuals with clinical disorders associated with excessive sleepiness, fatigue, impaired cognition and other symptoms. This review examines the use of modafinil in clinical practice based on the results of randomized, double-blind, placebo-controlled clinical trials available in the English language in the MEDLINE database. In sleep-deprived individuals, modafinil improves mood, fatigue, sleepiness and cognition to a similar extent as caffeine but has a longer duration of action. Evidence for improved cognition in non-sleep-deprived healthy volunteers is controversial.Modafinil improves excessive sleepiness and illness severity in all three disorders for which it has been approved by the US FDA, i.e. narcolepsy, shift-work sleep disorder and obstructive sleep apnoea with residual excessive sleepiness despite optimal use of continuous positive airway pressure (CPAP). However, its effects on safety on the job and on morbidities associated with these disorders have not been ascertained. Continued use of CPAP in obstructive sleep apnoea is essential. Modafinil does not benefit cataplexy.In very small, short-term trials, modafinil improved excessive sleepiness in patients with myotonic dystrophy. It was efficacious in fairly large studies of attention deficit hyperactivity disorder (ADHD) in children and adolescents, and was as efficacious as methylphenidate in a small trial, but has not been approved by the FDA, in part because of its serious dermatological toxicity. In a trial of 21 non-concurrent subjects, with 2-week treatment periods, modafinil was as effective as dexamfetamine in adult ADHD. Modafinil was helpful for depressive symptoms in bipolar disorder in a trial that excluded patients with stimulant-induced mania. A single dose of modafinil may hasten recovery from general anaesthesia after day surgery. A single dose of modafinil improved the ability of emergency room physicians to attend didactic lectures after a night shift, but did not improve their ability to drive home and caused sleep disturbances subsequently.Modafinil had a substantial placebo effect on outcomes such as fatigue, excessive sleepiness and depression in patients with traumatic brain injury, major depressive disorder, schizophrenia, post-polio fatigue and multiple sclerosis; however, it did not provide any benefit greater than placebo.Trials of modafinil for excessive sleepiness in Parkinson's disease, cocaine addiction and cognition in chronic fatigue syndrome provided inconsistent results; all studies had extremely small sample sizes. Modafinil cannot be recommended for these conditions until definitive data become available.Modafinil induces and inhibits several cytochrome P450 isoenzymes and has the potential for interacting with drugs from all classes. The modafinil dose should be reduced in the elderly and in patients with hepatic disease. Caution is needed in patients with severe renal insufficiency because of substantial increases in levels of modafinil acid. Common adverse events with modafinil include insomnia, headache, nausea, nervousness and hypertension. Decreased appetite, weight loss and serious dermatological have been reported with greater frequency in children and adolescents, probably due to the higher doses (based on bodyweight) used. Modafinil may have some abuse/addictive potential although no cases have been reported to date.
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PMID:Approved and investigational uses of modafinil : an evidence-based review. 1872 34

Etravirine is the first next-generation nonnucleoside reverse-transcriptase inhibitor (NNRTI) that is approved for the treatment of HIV infection in patients who have experienced virologic failure while receiving an NNRTI-containing regimen. The drug is taken as two 100-mg tablets twice daily after a meal. Because the drug is metabolized by cytochrome P450 isoenzymes, it cannot be coadministered with a number of other drugs (fosamprenavir, high-dose ritonavir, atazanavir, rifampin, and several antiepileptic medications). Etravirine demonstrates potent in vitro activity against wild-type and NNRTI-resistant strains of HIV. In vitro resistance and treatment failure is associated with the development of multiple NNRTI resistance mutations other than the K103N mutation. Several large clinical studies have documented the benefit of adding etravirine to an optimized background regimen in patients with virologic failure who are infected with multidrug-resistant HIV. The major adverse effects of etravirine therapy are nausea and rash, which are typically self-limiting and do not lead to treatment discontinuation.
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PMID:Etravirine, a next-generation nonnucleoside reverse-transcriptase inhibitor. 1927 97

OBJECTIVES: Rifampin is a potent inducer of the cytochrome P450 3A4 isoenzyme (CYP3A4) that metabolizes most protease inhibitor (PI) antiretrovirals. This study was designed to evaluate the steady-state pharmacokinetics and tolerability of the coadministration of the PIs saquinavir and ritonavir (a CYP3A4 inhibitor used as a pharmacoenhancer of other PIs) and rifampin when coadministered in healthy HIV-negative volunteers. METHODS: In an open-label, randomized, one sequence, two-period crossover study involving 28 healthy HIV-negative volunteers, arm 1 was randomized to receive saquinavir/ritonavir 1000/100 mg twice daily while arm 2 received rifampin 600 mg once daily for 14 days. Both arms were then to receive concomitant saquinavir/ritonavir and rifampin for 2 additional weeks. Vital signs, electrocardiography, laboratory analyses, and blood levels of total saquinavir, ritonavir, rifampin, and desacetyl-rifampin, the primary metabolite of rifampin, were measured. RESULTS: In arm 1, 10/14 (71%) and, in arm 2, 11/14 (79%) participants completed the first study phase; eight participants in arm 1 and nine in arm 2 went on to receive both saquinavir/ritonavir and rifampin. Following substantial elevations (>/= grade 2) in hepatic transaminases in participants receiving the coadministered agents, the study was discontinued prematurely. Two participants in arm 1 displayed moderate elevations after five and four doses of rifampin, respectively. In arm 2, all participants experienced severe elevations within 4 days of initiating saquinavir/ritonavir. Clinical symptoms (e.g., nausea, vomiting, abdominal pain, and headache) were more common and severe in arm 2. Clinical symptoms abated and transaminases normalized following drug discontinuation. Limited pharmacokinetic data suggest a possible relationship between transaminase elevation and elevated rifampin and desacetyl-rifampin concentrations. CONCLUSIONS: Although not confirmed in HIV-infected patients, the data indicate that rifampin should not be coadministered with saquinavir/ritonavir.
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PMID:Unexpected Hepatotoxicity of Rifampin and Saquinavir/Ritonavir in Healthy Male Volunteers. 1938 36

Atomoxetine (Strattera(R)) is a selective norepinephrine (noradrenaline) reuptake inhibitor that is not classified as a stimulant, and is indicated for use in patients with attention-deficit hyperactivity disorder (ADHD). Atomoxetine is effective and generally well tolerated. It is significantly more effective than placebo and standard current therapy and does not differ significantly from or is noninferior to immediate-release methylphenidate; however, it is significantly less effective than the extended-release methylphenidate formulation OROS(R) methylphenidate (hereafter referred to as osmotically released methylphenidate) and extended-release mixed amfetamine salts. Atomoxetine can be administered either as a single daily dose or split into two evenly divided doses, has a negligible risk of abuse or misuse, and is not a controlled substance in the US. Atomoxetine is particularly useful for patients at risk of substance abuse, as well as those who have co-morbid anxiety or tics, or who do not wish to take a controlled substance. Thus, atomoxetine is a useful option in the treatment of ADHD in children and adolescents. The mechanism of action of atomoxetine is unclear, but is thought to be related to its selective inhibition of presynaptic norepinephrine reuptake in the prefrontal cortex. Atomoxetine has a high affinity and selectivity for norepinephrine transporters, but little or no affinity for various neurotransmitter receptors. Atomoxetine has a demonstrated ability to selectively inhibit norepinephrine uptake in humans and animals, and studies have shown that it preferentially binds to areas of known high distribution of noradrenergic neurons, such as the fronto-cortical subsystem. Atomoxetine was generally associated with statistically, but not clinically, significant increases in both heart rate and blood pressure in pediatric patients with ADHD. While there was an initial loss in expected height and weight among atomoxetine recipients, this eventually returned to normal in the longer term. Data suggest that atomoxetine is unlikely to have any abuse potential. Atomoxetine appeared less likely than methylphenidate to exacerbate disordered sleep in pediatric patients with ADHD. Atomoxetine is rapidly absorbed, and demonstrates dose-proportional increases in plasma exposure. It undergoes extensive biotransformation, which is affected by poor metabolism by cytochrome P450 (CYP) 2D6 in a small percentage of the population; these patients have greater exposure to and slower elimination of atomoxetine than extensive metabolizers. Patients with hepatic insufficiency show an increase in atomoxetine exposure. CYP2D6 inhibitors, such as paroxetine, are associated with changes in atomoxetine pharmacokinetics similar to those observed among poor CYP2D6 metabolizers. Once- or twice-daily atomoxetine was effective in the short-term treatment of ADHD in children and adolescents, as observed in several well designed placebo-controlled trials. Atomoxetine also demonstrated efficacy in the longer term treatment of these patients. A single morning dose was shown to be effective into the evening, and discontinuation of atomoxetine was not associated with symptom rebound. Atomoxetine efficacy did not appear to differ between children and adolescents. Stimulant-naive patients also responded well to atomoxetine treatment. Atomoxetine did not differ significantly from or was noninferior to immediate-release methylphenidate in children and adolescents with ADHD with regard to efficacy, and was significantly more effective than standard current therapy (any combination of medicines [excluding atomoxetine] and/or behavioral counseling, or no treatment). However, atomoxetine was significantly less effective than osmotically released methylphenidate and extended-release mixed amfetamine salts. The efficacy of atomoxetine did not appear to be affected by the presence of co-morbid disorders, and symptoms of the co-morbid disorders were not affected or were improved by atomoxetine administration. Health-related quality of life (HR-QOL) appeared to be positively affected by atomoxetine in both short- and long-term studies; atomoxetine also improved HR-QOL to a greater extent than standard current therapy. Atomoxetine was generally well tolerated in children and adolescents with ADHD. Common adverse events included headache, abdominal pain, decreased appetite, vomiting, somnolence, and nausea. The majority of adverse events were mild or moderate; there was a very low incidence of serious adverse events. Few patients discontinued atomoxetine treatment because of adverse events. Atomoxetine discontinuation appeared to be well tolerated, with a low incidence of discontinuation-emergent adverse events. Atomoxetine appeared better tolerated among extensive CYP2D6 metabolizers than among poor metabolizers. Slight differences were evident in the adverse event profiles of atomoxetine and stimulants, both immediate- and extended-release. Somnolence appeared more common among atomoxetine recipients and insomnia appeared more common among stimulant recipients. A black-box warning for suicidal ideation has been published in the US prescribing information, based on findings from a meta-analysis showing that atomoxetine is associated with a significantly higher incidence of suicidal ideation than placebo. Rarely, atomoxetine may also be associated with serious liver injury; postmarketing data show that three patients have had liver-related adverse events deemed probably related to atomoxetine treatment. Treatment algorithms involving the initial use of atomoxetine appear cost effective versus algorithms involving initial methylphenidate (immediate- or extended-release), dexamfetamine, tricyclic antidepressants, or no treatment in stimulant-naive, -failed, and -contraindicated children and adolescents with ADHD. The incremental cost per quality-adjusted life-year is below commonly accepted cost-effectiveness thresholds, as shown in several Markov model analyses conducted from the perspective of various European countries, with a time horizon of 1 year.
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PMID:Atomoxetine: a review of its use in attention-deficit hyperactivity disorder in children and adolescents. 1944 48

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