Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0018681 (headache)
 56,091 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ketoconazole 200-400 mg was given once daily for a maximum period of 12 months to 31 patients with chronic (mean duration, 12 years) dermatophyte infections of the hands and/or feet. Griseofulvin had previously been withdrawn due to intolerance or lack of effect. All skin and nail infections improved clinically. Fifty percent of the patients with skin infections and 26% of those with nail infections became clinically clear and culture-negative. Six months later, relapses had occurred in 8 of 12 patients (67%) with cleared skin lesions, and in 2 of 5 (40%) with cleared nail infections. Ketoconazole was discontinued in one patient due to headache and in another due to asymptomatic transient elevation of hepatic laboratory tests. Ketoconazole is an alternative when a replacement for griseofulvin is required, provided the degree of disability justifies the risk of drug toxicity.
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PMID:Long-term ketoconazole treatment of chronic acral dermatophyte infections. 315 97

We have treated 48 cases of onychomycosis (of which 37 were caused by dermatophytes, 10 by yeasts and one by Scopulariopsis brevicaulis) with 200 mg ketoconazole daily. We obtained recovery in 65 p. 100 of the cases of onyxis caused by dermatophytes and in 80 p. 100 of the cases of onychomycosis due to Candida. The one patient presenting an infection with Scopulariopsis brevicaulis recovered in 13 months. The average duration necessary to obtain complete recovery was 6 1/2 months for onychomycosis of the hands due to dermatophytes and 12 1/2 months for those of the feet. Perionyxis due to Candida needed 2 months of treatment with this drug, however 6 months of treatment were necessary to obtain recovery for onycholysis due to Candida. Biological tests remained normal and the side-effects were minimal and essentially gastrointestinal in our study. Ketoconazole is an effective treatment for onychomycosis: it is active against the different mycotic agents infecting nails and well tolerated by the patient. Several minor effects such as itching, nausea, headache and more serious reactions such as erythrodermia and hepatitis have been reported. Regular control and biological tests are therefore necessary. Patients with other diseases should avoid the use of ketoconazole for treatment of onychomycosis.
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PMID:[Ketoconazole and onychomycosis]. 608 41

A patient with AIDS and asymptomatic Chagas's disease and positive xenodiagnosis was taking ketoconazole in order to suppress parasitemia and prevent reactivation of Chagas's disease. Ketoconazole was unplanned suspended after 6 months, and the patient was admitted with fever, headache, vomiting, tachycardia, postural hypotension, hepatosplenomegaly, and positive xenodiagnosis one month later. Treatment with benzonidazole was begun leading to suppression of parasitemia. The patient had probability a neurotoxoplasmosis associated and progressed to coma and death with sepsis. No parasite was found in autopsy.
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PMID:[Reactivation of Trypanosoma cruzi infection in patients with acquired immunodeficiency syndrome]. 1038 May 69

The newer antifungal agents itraconazole, terbinafine and fluconazole have become available to treat onychomycosis over the last 10 years. During this time period these agents have superseded griseofulvin as the agent of choice for onychomycosis. Unlike griseofulvin, the new agents have a broad spectrum of action that includes dermatophytes, Candida species and nondermatophyte moulds. Each of the 3 oral antifungal agents, terbinafine, itraconazole and fluconazole, is effective against dermatophytes with relatively fewer data being available for the treatment of Candida species and nondermatophyte moulds. Itraconazole is effective against Candida onychomycosis. Terbinafine may be more effective against C. parapsilosis compared with C. albicans; furthermore with Candida species a higher dose of terbinafine or a longer duration of therapy may be required compared with the regimen for dermatophytes. The least amount of experience in treating onychomycosis is with fluconazole. Griseofulvin is not effective against Candida species or the nondermatophyte moulds. The main use of griseo-fulvin currently is to treat tinea capitis. Ketoconazole may be used by some to treat tinea versicolor with the dosage regimens being short and requiring the use of only a few doses. The preferred regimens for the 3 oral antimycotic agents are as follows: itraconazole - pulse therapy with the drug being administered for 1 week with 3 weeks off treatment between successive pulses; terbinafine - continuous once daily therapy; and fluconazole - once weekly treatment. The regimen for the treatment of dermatophyte onychomycosis is: itraconazole - 200mg twice daily for I week per month x 3 pulses; terbinafine - 250 mg/day for 12 weeks; or, fluconazole - 150 mg/wk until the abnormal-appearing nail plate has grown out, typically over a period of 9 to 18 months. For the 3 oral antifungal agents the more common adverse reactions pertain to the following systems, gastrointestinal (for example, nausea, gastrointestinal distress, diarrhoea, abdominal pain), cutaneous eruption, and CNS (for example, headache and malaise). Each of the new antifungal agents is more cost-effective than griseofulvin for the treatment of onychomycosis and is associated with high compliance, in part because of the shorter duration of therapy. The newer antifungal agents are generally well tolerated with drug interactions that are usually predictable.
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PMID:A risk-benefit assessment of the newer oral antifungal agents used to treat onychomycosis. 1064 75

Bosentan, a dual endothelin receptor antagonist, is indicated for the treatment of patients with pulmonary arterial hypertension (PAH). Following oral administration, bosentan attains peak plasma concentrations after approximately 3 hours. The absolute bioavailability is about 50%. Food does not exert a clinically relevant effect on absorption at the recommended dose of 125 mg. Bosentan is approximately 98% bound to albumin and, during multiple-dose administration, has a volume of distribution of 30 L and a clearance of 17 L/h. The terminal half-life after oral administration is 5.4 hours and is unchanged at steady state. Steady-state concentrations are achieved within 3-5 days after multiple-dose administration, when plasma concentrations are decreased by about 50% because of a 2-fold increase in clearance, probably due to induction of metabolising enzymes. Bosentan is mainly eliminated from the body by hepatic metabolism and subsequent biliary excretion of the metabolites. Three metabolites have been identified, formed by cytochrome P450 (CYP) 2C9 and 3A4. The metabolite Ro 48-5033 may contribute 20% to the total response following administration of bosentan. The pharmacokinetics of bosentan are dose-proportional up to 600 mg (single dose) and 500 mg/day (multiple doses). The pharmacokinetics of bosentan in paediatric PAH patients are comparable to those in healthy subjects, whereas adult PAH patients show a 2-fold increased exposure. Severe renal impairment (creatinine clearance 15-30 mL/min) and mild hepatic impairment (Child-Pugh class A) do not have a clinically relevant influence on the pharmacokinetics of bosentan. No dosage adjustment in adults is required based on sex, age, ethnic origin and bodyweight. Bosentan should generally be avoided in patients with moderate or severe hepatic impairment and/or elevated liver aminotransferases. Ketoconazole approximately doubles the exposure to bosentan because of inhibition of CYP3A4. Bosentan decreases exposure to ciclosporin, glibenclamide, simvastatin (and beta-hydroxyacid simvastatin) and (R)- and (S)-warfarin by up to 50% because of induction of CYP3A4 and/or CYP2C9. Coadministration of ciclosporin and bosentan markedly increases initial bosentan trough concentrations. Concomitant treatment with glibenclamide and bosentan leads to an increase in the incidence of aminotransferase elevations. Therefore, combined use with ciclosporin and glibenclamide is contraindicated and not recommended, respectively. The possibility of reduced efficacy of CYP2C9 and 3A4 substrates should be considered when coadministered with bosentan. No clinically relevant interaction was detected with the P-glycoprotein substrate digoxin. In healthy subjects, bosentan doses >300 mg increase plasma levels of endothelin-1. The drug moderately reduces blood pressure, and its main adverse effects are headache, flushing, increased liver aminotransferases, leg oedema and anaemia. In a pharmacokinetic-pharmacodynamic study in PAH patients, the haemodynamic effects lagged the plasma concentrations of bosentan.
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PMID:Clinical pharmacology of bosentan, a dual endothelin receptor antagonist. 1556 89

Cushing's disease caused by a microadenoma located near the pituitary stalk is infrequent and spontaneous remission caused by necrosis of a corticotropinoma in such location has not been reported. A 42-year-old woman with ACTH-dependent Cushing's syndrome presented on magnetic resonance imaging (MRI) a 3-mm microadenoma attached to the pituitary stalk. Treatment with ketoconazole normalized urinary free cortisol (UFC) from 433.0 to 66.0 microg/day, although it failed to reduce elevated serum androgen levels (DHEAS 4770 ng/ml). After one year, treatment was stopped and UFC rose again to 936.0 microg/day but one month later the patient presented acute headache and signs of steroid withdrawal syndrome. Endocrine evaluation showed glucocorticoid and androgen deficiency (UFC 5.0 microg/day; DHEAS < 300 ng/ml); control MRI revealed disappearance of the microadenoma. Cushingoid signs subsided and steroid replacement was initiated, proving still necessary over two years after the episode. Infarction or hemorrhage of a corticotrope adenoma could be a probable underlying mechanism although its precipitating factor is unclear. Ketoconazole withdrawal, through abrupt increase in cortisol production and/or the interruption of a hypothetical inhibitory action on cell replication followed by tumor growth and compromise of vascular supply, may be considered as possible triggering factors. To the best of our knowledge, this is the first report of spontaneous remission of Cushing's disease caused by presumed infarction of a microadenoma, unusually located in the superior rim of the pituitary, attached to the stalk.
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PMID:Spontaneous remission of Cushing's disease after disappearance of a microadenoma attached to the pituitary stalk. 1563 98

Cushing's disease (CD), which is caused fundamentally by a pituitary microadenoma, is a rare endocrine disease in the paediatric age and which is associated with significant morbidity. The current treatment of choice for CD is trans-sphenoidal selective adenomectomy resulting in long-term remission rates. Pharmacological management of CD is directed at decreasing adrenal steroid secretion. Ketoconazole inhibits adrenal enzyme activity and decreases cortisol secretion. Our patient is a girl of 13 years and eight months of age with CD. The clinical manifestations were obesity, decrease in growth rate, Cushingoid phenotype, headache and arterial hypertension. The hormone determinations showed elevated values of UFC and ACTH. The circadian rhythm cortisol and ACTH and the short and long dexamethasone tests of provide definitive diagnosis of CD. The cranial MRI with gadolinium suggests the presence of microadenoma in the right pituitary lobe. The diagnosis is confirmed after performing a selective catheterisation of the inferior petrosal sinuses with CRH stimulus. While waiting for trans-sphenoidal surgery, the treatment with ketoconazole (200mg/24h) controlled the hypercortisolism. After the surgical procedure, the patient received replacement therapy with hydrocortisone for 1 month. At the present time, the patient, without fulfilling the post surgery cure criteria, has been 2 and a half years in clinical and hormonal remission.
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PMID:[Treatment of Cushing's disease with ketoconazole]. 1928 58

Bosutinib (SKI-606), a dual inhibitor of Src and Abl tyrosine kinases, is being developed for the treatment of chronic myelogenous leukemia. The effect of coadministration of ketoconazole on the pharmacokinetic (PK) profile of bosutinib was evaluated in an open-label, randomized, 2-period, crossover study. Healthy subjects (fasting) received a single dose of oral bosutinib 100 mg alone and with multiple once-daily doses of oral ketoconazole 400 mg. PK sampling occurred through 96 hours. The least square geometric mean treatment ratios (90% confidence interval [CI]) of C(max(bosutinib+ketoconazole))/C(max(bosutinib alone)), AUC(T(bosutinib+ketoconazole))/AUC(T(bosutinib alone)), and AUC((bosutinib+ketoconazole))/AUC((bosutinib alone)) were assessed. Compared with bosutinib administered alone, coadministration with ketoconazole increased bosutinib C(max) 5.2-fold, AUC(T) 7.6-fold, and AUC 8.6-fold. Ketoconazole coadministration decreased the mean apparent clearance of bosutinib approximately 9-fold and increased the mean (SD) terminal half-life from 46.2 (16.4) hours to 69.0 (29.1) hours. The incidence of adverse events (AEs) was comparable between the 2 treatments. The most common AEs were headache, nausea, and increased blood creatinine. No safety-related discontinuations or serious AEs occurred. These PK results indicate that bosutinib is susceptible to interaction with potent CYP3A4 inhibitors.
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PMID:Effect of ketoconazole on the pharmacokinetics of oral bosutinib in healthy subjects. 2114 45

Benign intracranial hypertension (Pseudotumor cerebri) has been described as related to the reduction in steroid levels in Cushing's disease (CD), especially after surgical remission. Ketoconazole is a common and effective adjuvant therapy for hypercortisolism, but the major concern is liver enzyme dysfunction. We describe here the case of a 12-year old girl with CD who developed benign intracranial hypertension during treatment with ketoconazole. She presented headache, vomiting, a black spot on her right temporal visual field, and signs of elevated intracranial pressure. Pituitary image was normal on magnetic resonance image (MRI), and all symptoms improved after treatment with acetazolamide. We call attention to the diagnosis of this disorder in CD patients, especially children on ketoconazole treatment, because it could be confounded with adrenal insufficiency and lead to definitive severe visual impairment.
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PMID:Pseudotumor cerebri during Cushing's disease treatment with ketoconazole. 2177 32