Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0010200 (cough)
23,843 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. The pharmacokinetics of ethylmorphine after administration of a single dose of the cough mixture Cosylan were investigated in 10 healthy subjects. 2. The median urinary recovery of ethylmorphine and measured metabolites was 77% over 48 h. The median tmax of unchanged ethylmorphine was 45 min, and the terminal elimination t1/2 was 2 h. Ethylmorphine-6-glucuronide was found to be the major metabolite. 3. Two subjects had significantly lower urinary recovery (0.48 h) of morphine and morphine-glucuronides than the remainder. Furthermore, these two had urinary metabolic ratios (MRO) and partial metabolic clearances (CLmO) for O-deethylation of ethylmorphine tentatively classifying them phenotypically as poor metabolisers of the debrisoquine/sparteine type. 4. Genotyping for cytochrome P450 (CYP) 2D6 alleles revealed five homozygote (wt/wt) and five heterozygote subjects. Two subjects phenotypically classified as poor metabolisers were genotypically CYP2D6A/wt and CYP2D6D/wt, respectively. 5. Serum and urine samples taken more than 8 and 24 h after administration of ethyl-morphine respectively, contained morphine and morphine-glucuronides, but no ethylmorphine, ethylmorphine-6-glucuronide or (serum only) norethylmorphine. Norethylmorphine could be detected after hydrolysis of urine samples in all subjects. The urinary recovery of the active metabolites morphine and morphine-6-glucuronide after administration of ethylmorphine varied by a factor of 9 between individuals. 6. The wide variation in recovery of morphine and morphine-glucuronides after oral administration of ethylmorphine could not be explained simply by a difference in CYP2D6 genotype. Constitutional variation in other enzymatic pathways involved in ethylmorphine metabolism is probably crucial. Ratios of morphine to parent drug cannot be used to distinguish the source of morphine after administration of ethylmorphine. Norethylmorphine should be included in urine assays for opiates in forensic toxicology, and no firm conclusions about the source of morphine are possible based on serum samples obtained more than 24 h after drug administration.
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PMID:Biotransformation and pharmacokinetics of ethylmorphine after a single oral dose. 765 78

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

Eprosartan is a nonpeptide angiotensin II receptor antagonist which has a high affinity for the AT1 receptor subtype. When administered at dosages of 400 to 800 mg/day (once or twice daily) for 13 weeks to patients with mild to moderate essential hypertension, eprosartan significantly reduced blood pressure compared with placebo. Eprosartan was at least as effective as enalapril 10 to 40 mg/day in a dose-titration study in patients with severe hypertension. Eprosartan is generally well tolerated; clinical trials have shown the drug to have a tolerability profile similar to that of placebo. As with other angiotensin II receptor antagonists, it does not cause cough. Eprosartan is not metabolised by the cytochrome P450 system and therefore has a low potential for drug interactions.
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PMID:Eprosartan. 958 67

Theophylline toxicity has been recognized since its introduction into clinical medicine. Clarithromycin is a new oral macrolide antibiotic with excellent antibacterial activity and rare adverse effect. Patients with upper respiratory infection are often treated with theophylline and clarithromycin concurrently. We report a case of acute renal failure due to acute rhabdomyolysis caused by the interaction of theophylline and clarithromycin. A 72-year-old man visited our hospital because of coughing and a sore throat continuing for 1 week. He was diagnosed as having the common cold with a bronchial asthmatic symptom and was prescribed 200 mg/day of sustained-release theophylline for the treatment of asthma for 7 days. One week later, he visited our hospital again. Radiographic study of the chest revealed mild interstitial pneumonia and 200 mg/day of sustained-release theophylline and 400 mg/day of clarithromycin were administrated concomitantly. Five days after the second visit, the patient was admitted to our hospital because of generalized twitching, muscular weakness, high fever and serious general condition. He experienced generalized muscular twitching and tremor. Blood urea nitrogen was 106.1 mg/dl, serum creatinine was 7.4 mg/dl, serum creatinine kinase (CK) was 36,000 IU/l (normal 15-130 IU/l), CK isozyme revealed the following ratio: BB 0%, MB 1% and MM 99%. He was diagnosed as having acute renal failure with rhabdomyolysis caused by the interaction of theophylline and clarithromycin. Hemodialysis therapy was started. After 5 weeks, his serum creatinine was markedly decreased. It is well-known that clarithromycin enhances the serum concentration of theophylline by inhibition of the cytochrome P450-dependent pathway in hepatocytes. Theophylline toxicity may be enhanced when clarithromycin is administrated concomitantly, especially to elderly patients with dehydration.
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PMID:[A case of acute renal failure with rhabdomyolysis caused by the interaction of theophylline and clarithromycin]. 1044 97

Cough constitutes an important medical problem in all ages. Although treatment of underlying pathologies, e.g., bronchial asthma, upper respiratory tract infection, etc. is well justified to cure cough, non-specific therapy in the form of a number of antitussive agents like, codeine, dextromethorphan, etc. is widely practiced to suppress it. Most of these agents are efficacious and well-tolerated. Nevertheless, CNS toxicities may occur in new-borns, especially those with immature metabolic profile. Some recent reports about interactions (involving hepatic cytochrome P450 enzymes) between dextromethorphan and other drugs are also noteworthy.
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PMID:Pharmacological control of cough. 1141 76

Angiotensin II receptor antagonists block angiotensin II type 1 (AT1) receptors and reduce the pressor effects of angiotensin in the vasculature. By this mechanism, they induce similar pharmacological effects to angiotensin-converting enzyme (ACE) inhibitors, resulting in a lowering of blood pressure (BP). However, AT1 antagonists differ from ACE inhibitors with respect to side effects, and induce less cough, which is related to bradykinin activation. Within the class of angiotensin II antagonists, eprosartan differs from other currently clinically available agents in terms of its chemical structure and its dual pharmacological mode of action. Eprosartan acts not only at vascular AT1 receptors but also at presynaptic AT1 receptors, causing inhibition of sympathetically stimulated noradrenaline release. Eprosartan is not metabolized by cytochrome P450 enzymes and therefore has a low potential for metabolic drug interactions, which may be of importance when treating the elderly and patients on multiple drugs. In clinical trials eprosartan has proven to be at least as effective as the ACE inhibitor enalapril in reducing BP, but with a significantly lower incidence of side effects. Eprosartan is safe, effective and well tolerated in long-term treatment, either as monotherapy or in combination with other antihypertensive drugs such as hydrochlorothiazide.
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PMID:The clinical profile of the angiotensin II receptor blocker eprosartan. 1218 62

Antihypertensive agents are proven to reduce the cardiovascular risk of stroke, coronary heart disease and cardiac failure. The ideal antihypertensive agent should control all grades of hypertension and have a placebo-like side effect profile. Angiotensin II (AII) receptor antagonists are a relatively new class of antihypertensive agent that block AII Type 1 (AT(1)) receptors, and reduce the pressor effects of AII in the vasculature. By this mechanism, they induce similar pharmacological effects compared with angiotensin-converting enzyme (ACE) inhibitors, resulting in a lowering of blood pressure. However, AII receptor blockers differ from ACE inhibitors with respect to side effects, and induce less cough, a side effect which may be related to bradykinin or other mediators such as substance P. Within the class of AII blockers, eprosartan differs from other currently available agents in terms of chemical structure, as it is a non-biphenyl, non-tetrazole, non-peptide antagonist with a dual pharmacological mode of action. Eprosartan acts at vascular AT(1) receptors (postsynaptically) and at presynaptic AT(1) receptors, where it inhibits sympathetically stimulated noradrenaline release. Its lack of metabolism by cytochrome P450 enzymes confers a low potential for metabolic drug interactions and may be of importance when treating elderly patients and those on multiple drugs. In clinical trials, eprosartan has been demonstrated to be at least as effective in reducing blood pressure as the ACE inhibitor enalapril, and has significantly lower side effects. Eprosartan is safe, effective and well-tolerated in long-term treatment, either as a monotherapy or in combination with other antihypertensive drugs such as hydrochlorothiazide.
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PMID:Eprosartan for the treatment of hypertension. 1251 47

Angiotensin II (AII) receptor blockers offer an alternative means of blocking the renin-angiotensin-aldosterone system (RAAS) to angiotensin converting enzyme (ACE) inhibitors. Being highly selective for the AII receptor subtype AT(1), AII receptor blockers may avoid side-effects associated with ACE inhibitor treatment, such as cough. Eprosartan is a non-biphenyl, non-tetrazole competitive blocker that is chemically distinct from other AII receptor blockers, which may account for differences in its pharmacological properties. It induces dual blockade of AT(1) receptors both presynaptically and postsynaptically, reducing sympathetic nerve activity to a significantly greater degree than other AT(1) receptor blockers. At the recommended dose of 600 mg once daily, eprosartan effectively lowers blood pressure (BP) in hypertensive patients to a similar degree as seen with other AII receptor blockers and ACE inhibitors. However, a greater proportion of patients achieved adequate BP control compared with enalapril. When eprosartan is given in combination with hydrochlorothiazide (HCTZ), it provides a significantly greater BP reduction compared with eprosartan alone. Eprosartan has a side-effect profile that is similar to placebo and to other AII receptor blockers, but is better than that of enalapril because it lacks the propensity to cause dry cough. Eprosartan is not metabolized by the cytochrome P450 enzyme system, and so has no interaction with drugs that affect this system. Eprosartan completely reverses renal vasoconstriction induced by AII and may, therefore, have further applications in situations where stimulation of the RAAS is a problem. In summary, eprosartan, alone or in combination with HCTZ, provides an effective and well-tolerated approach to lowering BP in patients with all grades of hypertension. Further development of eprosartan may offer therapeutic opportunities that go far beyond the current recommendations.
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PMID:Clinical profile of eprosartan. 1276 89

Itraconazole is widely used to treat onychomycosis because of its significant therapeutic effects. An otherwise healthy 30-year-old man treated with itraconazole developed frequent premature ventricular contractions (PVC). He presented with a dry cough and palpitation. The results of 12-lead electrocardiography (ECG) were essentially normal, but Holter ECG revealed 17,484 (18%) uniform PVC, including 4 short runs among 96,930 beats/day. Another Holter ECG after withdrawing itraconazole revealed 1,032 premature atrial contractions but no PVC. The corrected QT interval was 0.39 s without itraconazole, 0.41 s with itraconazole, and 0.43 s when multiple PVC were documented. Itraconazole inhibits the fungal cytochrome P450 that is involved in fungal cell membrane formation, interrupts human cytochrome P450A4 in the liver and causes adverse interactions with various drugs such as antiarrythmics, but its cardiac side-effects are obscure. Both patients and physicians should be aware that itraconazole can cause PVC as a side-effect.
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PMID:Frequent premature ventricular contractions induced by itraconazole. 1765 4

We have previously reported on antitussive effect of (5R,9R,13S,14S)-17-cyclopropylmethyl-6,7-didehydro-4,5-epoxy-5',6'-dihydro-3-methoxy-4'H-pyrrolo[3,2,1-ij]quinolino[2',1':6,7]morphinan-14-ol(1b) methanesulfonate (TRK-850), a selective delta opioid receptor antagonist which markedly reduced the number of coughs in a rat cough model. We designed TRK-850 based on naltrindole (NTI), a typical delta opioid receptor antagonist, to improve its permeability through the blood-brain barrier by introducing hydrophobic moieties to NTI. The ED(50) values of NTI and compound 1b by intraperitoneal injections were 104 microg/kg and 2.07 microg/kg, respectively. This increased antitussive potency probably resulted from the improved brain exposure of compound 1b. However, 1b was extremely unstable toward metabolism by cytochrome P450. In this study, we designed and synthesized compound 1b derivatives to improve the metabolic instability, which resulted in affording highly potent and metabolically stable oral antitussive agent (5R,9R,13S,14S)-17-cyclopropylmethyl-6,7-didehydro-4,5-epoxy-8'-fluoro-5',6'-dihydro-4'H-pyrrolo[3,2,1-ij]quinolino[2',1':6,7]morphinan-3,14-diol (1c) methanesulfonate (TRK-851).
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PMID:Design and synthesis of a metabolically stable and potent antitussive agent, a novel delta opioid receptor antagonist, TRK-851. 1870 8


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