Avvisi di avvertenza
Estensione di tempo QT
Effetti avversi del farmaco
|Mal di testa|
Varianti ✨Per la valutazione computazionalmente intensiva delle varianti, scegli l'abbonamento standard a pagamento.
Aree di applicazione
Spiegazioni per i pazienti
Avvisi di avvertenza
Non abbiamo ulteriori avvertenze per la combinazione di teofillina, cimetidina e omeprazolo. Si prega di consultare anche le informazioni specialistiche pertinenti.
|Omeprazolo||1.76 [0.93,9.7] 1||1||1.76|
I cambiamenti nell'esposizione menzionati si riferiscono ai cambiamenti nella curva concentrazione plasmatica-tempo [AUC]. L'esposizione alla teofillina aumenta al 129%, se combinato con cimetidina (145%) e omeprazolo (92%). Non abbiamo rilevato alcun cambiamento nell'esposizione alla cimetidina. Attualmente non è possibile stimare l'influenza di teofillina e omeprazolo. L'esposizione alla omeprazolo aumenta al 176%, se combinato con teofillina (100%) e cimetidina (176%). L'AUC è compresa tra 93% e 970% a seconda del
I parametri farmacocinetici della popolazione media sono utilizzati come punto di partenza per il calcolo delle singole variazioni di esposizione dovute alle interazioni.
La teofillina ha un'elevata biodisponibilità orale [ F ] del 85%, motivo per cui i livelli plasmatici massimi [Cmax] tendono a cambiare poco durante un'interazione. L'emivita terminale [ t12 ] è di 7 ore e i livelli plasmatici costanti [ Css ] vengono raggiunti dopo circa 28 ore. Il legame proteico [ Pb ] è piuttosto debole al 40% e il volume di distribuzione [ Vd ] è di 36 litri nell'intervallo medio, Poiché la sostanza ha una bassa velocità di estrazione epatica di 0,9, lo spostamento dal legame proteico [Pb] nel contesto di un'interazione può aumentare l'esposizione. Il metabolismo avviene tramite CYP1A2, CYP2D6, CYP2E1 e CYP3A4, tra gli altri.
La cimetidina ha una biodisponibilità orale media [ F ] del 65%, motivo per cui i livelli plasmatici massimi [Cmax] tendono a cambiare con un'interazione. L'emivita terminale [ t12 ] è piuttosto breve a 1.6333333 ore e i livelli plasmatici costanti [ Css ] vengono raggiunti rapidamente. Il legame proteico [ Pb ] è molto debole al 19% e il volume di distribuzione [ Vd ] è molto grande a 91 litri. Il metabolismo non avviene tramite i comuni citocromi e il trasporto attivo avviene in parte tramite BCRP e PGP.
La omeprazolo ha una biodisponibilità orale media [ F ] del 41%, motivo per cui i livelli plasmatici massimi [Cmax] tendono a cambiare con un'interazione. L'emivita terminale [ t12 ] è piuttosto breve a 0.9 ore e i livelli plasmatici costanti [ Css ] vengono raggiunti rapidamente. Il legame proteico [ Pb ] è moderatamente forte al 95% e il volume di distribuzione [ Vd ] è piccolo a 21 litri, Poiché la sostanza ha una bassa velocità di estrazione epatica di 0,9, lo spostamento dal legame proteico [Pb] nel contesto di un'interazione può aumentare l'esposizione. Il metabolismo avviene tramite CYP2C19 e CYP3A4, tra gli altri e il trasporto attivo avviene in particolare tramite PGP.
|Effetti serotoninergici a||0||Ø||Ø||Ø|
Valutazione: Secondo le nostre conoscenze, né la teofillina, cimetidina né la omeprazolo aumentano l'attività serotoninergica.
|Kiesel & Durán b||2||+||+||Ø|
Raccomandazione: A scopo precauzionale, occorre prestare attenzione ai sintomi anticolinergici, soprattutto dopo aver aumentato la dose ea dosi nel range terapeutico superiore.
Valutazione: La teofillina e la cimetidina hanno solo un lieve effetto sul sistema anticolinergico. Il rischio di sindrome anticolinergica con questo farmaco è piuttosto basso se il dosaggio è nel range usuale. Secondo i nostri risultati, la omeprazolo non aumenta l'attività anticolinergica.
Estensione di tempo QT
Valutazione: In combinazione, cimetidina e omeprazolo possono potenzialmente innescare aritmie ventricolari di tipo torsione di punta. Non conosciamo alcun potenziale di prolungamento dell'intervallo QT per la teofillina.
Effetti collaterali generali
|Effetti collaterali||∑ frequenza||teo||cim||ome|
|Mal di testa||7.9 %||+||n.a.||7.0|
|Dolore addominale||5.0 %||n.a.||n.a.||5.0|
|Reazioni allergiche della pelle||1.0 %||+||n.a.||0.1|
Fibrillazione atriale: teofillina
Emorragia intracranica: teofillina
Aumento della frequenza della minzione: teofillina
Diarrea da Clostridium difficile: omeprazolo
Lupus eritematoso cutaneo: omeprazolo
Eritema multiforme: omeprazolo
Sindrome di Stevens Johnson: omeprazolo, teofillina
Necrolisi epidermica tossica: omeprazolo
Aumente delle transaminasi: omeprazolo
Encefalopatia epatica: omeprazolo
Insufficienza epatica: omeprazolo
Reazione anafilattica: omeprazolo, teofillina
Sulla base delle vostre
Abstract: To investigate a possible interaction between norfloxacin and theophylline, eight healthy nonsmoking volunteers (mean age 27 +/- 5.3 years) were administered aminophylline, 5 mg/kg, before and after a 6-day course of norfloxacin, 400 mg every 12 hours, and changes in pharmacokinetic parameters were measured and compared. Norfloxacin induced significant decreases in theophylline clearance (14.9%; p less than 0.01) and the terminal phase slope (13.3%; p less than 0.02) and increased the AUC (16.6%; p less than 0.01). The apparent volume of distribution at steady state was unchanged. The greatest norfloxacin-induced individual change in theophylline clearance was a reduction of 28.6%. Given these findings, we advise that, for patients who are treated with theophylline and are subsequently treated with norfloxacin, adjustment of the theophylline dosage may be necessary in some patients to minimize the risk of theophylline toxicity.
Abstract: In 42 subjects with chronic obstructive lung disease receiving chronic oral theophylline therapy, the venous whole blood theophylline concentration was closely related to the total plasma theophylline concentrations (r = 0.976, p less than 0.001). The blood/plasma concentration ratio was 0.85 +/- 0.13 and was not related to the haematocrit or the free fraction of theophylline in plasma. The red blood cell theophylline concentration was closely related and numerically similar to the free plasma concentration. This indicates that the free plasma concentration is the most important determinant of red blood cell concentration, and that binding of drug by red blood cells or active uptake into erythrocytes is unlikely to occur. Whole blood concentration can be used to predict plasma theophylline concentration in subjects with obstructive lung disease in situations where preparation of plasma is inconvenient. The therapeutic range for whole blood concentration is approximately 8.5-17 mg/L.
Abstract: The pharmacokinetics of omeprazole have been studied to varying extent in the mouse, rat, dog and in man. The drug is rapidly absorbed in all these species. The systemic availability is relatively high in the dog and in man provided the drug is protected from acidic degradation in the stomach. In man the fraction of the oral dose reaching the systemic circulation was found to increase from an average of 40.3 to 58.2% when the dose was raised from 10 to 40 mg, suggesting some dose-dependency in this parameter. The drug distributes rapidly to extra-vascular sites. The volume of distribution, V beta, in man is comparable to the volume of the extracellular water. The penetration into the red cells is low, the ratio between the concentration in whole blood and in plasma being about 0.6. Omeprazole is bound to about 95% to proteins in human plasma. The binding is lower in the dog and rat (90 and 87%, respectively). Omeprazole is eliminated almost completely by metabolism and no unchanged drug has been recovered in the urine in the species studied. Two metabolites, characterised as the sulfone and sulfide of omeprazole, have been identified and quantified in human plasma. The mean elimination half-life in man and in the dog is about 1 hour, whereas half-lives in the range of 5 to 15 minutes have been recorded in the mouse. In two studies in man, the mean total body clearance was 880 and 1097 ml X min-1, indicating that omeprazole belongs to the group of high clearance drugs. In the dog, too, the drug appears to be rapidly cleared from the blood, the mean total body clearance being about 10.5 ml X min-1 X kg-1. In the rat and dog, 20 to 30% of an i.v. or oral dose of omeprazole is excreted as metabolites in the urine and the remaining fraction is recovered in the faeces within three days after the administration. In man, the excretion of radioactivity via the kidneys is much more efficient and the recoveries in the excreta are approximately the reverse of those in the rat and dog. In vitro studies with rat liver microsome preparations suggest that omeprazole and cimetidine inhibit cytochrome P-450-mediated metabolic reactions to about the same extent in equimolar concentrations. However, since the molar daily dose of cimetidine will be 25 to 50 times higher than that of omeprazole, the latter might have less influence on the mixed function oxidase system than cimetidine.(ABSTRACT TRUNCATED AT 400 WORDS)
Abstract: The effect of erythromycin base on theophylline kinetics was studied in eight informed, nonsmoking, adult males who received a 15-min infusion of theophylline (aminophylline) 5 mg/kg, prior to (control) and after (experimental) a 7-day course of 1 gm daily erythromycin base (E-Mycin). Each subject acted as his own control. Multiple serum samples were collected for 24 hr after each dose and were analyzed for theophylline by high-pressure liquid chromatography. The mean +/- SD pharmacokinetic parameters for each phase of study were as follows: apparent volume of distribution (L/kg) 0.45 +/- 0.05 (control), 0.41 +/- 0.05 (experimental); clearance (ml . min/kg) 0.83 +/- 0.17 (control), 0.60 +/- 0.11 (experimental); elimination half-life (hr) 6.65 +/- 1.88 (control), 8.10 +/- 1.58 (experimental). Erythromycin significantly affected the elimination half-life and clearance of theophylline (p less than 0.05). The apparent volume of distribution was unaffected (p greater than 0.05). Therefore patients being administered theophylline appear to be at added risk for the development of toxicity when erythromycin is added to the therapeutic regimen.
Abstract: The effects of famotidine (80 mg per day), cimetidine (1600 mg per day), and placebo on theophylline pharmacokinetic parameters in chronic obstructive pulmonary disease (COPD) patients were compared. This was an open-label, randomized, three-period cross-over study, in which each subject first underwent a seven-day theophylline washout period, and thereafter received three single intravenous doses of theophylline (5 mg/kg infused over 30 minutes) during the study. Each of the experimental treatments was administered orally every 12 hours for a total of 9.5 days (19 doses). Theophylline was infused after the 17th dose of each treatment. Fourteen serial blood samples were collected before the start of each infusion, and for 30 hours after the end of each infusion. Plasma samples were assayed for theophylline, pharmacokinetic parameters were estimated, and treatment effects on each parameter were compared. Fourteen COPD patients completed all three periods of the investigation. Famotidine treatment had virtually no effect on any of theophylline's pharmacokinetic parameters. In contrast, cimetidine treatment significantly altered every pharmacokinetic parameter of theophylline as follows: Cimetidine decreased theophylline geometric mean CL from 2.74 L/h to 2.07 L/h (P < .001), and prolonged theophylline harmonic mean half-life from 6.6 to 9.6 hours (P < .001) and mean residence time from 10.8 to 15.0 hours (P < .001). Cimetidine treatment slightly increased theophylline volume of distribution by approximately 10%, and that change also was statistically significant (P = .032). The authors conclude that the treatment effects of cimetidine on theophylline pharmacokinetic parameters were in accord with those reported by others, and that famotidine treatment had no effect on any of theophylline's pharmacokinetic parameters in COPD patients.
Abstract: Recently, the use of astemizole and terfenadine, both non-sedating H1-antihistamines, caused considerable concern. Several case reports suggested an association of both drugs with an increased risk of torsades de pointes, a special form of ventricular tachycardia. The increased risk of both H1-antihistamines was associated with exposure to supratherapeutic doses; for terfenadine the risk was also associated with concomitant exposure to the cytochrome P-450 inhibitors ketoconazole, erythromycin and cimetidine. To predict the size of the population that runs the risk of developing this potentially fatal adverse reaction in the Netherlands, the prevalence of prescribing supratherapeutic doses and the concomitant exposure to terfenadine and cytochrome P-450 inhibitors was studied. Data were obtained from the PHARMO data base in 1990, a pharmacy-based record linkage system encompassing a catchment population of 300,000 individuals. The results of the study showed that the prescribing of supratherapeutic doses and the concomitant exposure to terfenadine and cytochrome P-450 inhibitors was low. Furthermore, the results of a sensitivity analysis showed that the risk of fatal torsades de pointes has to be as high as 1 in 10,000 to cause one death in the Netherlands in one year.
Abstract: Rifampin and rifabutin induce the metabolism of many drugs, which may result in subtherapeutic concentrations and failure of therapy. However, differences between rifabutin and rifampin in potency of induction, and the specific enzymes which are altered, are not clear. This study, involving 12 adult male volunteers, compared the effects of 14-day courses of rifampin and rifabutin on clearance of theophylline, a substrate for the hepatic microsomal enzyme CYP1A2. Subjects were given oral theophylline solution (5 mg/kg of body weight) on day 1 and then randomized to receive daily rifampin (300 mg) or rifabutin (300 mg) on days 3 to 16. Theophylline was readministered as described above on day 15. The first treatment sequence was followed by a 2-week washout period; subjects then received the alternative treatment. Theophylline concentrations were determined for 46 h after each dose, and pharmacokinetic parameters were determined. One subject developed flu-like symptoms while taking rifabutin and withdrew voluntarily. Results from the remaining 11 subjects are reported. Compared with the baseline, the mean area under the concentration-time curve (AUC) (+/- standard deviation) for theophylline declined significantly following rifampin treatment (from 140 +/- 37 to 100 +/- 24 micrograms . h/ml, P <0.001); there was no significant change following rifabutin treatment (136 +/- 48 to 128 +/- 45 micrograms.h/ml). Baseline theophylline AUCs before each treatment phase were not different. A comparison of equal doses of rifampin and rifabutin administered to healthy volunteers for 2 weeks indicates that induction of CYP1A2, as measured by theophylline clearance, is significantly less following rifabutin treatment than it is following rifampin treatment. However, the relative induction potency for other metabolic enzymes remains to be investigated.
Abstract: Twelve healthy volunteers were enrolled in an open-label, randomized, crossover study. Subjects received single doses of theophylline (5 mg/kg) with and without multiple-dose terbinafine, and 11 blood samples were collected over 24 h. The study phases were separated by a 4-week washout period. Theophylline serum data were modeled via noncompartmental analysis. When the control phase (i.e., no terbinafine) was compared to the treatment phase (terbinafine), theophylline exposure (the area under the serum concentration-time curve from time zero to infinity) increased by 16% (P = 0.03), oral clearance decreased by 14% (P = 0.04), and half-life increased by 24% (P = 0.002). No significant changes in other theophylline pharmacokinetic parameters were evident.
Abstract: Astemizole (Hismanal), an antihistamine agent, has been reported to be associated with ventricular arrhythmias. In this paper we present a case of QT prolongation and torsades de pointes (TdP) in a 77-year-old woman who had been taking astemizole (10 mg/day) for 6 months because of allergic skin disease. At the time of admission, the serum concentration of astemizole and its metabolites was markedly elevated at 15.85 ng/ml, approximately 3 times the normal level. The patient was also taking cimetidine, a known inhibitor of cytochrome P-450 enzymatic activity, and during her admission was diagnosed as having vasospastic angina. To the best of our knowledge, this is the first report of astemizole-induced QT prolongation and TdP in Japan.
Abstract: This study investigated the effects of the concomitant administration of theophylline and toborinone on the pharmacokinetics of both compounds in poor and extensive metabolizers via CYP2D6. In period 1, a single dose of 3.5 mg/kg theophylline was administered orally. In period 2, a single dose of 1.0 microg/kg/min toborinone was infused over 6 hours. In period 3, 3.5 mg/kg theophylline was coadministered with 1.0 microg/kg/min toborinone. Serial blood and pooled urine samples were collected before and after toborinone administration for the quantification of toborinone and its metabolites in plasma and urine. Serial blood samples were collected before and after theophylline administration for the quantification of theophylline and its metabolites in plasma. No significant differences were observed in toborinone pharmacokinetics between poor and extensive metabolizers via CYP2D6. Toborinone coadministration with theophylline did not result in a substantive effect on the disposition of theophylline and vice versa.
Abstract: OBJECTIVE: To examine the potential effect of daidzein on CYP1A2 activity and on the pharmacokinetics of theophylline by inhibiting its metabolism. METHODS: The experiment was conducted in a single-blind, placebo-controlled, parallel study. The caffeine metabolic ratio (CMR) used as an indicator of CYP1A2 function was completed at baseline and after daidzein or placebo co-administration. A single dose of 100 mg theophylline was taken by all 20 volunteers on day 3. Thereafter, volunteers were allocated for one of two regimens. One group received 200 mg daidzein twice daily for 10 days. The other group received placebo. On day 12, the test group received 200 mg daidzein with 100 mg theophylline; the parallel group received 100 mg theophylline with placebo. RESULTS: The baseline value of CMR between test group and control group did not show a difference (P=0.215). The percentage decrease in CMR ranged from -50% to 20%, with an average value of -19.8+/-19.7%. The percentage decrease in test group was statistically significant (P=0.009), and no significant changes were shown in the control group (t=0.12, P=0.914). By comparing the pharmacokinetic parameters of theophylline before and after daily treatment with daidzein, the effect of daidzein on the metabolism of theophylline was evident. Comparing the kinetics parameters of theophylline of day 1 (without co-medication) with those of day 12 (10-day daidzein), the AUC(0-48), AUC(0- infinity ), C(max) and t(1/2) were significantly increased by 33.57+/-21.75% (CI, 1.21-1.46, P< 0.05), 33.77+/-21.45% (CI, 1.20-1.46, P<0.05), 23.54+/-16.93% (CI, 1.23-1.52, P< 0.05) and 41.39+/-45.92% (t=-3.19, P=0.011), respectively. The pharmacokinetic parameters of theophylline within the placebo group showed no statistically significant difference (P >0.05). CONCLUSIONS: Daidzein, a principal isoflavone in soybean, in higher doses may inhibit CYP1A2 activity in vivo, and physicians should be aware of potential drug-food interactions.
Abstract: Renal drug interactions can result from competitive inhibition between drugs that undergo extensive renal tubular secretion by transporters such as P-glycoprotein (P-gp). The purpose of this study was to evaluate the effect of itraconazole, a known P-gp inhibitor, on the renal tubular secretion of cimetidine in healthy volunteers who received intravenous cimetidine alone and following 3 days of oral itraconazole (400 mg/day) administration. Glomerular filtration rate (GFR) was measured continuously during each study visit using iothalamate clearance. Iothalamate, cimetidine, and itraconazole concentrations in plasma and urine were determined using high-performance liquid chromatography/ultraviolet (HPLC/UV) methods. Renal tubular secretion (CL(sec)) of cimetidine was calculated as the difference between renal clearance (CL(r)) and GFR (CL(ioth)) on days 1 and 5. Cimetidine pharmacokinetic estimates were obtained for total clearance (CL(T)), volume of distribution (Vd), elimination rate constant (K(el)), area under the plasma concentration-time curve (AUC(0-240 min)), and average plasma concentration (Cp(ave)) before and after itraconazole administration. Plasma itraconazole concentrations following oral dosing ranged from 0.41 to 0.92 microg/mL. The cimetidine AUC(0-240 min) increased by 25% (p < 0.01) following itraconazole administration. The GFR and Vd remained unchanged, but significant reductions in CL(T) (655 vs. 486 mL/min, p < 0.001) and CL(sec) (410 vs. 311 mL/min, p = 0.001) were observed. The increased systemic exposure of cimetidine during coadministration with itraconazole was likely due to inhibition of P-gp-mediated renal tubular secretion. Further evaluation of renal P-gp-modulating drugs such as itraconazole that may alter the renal excretion of coadministered drugs is warranted.
Abstract: BACKGROUND AND OBJECTIVES: In vivo inhibition of cytochrome P450 (CYP) 1A2 by fluvoxamine causes a reduction in the clearance of the high-extraction drug lidocaine, which decreases in proportion to the degree of liver dysfunction. The objectives of this study were (1) to evaluate the effect of liver cirrhosis on the inhibition by fluvoxamine of the metabolic disposition of theophylline, a CYP1A2 substrate with a low-extraction ratio, to assess whether decreased sensitivity to CYP1A2 inhibition in liver disease is a general characteristic of CYP1A2 substrates, regardless of their pharmacokinetic properties, and (2) to investigate the mechanism(s) underlying the effect of liver dysfunction on CYP1A2 inhibition. METHODS: The study was carried out in 10 healthy volunteers and 20 patients with cirrhosis, 10 with mild liver dysfunction (Child class A) and 10 with severe liver dysfunction (Child class C), according to a randomized, double-blind, 2-phase, crossover design. In one phase all participants received placebo for 7 days; in the other phase they received one 50-mg fluvoxamine dose for 2 days and two 50-mg fluvoxamine doses, 12 hours apart, in the next 5 days. On day 6, 4 mg/kg of theophylline was administered orally 1 hour after the morning fluvoxamine dose. Concentrations of theophylline and its metabolites, 3-methylxanthine, 1-methyluric acid, and 1,3-dimethyluric acid, were then measured in plasma and urine up to 48 hours. RESULTS: Fluvoxamine-induced inhibition of theophylline clearance decreased from 62% in healthy subjects to 52% and 12% in patients with mild cirrhosis and those with severe cirrhosis, respectively. CYP1A2-mediated formations of 3-methylxanthine and 1-methyluric acid were almost totally inhibited in control subjects, whereas they were only reduced by one third in patients with Child class C cirrhosis. Inhibition of 1,3-dimethyluric acid formation, which is catalyzed by CYP1A2 and CYP2E1, progressively decreased from 58% in healthy subjects to 43% and 7% in patients with mild cirrhosis and those with severe cirrhosis, respectively. CONCLUSIONS: The effect of liver dysfunction on the inhibition of CYP1A2-mediated drug elimination is a general phenomenon, independent of the pharmacokinetic characteristics of the CYP1A2 substrate. Therefore, for any drug metabolized by CYP1A2, the clinical consequences of enzyme inhibition are expected to become less and less important as liver function worsens. Two mechanisms, as follows in order of importance, are responsible for the effect of liver dysfunction: (1) decreased sensitivity to fluvoxamine of CYP1A2-mediated biotransformations in the cirrhotic liver, probably resulting from reduced uptake of the inhibitory drug, and (2) reduced hepatic expression of CYP1A2, which makes its contribution to overall drug elimination less important.
Abstract: Anticholinergic Drug Scale (ADS) scores were previously associated with serum anticholinergic activity (SAA) in a pilot study. To replicate these results, the association between ADS scores and SAA was determined using simple linear regression in subjects from a study of delirium in 201 long-term care facility residents who were not included in the pilot study. Simple and multiple linear regression models were then used to determine whether the ADS could be modified to more effectively predict SAA in all 297 subjects. In the replication analysis, ADS scores were significantly associated with SAA (R2 = .0947, P < .0001). In the modification analysis, each model significantly predicted SAA, including ADS scores (R2 = .0741, P < .0001). The modifications examined did not appear useful in optimizing the ADS. This study replicated findings on the association of the ADS with SAA. Future work will determine whether the ADS is clinically useful for preventing anticholinergic adverse effects.
Abstract: OBJECTIVE: The aim of this study was to evaluate the absolute bioavailability and the metabolism of omeprazole following single intravenous and oral administrations to healthy subjects in relation to CYP2C19 genotypes. METHODS: Twenty subjects, of whom 6 were homozygous extensive metabolizers (hmEMs), 8 were heterozygous EMs (htEMs) and 6 were poor metabolizers (PMs) for CYP2C19, were enrolled in this study. Each subject received either a single omeprazole 20 mg intravenous dose (IV) or 40 mg oral dose (PO) in a randomized fashion during 2 different phases. RESULTS: Mean omeprazole AUC (0,infinity) was 1164, 3093 and 10511 ng h/mL after PO, and 1435, 2495 and 6222 ng h/mL after IV in hmEMs, htEMs and PMs, respectively. Therefore, the absolute bioavailability of omeprazole in PMs was significantly higher than that in hmEMs (p < 0.001) and htEMs (p < 0.001). Hydroxylation metabolic indexes after IV and PO were significantly lower in PMs than in hmEMs (p < 0.001) and htEMs (p < 0.001), and was correlated with the absolute bioavailability (p < 0.0001 for both IV and PO). Sulfoxidation metabolic index after IV was significantly different between the CYP2C19 genotypes, whereas no difference was found after a single oral dose. CONCLUSION: This study indicates that the absolute bioavailability of omeprazole differs among the three different CYP2C19 genotypes after a single dose of omeprazole orally or intravenously. Hydroxylation metabolic index of omeprazole may be mainly attributable to the genotype of CYP2C19. As for the sulfoxidation metabolic index after a single oral dose, intestinal CYP3A may be contributed to omeprazole metabolism.
Abstract: BACKGROUND: Adverse effects of anticholinergic medications may contribute to events such as falls, delirium, and cognitive impairment in older patients. To further assess this risk, we developed the Anticholinergic Risk Scale (ARS), a ranked categorical list of commonly prescribed medications with anticholinergic potential. The objective of this study was to determine if the ARS score could be used to predict the risk of anticholinergic adverse effects in a geriatric evaluation and management (GEM) cohort and in a primary care cohort. METHODS: Medical records of 132 GEM patients were reviewed retrospectively for medications included on the ARS and their resultant possible anticholinergic adverse effects. Prospectively, we enrolled 117 patients, 65 years or older, in primary care clinics; performed medication reconciliation; and asked about anticholinergic adverse effects. The relationship between the ARS score and the risk of anticholinergic adverse effects was assessed using Poisson regression analysis. RESULTS: Higher ARS scores were associated with increased risk of anticholinergic adverse effects in the GEM cohort (crude relative risk [RR], 1.5; 95% confidence interval [CI], 1.3-1.8) and in the primary care cohort (crude RR, 1.9; 95% CI, 1.5-2.4). After adjustment for age and the number of medications, higher ARS scores increased the risk of anticholinergic adverse effects in the GEM cohort (adjusted RR, 1.3; 95% CI, 1.1-1.6; c statistic, 0.74) and in the primary care cohort (adjusted RR, 1.9; 95% CI, 1.5-2.5; c statistic, 0.77). CONCLUSION: Higher ARS scores are associated with statistically significantly increased risk of anticholinergic adverse effects in older patients.
Abstract: BACKGROUND: Methadone plasma concentrations are decreased by nelfinavir. Methadone clearance and the drug interactions have been attributed to CYP3A4, but actual mechanisms of methadone clearance and the nelfinavir interaction are unknown. We assessed nelfinavir effects on methadone pharmacokinetics and pharmacodynamics, intestinal and hepatic CYP3A4/5 activity, and intestinal P-glycoprotein transport activity. CYP3A4/5 and transporters were assessed using alfentanil and fexofenadine, respectively. METHODS: Twelve healthy HIV-negative volunteers underwent a sequential crossover. On three consecutive days they received oral alfentanil plus fexofenadine, intravenous alfentanil, and intravenous plus oral methadone. This was repeated after nelfinavir. Plasma and urine analytes were measured by mass spectrometry. Opioid effects were measured by pupil diameter change (miosis). RESULTS: Nelfinavir decreased intravenous and oral methadone plasma concentrations 40-50%. Systemic clearance, hepatic clearance, and hepatic extraction all increased 1.6- and 2-fold, respectively, for R- and S-methadone; apparent oral clearance increased 1.7- and 1.9-fold. Nelfinavir stereoselectively increased (S>R) methadone metabolism and metabolite formation clearance, and methadone renal clearance. Methadone bioavailability and P-glycoprotein activity were minimally affected. Nelfinavir decreased alfentanil systemic and apparent oral clearances 50 and 76%, respectively. Nelfinavir appeared to shift the methadone plasma concentration-effect (miosis) curve leftward and upward. CONCLUSIONS: Nelfinavir induced methadone clearance by increasing renal clearance, and more so by stereoselectively increasing hepatic metabolism, extraction and clearance. Induction occurred despite 50% inhibition of hepatic CYP3A4/5 activity and more than 75% inhibition of first-pass CYP3A4/5 activity, suggesting little or no role for CYP3A in clinical methadone disposition. Nelfinavir may alter methadone pharmacodynamics, increasing clinical effects.
Abstract: BACKGROUND: Anticholinergic drugs are often involved in explicit criteria for inappropriate prescribing in older adults. Several scales were developed for screening of anticholinergic drugs and estimation of the anticholinergic burden. However, variation exists in scale development, in the selection of anticholinergic drugs, and the evaluation of their anticholinergic load. This study aims to systematically review existing anticholinergic risk scales, and to develop a uniform list of anticholinergic drugs differentiating for anticholinergic potency. METHODS: We performed a systematic search in MEDLINE. Studies were included if provided (1) a finite list of anticholinergic drugs; (2) a grading score of anticholinergic potency and, (3) a validation in a clinical or experimental setting. We listed anticholinergic drugs for which there was agreement in the different scales. In case of discrepancies between scores we used a reputed reference source (Martindale: The Complete Drug Reference®) to take a final decision about the anticholinergic activity of the drug. RESULTS: We included seven risk scales, and evaluated 225 different drugs. Hundred drugs were listed as having clinically relevant anticholinergic properties (47 high potency and 53 low potency), to be included in screening software for anticholinergic burden. CONCLUSION: Considerable variation exists among anticholinergic risk scales, in terms of selection of specific drugs, as well as of grading of anticholinergic potency. Our selection of 100 drugs with clinically relevant anticholinergic properties needs to be supplemented with validated information on dosing and route of administration for a full estimation of the anticholinergic burden in poly-medicated older adults.
Abstract: Transporters in proximal renal tubules contribute to the disposition of numerous drugs. Furthermore, the molecular mechanisms of tubular secretion have been progressively elucidated during the past decades. Organic anions tend to be secreted by the transport proteins OAT1, OAT3 and OATP4C1 on the basolateral side of tubular cells, and multidrug resistance protein (MRP) 2, MRP4, OATP1A2 and breast cancer resistance protein (BCRP) on the apical side. Organic cations are secreted by organic cation transporter (OCT) 2 on the basolateral side, and multidrug and toxic compound extrusion (MATE) proteins MATE1, MATE2/2-K, P-glycoprotein, organic cation and carnitine transporter (OCTN) 1 and OCTN2 on the apical side. Significant drug-drug interactions (DDIs) may affect any of these transporters, altering the clearance and, consequently, the efficacy and/or toxicity of substrate drugs. Interactions at the level of basolateral transporters typically decrease the clearance of the victim drug, causing higher systemic exposure. Interactions at the apical level can also lower drug clearance, but may be associated with higher renal toxicity, due to intracellular accumulation. Whereas the importance of glomerular filtration in drug disposition is largely appreciated among clinicians, DDIs involving renal transporters are less well recognized. This review summarizes current knowledge on the roles, quantitative importance and clinical relevance of these transporters in drug therapy. It proposes an approach based on substrate-inhibitor associations for predicting potential tubular-based DDIs and preventing their adverse consequences. We provide a comprehensive list of known drug interactions with renally-expressed transporters. While many of these interactions have limited clinical consequences, some involving high-risk drugs (e.g. methotrexate) definitely deserve the attention of prescribers.
Abstract: The accurate estimation of "in vivo" inhibition constants () of inhibitors and fraction metabolized () of substrates is highly important for drug-drug interaction (DDI) prediction based on physiologically based pharmacokinetic (PBPK) models. We hypothesized that analysis of the pharmacokinetic alterations of substrate metabolites in addition to the parent drug would enable accurate estimation of in vivoandTwenty-four pharmacokinetic DDIs caused by P450 inhibition were analyzed with PBPK models using an emerging parameter estimation method, the cluster Newton method, which enables efficient estimation of a large number of parameters to describe the pharmacokinetics of parent and metabolized drugs. For each DDI, two analyses were conducted (with or without substrate metabolite data), and the parameter estimates were compared with each other. In 17 out of 24 cases, inclusion of substrate metabolite information in PBPK analysis improved the reliability of bothandImportantly, the estimatedfor the same inhibitor from different DDI studies was generally consistent, suggesting that the estimatedfrom one study can be reliably used for the prediction of untested DDI cases with different victim drugs. Furthermore, a large discrepancy was observed between the reported in vitroand the in vitro estimates for some inhibitors, and the current in vivoestimates might be used as reference values when optimizing in vitro-in vivo extrapolation strategies. These results demonstrated that better use of substrate metabolite information in PBPK analysis of clinical DDI data can improve reliability of top-down parameter estimation and prediction of untested DDIs.