Pharmacokinetics of sulindac in aged patients presenting with inflammatory joint disease

The kinetic of sulindac and its two metabolites (sulfide and sulfone) was investigated in twelve elderly patients, following multiple oral dose administration of 400 mg/d. Data were compared to those obtained previously in ten healthy volunteers who received the same dosage regimen. Following multiple dose administration, accumulation ratios indicate that sulindac do not accumulate either in elderly patients (R = 1.35; R = AUC0-24 J8/AUC0-24 J1) or in healthy young subjects (R = 1.38; R = U0-24 J1). No significant modification of sulindac and sulfide kinetic parameters was observed. The apparent bioavailability of the inactive metabolite, sulfone, was found to be doubled in elderly patients (p less than 0.05). We conclude that there is no need to modify the dosage regimen of Arthrocine (400 mg once a day) in elderly patients.     

Sulindac metabolism: the importance of an intact colon

The pharmacokinetics of sulindac have been studied after a single 200 mg oral dose in six normal subjects and five patients with surgical ileostomies. The plasma concentration-time curves for sulindac were similar in both groups up to 12 hours after dosing, indicating similar absorption of the drug. Higher plasma concentrations of sulindac were found in normal subjects after 12 hours, but this late phase accounted for only 12% of the total AUC in the subjects. The sulfone metabolite showed a similar pattern, with no statistically significant difference in the total AUC, but in patients with ileostomy there was a halving of the AUC after 12 hours. Plasma concentrations of the active sulfide metabolite were similar in both groups up to 12 hours, but negligible concentrations were detected in the plasma of patients with ileostomy after 12 hours. Thus the AUC after 12 hours, which represented 55% of the total AUC in normal subjects, was reduced to only 7% in patients with ileostomy. The rate of reduction of sulindac in vitro by ileostomy effluent was only one hundredth that by normal feces. Our results suggest that the gut microflora are an important site of reduction of sulindac in man. Comparison of AUC values suggests that about half the total sulfide is formed by the gut bacteria, probably from sulindac excreted in the bile.     

The disposition of sulindac.

The disposition of sulindac, a new nonsteroid anti-inflammatory drug, has been studied in normal volunteers in five separate clinical studies. Based upon material balance considerations, a minimum of approximately 88% of an oral dose is absorbed. The major biotransformations involve irreversible oxidation of the sulfinyl group of sulindac to sulfone and reduction to the corresponding sulfide. The latter, which all available evidence indicates to be the pharmacologically active form of sulindac, is not excreted in urine, and has an apparent terminal half-life of 18.2 hr, well suited to twice daily dosage of its pro-drug. Following twice daily dosage of sulindac for 5 days, plasma levels of sulfide approach an apparent steady state with concentrations varying only within a twofold range over each dosage interval. The reversible biotransformation between sulindac and its active sulfide metabolite provides the basis for two therapeutic advantages relating to the gastrointestinal intolerance usually associated with anti-inflammatory drugs: (1) circumvention of initial exposure of gastric and small intestinal mucosa to the active form of the drug and (2) maintenance of systemic levels of active drug by means of enterohepatic recycling, principally of inactive pro-drug.     

Biotransformation of sulindac in end-stage renal disease

In normal humans sulindac, a prodrug, undergoes two major biotransformations: irreversible oxidation to the inactive sulfone metabolite and reversible reduction to the pharmacologically active sulfide metabolite. To assess any effect of end-stage renal failure on sulindac biotransformation, six patients were given 200 mg sulindac orally. Plasma was sampled over 24 hours. Protein binding of sulindac and metabolites was determined by equilibrium dialysis. Results were compared with historic controls. AUC(0-12) for sulindac and the sulfone were similar to controls. AUC(0-12) for the sulfide was significantly reduced to 4.85 micrograms X hr/ml from 13.1 micrograms X hr/ml (P less than 0.02). Protein binding of all three compounds was significantly reduced by renal failure. When corrected for protein binding, the AUC(0-12) for sulindac and the sulfone was twice that of controls whereas that of the sulfide was 42 ng X hr/ml compared with 83 ng X hr/ml in normal individuals (P less than 0.001). This suggests that end-stage renal failure impairs the reduction of sulindac to the active sulfide whereas oxidation to the sulfone is intact.     

Acute and chronic effects of sulindac on renal function in chronic renal disease

The effects of oral sulindac on renal hemodynamics were studied in normal subjects, elderly persons with mild renal failure, and patients with chronic renal disease. Renal function was measured before dosing and 24 hours and 28 days after oral sulindac. Effective renal plasma flow was reduced in all subjects after 24 hours. Effective renal plasma flow and the glomerular filtration rate were not altered after 28 days in control subjects, whereas effective renal plasma flow, but not glomerular filtration rate, was lower after 1 month in subjects with renal disease. None of these changes are likely to be of major clinical significance.     

Amitriptyline disposition in young and elderly normal men

The disposition of a single parenteral or single oral dose of amitriptyline was followed in seven young (mean age 22 yr, range 21 to 23) and five elderly (mean age 71 yr, range 62 to 81) healthy men. The mean systemic clearance did not change with age (10.8 +/- 2.1 ml/min/kg in elderly and 12.5 +/- 2.3 ml/min/kg in young subjects). Mean t 1/2 was longer in the older (21.7 +/- 2.9 hr) than in the younger group (16.2 +/- 6.1 hr) as a result of an increase in the volume of distribution (17.1 +/- 2.4 and 14.1 +/- 2.0 l/kg). The bioavailability and the fraction of the drug bound to plasma proteins did not change with age. Single doses of amitriptyline were not well tolerated clinically by either elderly or young subjects, which confirms the need for a gradual buildup in the therapeutic regimen and for close clinical surveillance of elderly depressed patients treated with amitriptyline.     

Effects of age and sex on the disposition of retigabine

BACKGROUND: The novel antiepileptic drug retigabine is the first selective M-current potassium channel opener for KCNQ2/3 and KCNQ3/5 channels. Retigabine undergoes phase II metabolism (N-glucuronidation, acetylation) exclusively and renal excretion. OBJECTIVE: Our objective was to evaluate the effects of age and sex on the pharmacokinetics of retigabine. METHODS: Healthy young (age range, 18-40 years) and elderly (age range, 66-81 years) white subjects (12 men and 12 women in each group) received a single 200-mg oral dose of retigabine. After dosing, blood was collected over a 72-hour period to determine plasma concentrations of retigabine and its acetylated metabolite, AWD21-360. Pharmacokinetics was compared for age group and sex by ANOVA. RESULTS: In young men, retigabine was rapidly absorbed, with the maximum concentration occurring within 2 hours, and was eliminated with an apparent clearance of 0.67 L x h(-1) x kg(-1) and a mean terminal half-life of 8.5 hours. Subjects were similarly exposed to AWD21-360. Compared with young men, young women had higher retigabine maximum concentration (56%) and exposure (20%) but similar clearance (0.68 L x h(-1) x kg(-1)); these differences were related to differences in body weight. Although maximum concentration was similar in elderly subjects, retigabine elimination was slower (30% lower apparent clearance normalized for weight), resulting in higher exposure (42%) and a longer half-life (30%). Because phase II metabolism is scarcely affected by age, these differences may be related to the known decline of renal function with age. CONCLUSIONS: Although there are no substantial sex-related differences in the disposition of retigabine, a relevant decrease in clearance resulting in higher exposure occurs in elderly patients. The results suggest that decline of renal function with age may account for some of the observed changes.     

Dimethyl sulfoxide inhibits bioactivation of sulindac

Sulindac, a nonsteroidal anti-inflammatory agent, is converted to a bioactive sulfide metabolite via reversible reduction of its sulfoxide moiety. To test whether DMSO can inhibit conversion of sulindac to its active form, eight healthy men received, in a randomized, crossover manner, 400 mg of sulindac, orally, either alone or 60 min after an oral dose of DMSO (30 ml, 70% solution). After the drug combination, mean plasma concentrations of the sulfide metabolite were significantly lower than in controls at 1.5, 2, 3, 4, and 8 hr after sulindac administration. The mean area under the plasma sulfide concentration-time curve for 0 to 12 hr was 30% (range 7% to 56%) lower after DMSO treatment. This study suggests that DMSO can inhibit metabolism of other sulfoxides in man and may antagonize the therapeutic efficacy of sulindac.     

Individual variability in concentrations of urinary sulindac sulfide.

Among 70 patients with arthritis who were receiving satisfactory maintenance therapy with sulindac (300 to 400 mg daily), 64% had no detectable sulindac sulfide (active metabolite) in one to four random urine specimens. However, 36% had 1.0 to 7.8 (mean, 2.2 +/- 1.4) micrograms/ml sulindac sulfide in urine, similar to the therapeutically effective concentrations found in 24 concurrent plasma specimens (1.4 to 9.0 micrograms/ml). Ten patients had sulindac sulfide in only one or two of two to four urine specimens. Thus, 36% of the patients had pharmacodynamically significant concentrations of sulindac sulfide in urine, presumably capable of suppressing the cyclooxygenase pathway responsible for prostaglandin synthesis in the kidney and elsewhere. The findings suggest individual variability in the capacity for renal oxidation of sulindac sulfide to inactive metabolites, perhaps related to genetic or environmental factors or both. These findings may help to explain conflicting reports on the effects of sulindac on urinary prostaglandins and renal function.     

Etodolac kinetics in the elderly

The effects of age and chronic dosing on the pharmacokinetics of the anti-inflammatory drug etodolac were evaluated in healthy young subjects, healthy elderly subjects, and elderly patients with osteoarthritis. After either single or chronic (7 days) dosing, both the healthy elderly subjects and the elderly patients with osteoarthritis had values for etodolac peak concentration, time to reach peak concentration, the AUC from 0 to 24 hours, elimination t1/2, and free fraction that did not differ significantly from those in the young (control) subjects. Despite the expected increases in the peak concentration and AUC from 0 to 24 hours for all groups after chronic dosing, there were no changes in etodolac free fraction, time to peak concentration, or t1/2. Because significant accumulation of etodolac was not observed in our elderly participants, adjustment of dosage when elderly subjects receive etodolac therapy is not indicated.     

Absence of age and gender effects on the pharmacokinetics of a single 500-milligram oral dose of levofloxacin in healthy subjects.

The influence of age and gender on the pharmacokinetics of levofloxacin in healthy subjects receiving a single oral 500-mg dose of levofloxacin was investigated in this parallel design study. Six young males (aged 18 to 40 years), six elderly males (aged > or = 65 years), six young females (aged 18 to 40 years), and six elderly females (aged > or = 65 years) were enrolled and completed the study. The study reveals that the bioavailability (rate and extent) of levofloxacin was not affected by either age or gender. In both age (young and elderly) and gender (male and female) groups of subjects, peak concentrations in plasma were reached at approximately 1.5 h after dosing; renal clearance of levofloxacin accounted for approximately 77% of total body clearance, and approximately 76% of the administered dose was recovered unchanged in urine over the 36 h of collection. The apparent differences in the calculated pharmacokinetic parameters for levofloxacin between the age groups (young versus elderly) and between the gender groups (males versus females) could be explained by differences in renal function among the subjects. A single dose of 500 mg of levofloxacin administered orally to both young and old, male and female healthy subjects was found to be safe and well tolerated. As the differences in levofloxacin kinetics between the young and the elderly or the males and the females are limited and are mainly related to the renal function of the subjects, dose adjustment based on age or gender alone is not necessary.     

Cyclooxygenase inhibition, platelet function, and metabolite formation during chronic sulfinpyrazone dosing

The inhibitory effects of sulfinpyrazone are more marked ex vivo than in vitro, suggesting biotransformation to potentially active metabolites such as the sulfide and sulfone metabolites. As a platelet inhibitor, the sulfide metabolite is 10 times as potent as the parent and because of its long t1/2, the former may lead to cumulative inhibition of platelet function in vivo during chronic sulfinpyrazone dosing. In our study, healthy subjects received sulfinpyrazone, 200 mg four times a day, for 6 days. Plasma levels of the sulfide metabolite rose slightly from 2.1 +/- 0.8 micrograms/ml 12 hr after the fourth dose to 2.8 +/- 0.8 microgram/ml 12 hr after the twenty-fourth dose. This was associated with increasing inhibition of ex vivo platelet aggregation induced by platelet-activating factor during the dosing period, but inhibition of arachidonic acid-induced aggregation did not increase cumulatively during dosing and collagen-induced aggregation was not inhibited. Inhibition of platelet aggregation was no longer evident 24 hr after the final dose of sulfinpyrazone. The effects of sulfinpyrazone on cyclooxygenase activity were assessed by measurement of thromboxane B2 production by thrombin-stimulated platelets ex vivo and urinary excretion of the major prostacyclin metabolite 2,3-dinor-6-keto-PGF1 alpha. During sulfinpyrazone dosing, thromboxane formation and prostacyclin biosynthesis were correspondingly lowered 50% to 60%. The extent of this depression was of the same order on days 2 and 5 of dosing.(ABSTRACT TRUNCATED AT 250 WORDS)     

Pharmacokinetics and tolerability of single oral doses of 882C87, a potent, new anti-varicella-zoster virus agent, in healthy volunteers.

882C87 is a nucleoside analog with potent, specific activity against varicella-zoster virus. It is approximately seven times as potent as acyclovir with an in vitro 50% inhibitory concentration of 1 to 2 microM. The tolerability and pharmacokinetics of single doses of 882C87 have been investigated in a series of studies with healthy young and elderly adult volunteers. The young received 50 to 1,600 mg, and the elderly received 50 and 100 mg. Concentrations of 882C87 and its main metabolite, the pyrimidine base 5-(1-propynyl)uracil (5PU), in plasma and urine were assayed by an automated sequential trace enrichment of dialysate-high-performance liquid chromatography procedure, and noncompartmental pharmacokinetic parameters were derived from the data. Concentrations of 882C87 in plasma increased proportionally for doses of up to 400 mg, but after higher doses the increase was less than dose proportional. In young adults, after 200, 400, and 1,600 mg, the maximum concentrations of the drug in plasma were 9.0, 16.3, and 34.7 microM, respectively, and the areas under the concentration-time curve (AUC) from 0 h to infinity were 166.6, 333.7, and 822.9 microM.h, respectively. Elimination half-life was 11.3 to 13.0 h after 50 to 400 mg, increasing to 15.3 h after 1,600 mg, associated with a small decrease in renal clearance. In healthy elderly volunteers concentrations of 882C87 in plasma after 50 and 100 mg were similar to those in young adults after twice the dose; apparent clearance and renal clearance were significantly reduced, and half-life was significantly longer at 15 h. Administration of 882C87 with food produced a small, nonsignificant reduction in mean AUC from 0 h to infinity, but in subjects with a low fasting AUC there was an increase after food and in subjects with a high fasting AUC there was a decrease. Concentrations of 5PU in plasma were one-third to one-half those of 882C87 and, in most subjects, were not dose proportional. There was a lag of at least 5 h after dosing with 882C87 before 5PU was detectable in plasma.     

Pharmacokinetics and dose proportionality of cefmetazole in healthy young and elderly volunteers.

The pharmacokinetics and dose proportionality of cefmetazole were studied in 24 healthy volunteers (12 young and 12 elderly). Each volunteer received single 0.5-, 1-, and 2-g doses of cefmetazole administered intravenously over 5 min according to a three-way crossover design. Serial plasma and urine samples were collected over a 24-h period following dosing and assayed for cefmetazole by a high-performance liquid chromatography method. Results of the dose proportionality portion of the study indicated that cefmetazole pharmacokinetics are linear and proportional with dose in both age groups. Comparisons of pharmacokinetic parameters between the young and elderly groups indicated that the systemic clearance was significantly lower in elderly than in young volunteers (92.4 versus 112 ml/min). Additionally, creatinine clearance was significantly lower in elderly (74.1 ml/min) than in young (92.9 ml/min) subjects. No significant differences between age groups were observed for volume of distribution, urinary recovery, terminal half-life, nonrenal clearance, or renal clearance, although half-life was slightly prolonged in elderly volunteers relative to that in young volunteers (1.54 versus 1.34 h), and renal clearance was slightly lower in elderly than in young volunteers (83.7 versus 96.1 ml/min). Both systemic and renal clearance were significantly correlated with creatinine clearance. These results indicate that the observed age-related differences in the pharmacokinetics of cefmetazole are most likely due to differences in renal function between the two age groups. The small reduction in cefmetazole elimination in the elderly would not warrant dose adjustment in this population.     

Encainide disposition in patients with renal failure

The antiarrhythmic agent encainide undergoes extensive presystemic biotransformation to form O-desmethylencainide (ODE) and 3-methoxy-ODE (MODE) in subjects who exhibit the extensive metabolizer (EM) phenotype for debrisoquin 4-hydroxylation. These metabolites contribute significantly to the overall antiarrhythmic activity and are extensively excreted in the urine. Therefore, the effects of renal impairment on the disposition of encainide and its metabolites were studied in seven EM patients with renal failure and compared with those in eight healthy normal subjects of the same phenotype. After a single dose of encainide, its systemic and oral clearances were significantly lower and its elimination t1/2 was shorter in patients with renal failure than in healthy volunteers. This shortening was explained by a significant reduction in steady-state volume of distribution in renal failure. After chronic dosing to steady state, quantitatively similar changes were seen. Chronic oral dosing produced 80% higher levels of ODE (the most pharmacodynamically active metabolite) and 167% higher levels of MODE as compared with healthy volunteers. The prolongations in ECG intervals were similar in the two groups despite the higher encainide dose in the normal subjects. In conclusion, patients with renal failure will require lower doses of encainide because of both reduced encainide clearance and increased accumulation of active metabolites.     

A comparison of ketoprofen SR and sulindac in the elderly with rheumatoid arthritis.

The elderly (age > 65 years) are more vulnerable to side-effects induced by non-steroidal anti-inflammatory drugs (NSAIDs). We therefore performed a double-blind comparative study of ketoprofen SR and sulindac in patients with active rheumatoid arthritis, 65 years of age or older. Sulindac was chosen because of its possible renal sparing effects, and ketoprofen SR because of its short half life and sustained release delivery system. Eighty patients were entered. More patients withdrew from the study due to side-effects in the sulindac group; both treatment groups had a high incidence of side-effects during this study and during previous exposure to other NSAIDs, demonstrating that the elderly are susceptible to side-effects from NSAIDs.     

The influence of age on the pharmacokinetics of the antiepileptic agent oxcarbazepine

The disposition of oxcarbazepine was studied in 12 young and 12 elderly healthy male and 12 young and 12 elderly healthy female volunteers, with emphasis on the influence of age. Oxcarbazepine was administered as a single dose of either 300 mg (men) or 600 mg (women), followed by multiple-dose (300 mg) administration twice a day for 7 days (men) or 6 days (women). Semilogarithmic plasma concentration-time curves showed an increasing decline at decreasing concentrations. Accumulation of the pharmacologically active metabolite monohydroxycarbamazepine was found to be more than one would anticipate on the basis of linear and unchanged pharmacokinetics. Saturation did not seem to occur at the level of renal excretion. No apparent differences between male and female volunteers were observed. A significant higher maximum concentration, higher area under the curve parameters, and a lower elimination rate constant were observed in the elderly. These observations are in line with a smaller renal clearance of monohydroxycarbamazepine in the elderly group. In a clinical situation, these age-related differences are not likely to have important implications. In general, treatment with oxcarbazepine was well tolerated.     

Are Dosing Adjustments Required for Colchicine in the Elderly Compared with Younger Patients?

Introduction

The objective of this study was to compare the relative bioavailability of the US Food and Drug Administration-approved formulation of colchicine after a single 0.6 mg dose in young (18?C30 years of age) and elderly (??60 years of age) healthy subjects to determine whether dosing adjustments are required in elderly patients.

Methods

A single-dose, single-drug, parallel-group study was performed in 20 young subjects with normal renal function (defined as creatinine clearance [CrCl] ??80 mL/min) and 18 elderly subjects with normal or mild renal impairment (CrCl ??50 mL/min) in otherwise good health. Blood samples were collected for up to 72 hours postdose and analyzed for colchicine using a validated liquid chromatography/tandem mass spectrometry method. Noncompartmental pharmacokinetic parameters were compared using analysis of variance methods.

Results

There were no statistically significant (P < 0.05) differences in mean colchicine pharmacokinetic parameters between young and elderly subjects, including peak plasma concentration (C _max) (2.53 vs. 2.56 ng/mL), time to C _max (1.25 vs. 1.25 hours), area under the plasma concentration-time curve to infinity (22.29 vs. 25.01 ng/h/mL), elimination half-life (25.4 vs. 30.1 hours), oral clearance (0.40 vs. 0.35 L/h/kg), and apparent volume of distribution (14.3 vs. 14.8 L/kg), respectively.

Conclusion

The lack of any significant differences in colchicine pharmacokinetic parameters between young and elderly healthy subjects, with some of the latter including mild renal impairment, suggests that dose modification of colchicine may not be necessary in healthy elderly patients. However, when evaluating the use of colchicine dosing in an elderly patient, the confounding effect on overall exposure and safety from comorbid conditions, the use of concomitant medications, and the administration of multiple doses should be considered.     

Pharmacokinetics of intravenous cefetamet (Ro 15-8074) and oral cefetamet pivoxil (Ro 15-8075) in young and elderly subjects.

The purpose of this investigation was to evaluate the effect of advanced age on the pharmacokinetics of cefetamet and its prodrug, cefetamet pivoxil. A secondary objective of this study was to assess the effect of food on the absorption of cefetamet pivoxil in the elderly. Twenty-four healthy subjects (twelve young and twelve elderly) received (in a Latin square design) a single-dose, 515-mg infusion of cefetamet, a single 1,000-mg oral dose of cefetamet pivoxil during fasted conditions, and a single 1,000-mg oral dose of cefetamet pivoxil 10 min after a standardized low-fat breakfast. Serial blood and urine samples were collected over a 36-h period and analyzed by high-performance liquid chromatography. Intravenous and oral pharmacokinetic parameters were obtained by using model-independent techniques. The systemic clearance and renal clearance of cefetamet were significantly lower (P less than 0.05) in elderly subjects compared with in young controls after intravenous administration. No significant difference was observed in the apparent volumes of distribution at steady state between the two groups. Consequently, half-life and mean residence time were prolonged. A trend toward a lower renal clearance/creatinine clearance ratio was observed in our elderly population. Oral clearance of cefetamet was only slightly reduced in our elderly subjects, consistent with an increase in plasma half-life. Otherwise, oral pharmacokinetic parameters were comparable between elderly and young subjects. Additionally, the same effects of food were observed on the absorption characteristics of cefetamet (no change in maximum concentration of drug in plasma and an increase in both time to maximum concentration of drug in plasma and bioavailability) in our elderly subjects as in our young volunteers. Age did not appear to alter the deesterification and bioavailability of cefetamet pivoxil. We conclude that the small reduction in the elimination of cefetamet in the elderly would not require dose adjustment for this population.     

Amantadine kinetics in healthy elderly men: implications for influenza prevention

Amantadine kinetics were investigated in 10 healthy elderly men 60 to 76 yr old. We calculated a dose that would yield the same trough steady-state plasma amantadine concentration (Cpss; 300 ng/ml) as a 200 mg/day dose taken by young healthy adults; this dose prevents influenza A virus infection and is well tolerated by this population. With a one-compartment open model, kinetic parameters were calculated after a single dose of 25, 50, or 75 mg or the same dose twice a day for 10.5 days. Peak concentration occurred 4.0 to 8.0 hr after dosing, but the calculated AUC was proportional to dose, indicating that relative bioavailability was independent of dose. This was supported by recovery of 88% of the single doses in urine. No change in apparent volume of distribution was found. Log trough Cpss increased with dose. Trough Cpss varied less than 300% for equivalent doses. There was first-order elimination of drug from plasma, with a median t1/2 of 28.9 hr (range 18.5 to 45.0 hr), and elimination was independent of dose and creatinine clearance. The median ratio of renal amantadine clearance to creatinine clearance was 2.07 (range 0.64 to 4.20), suggesting renal tubular secretion. Compared to data from healthy young adults, the t1/2 was doubled and renal drug clearance was diminished in elderly men. To achieve the target trough Cpss of 300 ng/ml, healthy older men must take amantadine at a dose of 1.4 mg/kg/day, and we suggest that this is a rational dose for evaluation of efficacy and safety for influenza A prophylaxis in this population.