Evaluation of a novel method to estimate absolute bioavailability of drugs from oral data

The goal of this investigation was to evaluate the performance of a novel method allowing estimation of absolute bioavailability from oral data only. In contrast to the traditional method, which compares areas under the drug concentration time curves after oral and intravenous administration in subjects with normal renal function, the novel method uses total and renal clearance values following oral administration from subjects with varying renal functions to estimate bioavailability. The novel method can also provide estimates for nonrenal clearance.Published data on total clearance and renal clearance of drugs obtained from subjects with variable renal functions were collected, the novel method applied, estimates of bioavailability and nonrenal clearance obtained and compared with reported estimates by the traditional methods. In addition computations were performed to assess various factors that could possibly affect the reliability of the novel method. The results indicated that the novel method provides accurate estimates for bioavailability of drugs meeting the prerequisites: linear kinetics, predominant renal excretion in normals, absence of metabolic polymorphism and independence of bioavailability and nonrenal clearance from renal function. The average (standard deviation) of the prediction error and bias of the bioavailability estimates by the novel method was 7.8 (6.0) and -1.4 (9.8)%, respectively. The estimates for nonrenal clearance by the novel method were less accurate. The computations confirmed that the estimates by the novel method are sensitive to renal-function dependent changes in nonrenal clearance and bioavailability and also depend on the extent of renal excretion of a drug. In conclusion, the novel method's main use is to diagnose absence or presence of changes in bioavailability and non-renal clearance of drugs in populations with varying renal function.     

The pharmacokinetics of intravenous and oral sulpiride in healthy human subjects

Summary The pharmacokinetics of sulpiride was studied in 6 healthy volunteers after intravenous and oral (tablets) administration of 100 mg. An open two- and in two subjects a three-compartment model was applied following intravenous administration. The average total distribution volume during the terminal slope was 2.72±0.66 l/kg and total systemic clearance was 415±84 ml/min. The serum half-life of the terminal slope following intravenous administration averaged 5.3 h (range 3.7–7.1 h) according to the two-compartment model. In two subjects the half-lives were 11.0 and 13.9 h when the three-compartment model was applied. Determination of urinary excretion rates of unchanged sulpiride indicated a half-life of 7.15 h. Following intravenous administration, 70±9% of the dose was recovered unchanged in urine within 36 h; the mean renal clearance was 310±91 ml/min. Sulpiride was absorbed slowly, with peak concentrations appearing between 3 and 6 h after oral administration. The recovery of unchanged drug in urine following oral administration was 15±5% of the dose, with a mean renal clearance of 223±47 ml/min. The bioavailability determined from combined plasma and urine data was only 27±9%. The low bioavailability was probably due to incomplete absorption.     

Risedronate Pharmacokinetics and Intra- and Inter-Subject Variability Upon Single-Dose Intravenous and Oral Administration

Purpose. To determine the pharmacokinetics and absolute bioavailability of risedronate after single-dose oral administration of 30 mg risedronate as a tablet and an aqueous solution, and 0.3 mg risedronate as an intravenous infusion. Methods. This study was a randomized, three-treatment, four-period, partial replicate crossover study involving 33 healthy volunteers. Treatments were administered 7 weeks apart, and the third treatment was repeated during the fourth period. Serum and urine were collected over 72 hours and 672 hours, respectively. Results. Following intravenous administration, renal clearance accounted for 87% of total clearance, with 65% of the dose excreted within 24 hours and 85% of the dose excreted within four weeks. The absolute bioavailability was approximately 0.62% after both oral formulations, and the relative bioavailability of the tablet compared with the oral solution was 104%. The rate and extent of absorption from the two formulations were bioequivalent based on the range proposed for highly variable drugs. Intrasubject variability following oral administration was 50-80%, and was primarily associated with absorption. Conclusion. The majority of the total clearance after intravenous administration of risedronate was renal clearance, indicating that only a small percentage of a systemic dose is potentially incorporated, or cleared, into bone. The absolute bioavailability of orally administered risedronate is 0.6%, and is independent of formulation. Variability in the pharmacokinetics following oral administration is primarily associated with intrasubject variability in absorption.     

The bioavailability and pharmacokinetics of guanfacine after oral and intravenous administration to healthy volunteers

Guanfacine is a centrally acting alpha-2 adrenergic agonist. The absolute bioavailability, pharmacokinetics, and renal clearance of this antihypertensive drug were investigated in healthy male volunteers. Eighteen subjects received a single oral or intravenous dose of guanfacine 3 mg in a two-way cross-over study design. Blood samples were obtained before dosing and up to 72 hours after dosing for determination of drug levels in plasma. Additional blood samples were obtained for protein binding studies. Urine was collected and pooled for specific intervals up to 96 hours after dosing. The absolute bioavailability of guanfacine after a single oral dose was 81.1%. The elimination half-lives were 13.8 hours and 13.4 hours after oral and intravenous administration, respectively. The volume of distribution results were approximately 6 L/kg by both routes of administration. The mean plasma protein binding results were 71.6%, not influenced by plasma concentration or route of administration. The urinary recovery of guanfacine was 44.3% after oral dosing and 50% after intravenous dosing. Renal clearance of guanfacine was 50% of total body clearance and appeared to be due to a net renal tubular secretory process.     

Urinary Excretion: Does It Accurately Reflect Relative Differences in Bioavailability/Systemic Exposure When Renal Clearance Is Nonlinear?

PURPOSE: The purpose of this study was to assess the influence of nonlinear renal clearance on the ability of urinary excretion data to accurately determine relative differences in systemic exposure and bioavailability. METHODS: Serum concentration and urinary excretion-time profiles were simulated assuming an open one-compartmental model with first-order absorption, linear nonrenal clearance, and either linear or nonlinear renal clearance (saturable secretion). Renal clearance comprised 5% or 95% of total clearance. Doses were varied over a 100-fold range (10-fold decrease/increase from the reference dose). Relative systemic exposures were based on the ratios of AUC and C(max) and the corresponding ratios of cumulative amount excreted in urine (A(e)) and the maximum urinary excretion rate. Relative bioavailability was based on the ratios of A(e) and the test to reference dose (D(ratio)). RESULTS: When renal clearance was linear and urinary excretion data were used to assess relative systemic exposure and relative bioavailability, no significant errors in accuracy were observed. However, when renal clearance was nonlinear, errors in the accuracy of estimation of relative bioavailability (Clr =5% only) and relative systemic exposure ranged from -53% to +125%; minimal error in accuracy existed in the estimation of relative bioavailability when Clr = 95% (-3% to +6%). CONCLUSIONS: Prior to the use of urinary excretion data to assess relative systemic exposure or bioavailability, the relationship between serum concentration and renal clearance should be established.     

New method for bioavailability assessment of slow-release preparations of theophylline

Variability in an individual's clearance of theophylline is an important consideration when estimating bioavailability. A method is described for compensating for this problem, using the serum concentration of theophylline and urinary excretion data on its major metabolites to make an estimation of the clearance after oral administration using the intravenous dose as reference. The method is particularly useful for assessing the bioavailability of slow-release theophylline preparations.     

A pharmacokinetic study to evaluate the absolute bioavailability of triamcinolone acetonide following inhalation administration.

Triamcinolone acetonide is a glucocorticoid administered by oral inhalation in the management of asthma. With oral inhalation of glucocorticoids, systemic absorption can come from oropharyngeal, gastrointestinal, or airway deposition of the drug. The objectives of this study were to determine the absolute bioavailability of triamcinolone acetonide following inhalation administration and to delineate the airway contribution of triamcinolone acetonide absorption relative to the absolute bioavailability. All subjects received a 5-minute 400 mcg intravenous infusion of triamcinolone acetonide and a single 800 mcg dose of inhaled triamcinolone acetonide with and without oral charcoal administration in a randomized three-way crossover fashion. The oral charcoal allowed for isolating the pulmonary component of absorption by adsorbing the oropharyngeal and gastrointestinal deposited drug. The mean (+/- SD) absolute bioavailability value for inhaled triamcinolone acetonide was 25% (8.75%). Delineation of the airway contribution of triamcinolone acetonide absorption showed that 10.4% of an inhaled dose is absorbed as triamcinolone acetonide from the lungs. Mean (+/- SD) total body clearance was rapid at 0.57 (0.12) L/hr/kg. The mean (+/- SD) apparent volume of distribution following the intravenous dose was a low 1.96 (0.31) L/kg. No significant differences were noted in the apparent terminal elimination half-life of triamcinolone acetonide (approximately 2.4 hr) between treatments.     

Pharmacodynamic dependent disposition of the angiotensin converting enzyme inhibitor, libenzapril

Libenzapril, an angiotensin converting enzyme inhibitor, was administered to healthy male volunteers in a randomized, two-phase pharmacokinetic study. One phase compared the pharmacokinetics of a 4 mg intravenous infusion and 20 mg oral solution, and the other phase provided two additional intravenous infusions of 1.7 and 12 mg for comparison. The intravenous model-independent pharmacokinetic parameters MRTiv, Vss, CL, and CLr all exhibited dose dependence. The concentration dependent renal clearance was maximal at 83 mL/min and minimal at 32 mL/min following intravenous administration. The mechanism of libenzapril's self-inducible clearance appears to have a pharmacodynamic basis. The absolute bioavailability was estimated at less than 10% and the renal clearance following oral administration exhibited additional route dependency.     

Single and multiple dose intravenous and oral pharmacokinetics of the hedgehog pathway inhibitor vismodegib in healthy female subjects

AIM

Vismodegib has demonstrated clinical activity in patients with advanced basal cell carcinoma. The pharmacokinetics (PK) of vismodegib are non-linear. The objective of this study was to determine whether vismodegib PK change following repeated dosing by administering a tracer intravenous (i.v.) dose of ¹⁴C-vismodegib with single and multiple oral doses.

METHODS

Healthy post menopausal female subjects (n= 6/group) received either a single or daily 150 mg vismodegib oral dose with a ¹⁴C-labelled 10 µg i.v. bolus dose administered 2 h after the single or last oral dose (day 7). Plasma samples were assayed for vismodegib by LC-MS/MS and for ¹⁴C-vismodegib by accelerator mass spectrometry.

RESULTS

Following a single i.v. dose, mean clearance, volume of distribution and absolute bioavailability were 43.4 ml h⁻¹, 16.4 l and 31.8%, respectively. Parallel concentration–time profiles following single oral and i.v. administration of vismodegib indicated elimination rate limited PK. Following i.v. administration at steady-state, mean clearance and volume of distribution were 78.5 ml h⁻¹ and 26.8 l, respectively. Comparison of i.v. PK parameters after single and multiple oral dosing showed similar half-life, increased clearance and volume of distribution (81% and 63% higher, respectively) and decreased bioavailability (77% lower) after repeated dosing. Relative to single dose, the unbound fraction of vismodegib increased 2.4-fold with continuous daily dosing.

CONCLUSION

Vismodegib exhibited a long terminal half-life after oral and i.v. administration, moderate absolute bioavailability and non-linear PK after repeated dosing. Results from this study suggest that the non-linear PK of vismodegib result from two separate, non-linear processes, namely solubility limited absorption and high affinity, saturable plasma protein binding.     

Absolute bioavailability and disposition of lanthanum in healthy human subjects administered lanthanum carbonate

Lanthanum carbonate [La2(CO3)3] is a noncalcium, non-aluminum phosphate binder indicated for hyperphosphatemia treatment in end-stage renal disease. A randomized, open-label, parallel-group, phase I study was conducted to determine absolute bioavailability and investigate excretory routes for systemic lanthanum in healthy subjects. Twenty-four male subjects were randomized to a single lanthanum chloride (LaCl3) intravenous infusion (120 microg elemental lanthanum over a 4-hour period), a single 1-g oral dose [chewable La2(CO3)3 tablets; 4 x 250 mg elemental lanthanum], or no treatment (control). Serial blood, urine, and fecal samples were collected for 7 days postdosing. The absolute bioavailability of lanthanum [administered as La2(CO3)3] was extremely low (0.00127% +/- 0.00080%), with individual values in the range of 0.00015% to 0.00224%. Renal clearance was negligible following oral administration (1.36 +/- 1.43 mL/min). Intravenous administration confirmed low renal clearance (0.95 +/- 0.60 mL/min), just 1.7% of total plasma clearance. Fecal lanthanum excretion was not quantifiable after intravenous administration owing to high and variable background fecal lanthanum and constraints on the size of the intravenous dose. These findings demonstrate that lanthanum absorption from the intestinal tract into the systemic circulation is extremely low and that absorbed drug is cleared predominantly by nonrenal mechanisms.     

Pharmacokinetics ofl-propranolol during repetitive dosing in normal and uranyl nitrate-induced renal failure rats

The effect of experimental renal failure on the intravenous and oral pharmacokinetics of l-propranolol was studied in rats. Renal failure was induced by a single intravenous injection of uranyl nitrate (5 mg/kg). Pharmacokinetic studies were carried out on the fifth day after injection of the renal toxin (renal failure group or saline (control group). Serum concentration time course of l-propranolol was characterized after a single intravenous or oral dose as well as after five consecutive doses of the drug given at 3-hr intervals. During repetitive intravenous drug administration, steady state was reached by the second dose, i.e., within 6hr after initiation of repetitive dosing. No significant difference in the serum concentration time course of l-propranotol was observed between control and renal failure animals. In both groups the AUCover the steady-state dosing interval was on the average 21–27%higher than the AUCafter a single dose, indicating a slight decrease in the systemic clearance of l-propranolol during repetitive intravenous drug administration. An approximately two- to three-fold higher serum l-propranolol concentration was observed in renal failure animals as compared to the normal controls after both single or repetitive oral dosing. The apparent reduction in oral clearance probably reflected an inhibition of the hepatic first-pass metabolism of l-propranolol in the renal failure rat. An unexpectedly high and protracted accumulation of serum l-propranolol concentration was observed during repetitive oral drug administration. Continuing accumulation was still evident after the fifth oral dose, i.e., a period of 15hr or approximately 10 half-lives. The mean AUCover the last dosing interval was 32.0 and 17.8 times higher than the predicted steady-state estimate based on single oral dose data for control and renal failure rats, respectively. The substantial reduction in the oral clearance during repetitive drug administration may be due to an auto-inhibition of l-propranolol metabolism.This work was supported by Grant HL-25797 from the National Heart, Lung and Blood Institute, the National Institutes of Health.     

Biased estimates of nonrenal clearance.

The goal of the investigation was to critically evaluate published values for oral nonrenal clearance and their postulated dependence on renal function with drugs administered orally to subjects with varying renal function. Derivation of the pertinent equations indicated that the values reported for oral nonrenal clearance tend to systematically overestimate both the true oral and intravenous nonrenal clearances of these drugs. Computations were performed to confirm these findings not only for subjects with normal renal function, but also for patients with renal impairment. The computations evaluated the relevance of bioavailability and renal clearance of a drug for the bias in the estimates of true oral or intravenous nonrenal clearance. The results of the computations showed that the estimates for true oral and intravenous nonrenal clearance derived from oral data exceed systematically the true values in subjects with normal or reduced renal function. Also, a renal function dependent decrease of the true oral or intravenous nonrenal clearance is falsely diagnosed if apparent oral nonrenal clearance values are used for the estimates. The magnitude of bioavailability and renal clearance impact the bias in the estimates derived from oral data. For drugs with predominant renal excretion and small bioavailability the bias is largest. For drugs with predominant nonrenal elimination and large bioavailability the bias is smallest.     

Dose-dependent bioavailability of prazosin in beagle dogs

Prior to the introduction of an intravenous dosage form for use in humans, prazosin pharmacokinetic studies emphasizing clearance, hepatic extraction, and bioavailability were carried out in dogs. Two such canine studies reported significantly different values for the oral bioavailability of prazosin. This study investigated the differences in prazosin oral availability in beagle dogs. Three male animals were administered an intravenous (1 mg/kg) and three different oral doses (15, 5, and 1 mg) with a 7-day washout between study days. The mean predicted bioavailability, based on hepatic clearance and an estimate for liver blood flow, was 74%. The mean absolute bioavailabilities, determined for each dose in each animal by comparing dose-corrected areas under the plasma concentration-time curve, were 82, 27, and 23%. Although good agreement was evident in bioavailability between the 15-mg oral dose and what was predicted, calculated availabilities for the 5-mg and 1-mg oral doses were approximately one-third the predicted value. The results obtained from this study, together with data from the two previous studies, indicate that the bioavailability of prazosin in dogs is dose-dependent. Possible mechanisms for this observation are also presented.     

Pharmacokinetics of propylene glycol in the rabbit

Propylene glycol (PG) is widely used as a drug solvent in the pharmaceutical industry. However, it has produced central nervous system toxicity during chronic administration. The current study was undertaken to describe the pharmacokinetics of propylene glycol during acute and constant-rate intravenous dosing, using the rabbit as an animal model. In the acute dosing experiment, metabolism of PG was the dominant disposition pathway, characterized by concentration-dependent metabolic clearance. Renal excretion of PG accounted for only 2.4 to 14.2% of the total dose following acute administration due to significant reabsorption in the rabbit kidney. An ascending-convex relationship exists between renal clearance and urine flow. During constant-rate intravenous infusion studies, there was a disproportionate relationship between infusion rate and steady-state concentration, providing further evidence for capacity-limited disposition kinetics. The ascending-convex relationship between renal clearance and urine flow was also apparent in the long-term infusion studies.     

Oral bioavailability and disposition of [14C]omapatrilat in healthy subjects

The objective of this study was to determine the absolute oral bioavailability and disposition of omapatrilat. This single-dose, randomized, crossover study of 20 mg intravenous and 50 mg oral [14C]omapatrilat was conducted in 12 healthy male subjects to determine the disposition and oral bioavailability of omapatrilat, an orally active vasopeptidase inhibitor. Blood samples were collected up to 120 hours, and the excreta were collected over 168 hours postdose. Plasma concentrations of omapatrilat were determined by a validated LC/MS/MS procedure. Radioactivity in blood, plasma, urine, and feces was determined by liquid scintillation counting. Urinary excretion of radioactivity averaged 80% and 64% of intravenous and oral doses, respectively; < 1% of oral dose was excreted unchanged in urine. The absolute oral bioavailability of omapatrilat averaged 31%. Total body clearance of omapatrilat (80 L/h) exceeded liver plasma flow. Apparent steady-state volume of distribution of omapatrilat (21 L/kg) was extremely high compared with total body water. Omapatrilat undergoes substantial presystemic first-pass metabolism after oral administration. Omapatrilat is eliminated primarily by metabolism, and its metabolites are eliminated primarily in urine. Extrahepatic organs may be involved in the elimination of omapatrilat. Plasma concentrations of omapatrilat exhibit a prolonged terminal elimination phase, which represents elimination from a deep compartment.     

Differential effects of the degree of renal damage on p-aminohippuric acid and inulin clearances in rats

Kidney disease is generally thought to affect all segments of a nephron equally. Bricker and co-workers first proposed this as the Intact Nephron hypothesis in 1971, and evidence to date has usually supported this hypothesis. However, most supporting studies have involved severe renal failure, which may not be suitable to differentiate effects on functional sites or to test the hypothesis. The work included here examines the effects of limited renal failure on two separate functions of the nephron: glomerular filtration, as measured by inulin clearance and proximal tubular organic anion secretory function, as measured by p-aminohippuric acid (PAH) clearance. Renal failure was induced in rats by intravenous administration of uranyl nitrate, a nephrotoxin. Doses used were 0.3, 1.0, and 3.0 mg/kg rat body weight. Five days later, rats were given an intravenous infusion of PAH and inulin. Renal clearance of each compound was calculated. Results obtained in these experiments show that, at the lowest uranyl nitrate dose, PAH clearance was significantly decreased but inulin clearance was not. The ratio of CL_PAH/CL_IN was decreased from 2.55 in control rats to 1.21 in rats given the low dose of nephrotoxin. At higher uranyl nitrate doses, both clearance rates were significantly decreased and the ratio of CL_PAH/CL_IN remained close to 1.0. These results indicate that the active transport functions of the nephron can be differentiated from passive transport functions. Caution should be exercised in extrapolating renal disease changes in active renal secretion to changes in passive renal elimination and the reverse.This work was supported in part by NIH grants GM 26691 and GM 36633. C.A.G. was supported in part by a fellowship from the American Foundation for Pharmaceutical Education.     

The pharmacokinetics of single doses of metoclopramide in renal failure

Summary The pharmacokinetics of metoclopramide have been studied after intravenous and oral dosing (10 mg) to 6 patients with chronic renal failure. The mean terminal half-life was 13.9 h after intravenous and 14.8 h after oral administration. Total body clearance after i. v. dosing was 16.7 l/h. Oral bioavailability was 71.8%. In comparison to previous studies on normal subjects these results indicate that clearance of metoclopramide in renal failure is approximately 30% of normals. This difference is not accounted for by the change in renal clearance and suggests impaired metabolism or an alteration in enterohepatic circulation of metoclopramide in renal failure.     

Effect of congestive heart failure on the pharmacokinetics of cibenzoline

Six patients with chronic congestive heart failure (CHF) (New York Heart Association functional class II or III) and five healthy subjects completed this study designed to determine if CHF alters the pharmacokinetics and absolute bioavailability of cibenzoline when compared with healthy subjects. Each subject or patient was administered a one-hour intravenous infusion of 80 mg of 15N2-cibenzoline and simultaneously received an 80-mg oral dose of cibenzoline that allowed for analytic separation of each route of administration. Resulting plasma concentration-time profiles and urinary excretion rate data were used to determine pharmacokinetic parameters for cibenzoline. There were no statistically significant differences in any pharmacokinetic parameter between patients with CHF and healthy subjects. The absolute bioavailability ranged from 74% to 97% in those with CHF. The volume of distribution following the intravenous dose ranged from 3.4 to 6.1 L/kg, and plasma clearance ranged from 245 to 642 mL/min, with an apparent elimination half-life of approximately ten hours. Approximately 60% of the dose was recovered in the urine. Overall, the pharmacokinetics of cibenzoline in patients with chronic CHF do not differ from those observed in healthy subjects.     

Absolute bioavailability of sitagliptin, an oral dipeptidyl peptidase-4 inhibitor, in healthy volunteers

The purpose of this study was to determine the absolute bioavailability of sitagliptin, an orally active, potent and highly selective dipeptidyl peptidase-4 inhibitor recently approved in the United States for the treatment of type 2 diabetes. The effect of a high fat meal on sitagliptin pharmacokinetics was also assessed. The study was performed in two parts. Intravenous doses (2 h infusion) of 25, 50 and 100 mg were administered double-blind to 10 (8 active, 2 placebo) subjects in a fixed-sequence manner in Part I. In Part II, 12 subjects were randomized to each of three open-label treatments: an intravenous 100 mg dose; a single oral 100 mg final market image tablet administered following a high fat meal and a single oral 100 mg final market image tablet administered fasted. Following each dose, plasma and urine were collected at pre-specified times for evaluation of sitagliptin pharmacokinetics. All doses were generally well tolerated in both parts of the study. Following rising intravenous doses of sitagliptin, AUC(0-infinity) increased dose-proportionally, indicating that plasma clearance is independent of dose over the dose range evaluated. Renal clearance of unchanged sitagliptin accounted for approximately 70% of the total plasma clearance of sitagliptin, indicating that sitagliptin is primarily cleared via renal excretion. Averaged across doses, the mean total plasma clearance was 416 ml/min. The mean absolute bioavailability of sitagliptin was 87% with a 90% CI of (81%, 93%). The AUC(0-infinity) and C(max) geometric mean ratios (fed/fasted) and 90% CIs were 1.03 (0.97, 1.11) and 0.94 (0.86, 1.03), respectively, and were contained within the bounds of (0.80, 1.25). Additionally, the high-fat meal had no significant effect on T(max) or apparent terminal t(1/2). Thus, food does not affect the pharmacokinetics of sitagliptin and therefore can be administered without regard to food. Copyright (c) 2007 John Wiley & Sons, Ltd.     

Pharmacokinetics of rabeprazole following single intravenous and oral administration to healthy subjects

The study was designed to determine the absolute bioavailability of 20 mg rabeprazole tablets in normal, healthy subjects in comparison with intravenous administration of 20 mg rabeprazole. Twenty-eight healthy subjects were enrolled in this study. The study was a randomized, balanced, open-label, 2-period crossover study. Each subject was randomized at the beginning of the study to receive either a single 20 mg dose of rabeprazole intravenously or orally during Period 1. Following a 7-day washout period, all subjects received the alternate formulation during Period 2. Intravenous dose was given in constant infusion over five minutes. The absolute bioavailability of rabeprazole was 51.8%. The elimination half-life of rabeprazole sodium (1.47 +/- 0.82 h) after oral administration was significantly longer than the elimination half-life after intravenous administration (1.02 +/- 0.63 h), probably due to slower rate of absorption than that of elimination. The mean total body clearance was 283 +/- 98 ml/minutes following a 20 mg intravenous dose. The administration of rabeprazole sodium was safe as evidenced by the lack of serious adverse events and the rapid resolution of the mostly mild adverse events that occurred during the study. Both treatments were well-tolerated throughout the study. Rabeprazole was well-absorbed after oral administration.