Pharmacokinetic and pharmacodynamic characterization of OROS® and immediate‐release amitriptyline

Aims To characterize the pharmacokinetics of amitriptyline and its metabolite nortriptyline following OROS® and IR treatments, and to correlate them with anticholinergic side‐effects. Methods The pharmacokinetics and safety of amitriptyline following administration of an osmotic controlled release t...

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Published in	British journal of clinical pharmacology Vol. 48; no. 1; pp. 71 - 78
Main Authors	Gupta, Suneel K., Shah, Jaymin C., Hwang, Stephen S.
Format	Journal Article
Language	English
Published	Oxford, UK Blackwell Science Ltd 01.07.1999 Blackwell Science Blackwell Science Inc
Subjects	Adult amitriptyline Amitriptyline - blood Amitriptyline - pharmacokinetics anticholinergic effects Antidepressive Agents, Tricyclic - blood Antidepressive Agents, Tricyclic - pharmacokinetics Biological and medical sciences Chemistry, Pharmaceutical Cholinergic Antagonists - blood Cholinergic Antagonists - pharmacokinetics controlled‐release Cross-Over Studies Dose-Response Relationship, Drug Feasibility Studies Humans Male Medical sciences Neuropharmacology Original pharmacodynamics pharmacokinetics Pharmacology. Drug treatments Psychoanaleptics: cns stimulant, antidepressant agent, nootropic agent, mood stabilizer..., (alzheimer disease) Psychology. Psychoanalysis. Psychiatry Psychopharmacology Human Nortriptyline Amitriptyline Controlled release form Metabolite Psychotropic Toxicity Oral administration Tricyclic compound Normal Cholinergic receptor Activity concentration relation Immediate release form Dosage form Antidepressant agent Antagonist Pharmacokinetics
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ISSN	0306-5251 1365-2125
DOI	10.1046/j.1365-2125.1999.00973.x

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Abstract	Aims To characterize the pharmacokinetics of amitriptyline and its metabolite nortriptyline following OROS® and IR treatments, and to correlate them with anticholinergic side‐effects. Methods The pharmacokinetics and safety of amitriptyline following administration of an osmotic controlled release tablet (OROS® and an immediate release (IR) tablet were evaluated in 14 healthy subjects. In this randomized, open label, three‐way crossover feasibility study, the subjects received a single 75 mg OROS® tablet, three 25 mg IR tablets administered every 8 h, or 3×25 mg IR tablets administered at nighttime. In each treatment arm serial blood samples were collected for a period of 84 h after dosing. The plasma samples were analysed by gas chromatography for amitriptyline and its metabolite nortriptyline. Anticholinergic effects such as saliva output, visual acuity, and subject‐rated drowsiness and dry mouth were measured on a continuous scale during each treatment period. Results Following dosing with OROS® (amitriptyline hydrochloride), the mean maximal plasma amitriptyline concentration Cmax (15.3 ng ml−1 ) was lower and the mean tmax (25.7 h) was longer than that associated with the equivalent IR dose administered at nighttime (26.8 ng ml−1 and 6.3 h, respectively). The bioavailability of amitriptyline following OROS® dosing was 95% relative to IR every 8 h dosing, and 89% relative to IR nighttime dosing. The metabolite‐to‐drug ratios after the three treatment periods were similar, suggesting no change in metabolism between treatments. The relationships between plasma amitriptyline concentration and anticholinergic effects (e.g. reduced saliva weight, dry mouth, and drowsiness) were similar with all three treatments. Of the anticholinergic effects, only decreased saliva weight and dry mouth correlated well with plasma amitriptyline concentrations; drowsiness did not. There was no apparent correlation between anticholinergic effects and the plasma nortriptyline concentration. Conclusions The bioavailability of OROS® (amitriptyline hydrochloride) was similar to that of the IR treatments and the pharmacokinetics of amitriptyline after OROS® dosing may decrease the incidence of anticholinergic effects compared with that seen with nighttime dosing of the IR formulation. Therefore, this controlled‐release formulation of amitriptyline may be appropriate for single daily administration.
AbstractList	Aims To characterize the pharmacokinetics of amitriptyline and its metabolite nortriptyline following OROS® and IR treatments, and to correlate them with anticholinergic side‐effects. Methods The pharmacokinetics and safety of amitriptyline following administration of an osmotic controlled release tablet (OROS® and an immediate release (IR) tablet were evaluated in 14 healthy subjects. In this randomized, open label, three‐way crossover feasibility study, the subjects received a single 75 mg OROS® tablet, three 25 mg IR tablets administered every 8 h, or 3×25 mg IR tablets administered at nighttime. In each treatment arm serial blood samples were collected for a period of 84 h after dosing. The plasma samples were analysed by gas chromatography for amitriptyline and its metabolite nortriptyline. Anticholinergic effects such as saliva output, visual acuity, and subject‐rated drowsiness and dry mouth were measured on a continuous scale during each treatment period. Results Following dosing with OROS® (amitriptyline hydrochloride), the mean maximal plasma amitriptyline concentration Cmax (15.3 ng ml−1 ) was lower and the mean tmax (25.7 h) was longer than that associated with the equivalent IR dose administered at nighttime (26.8 ng ml−1 and 6.3 h, respectively). The bioavailability of amitriptyline following OROS® dosing was 95% relative to IR every 8 h dosing, and 89% relative to IR nighttime dosing. The metabolite‐to‐drug ratios after the three treatment periods were similar, suggesting no change in metabolism between treatments. The relationships between plasma amitriptyline concentration and anticholinergic effects (e.g. reduced saliva weight, dry mouth, and drowsiness) were similar with all three treatments. Of the anticholinergic effects, only decreased saliva weight and dry mouth correlated well with plasma amitriptyline concentrations; drowsiness did not. There was no apparent correlation between anticholinergic effects and the plasma nortriptyline concentration. Conclusions The bioavailability of OROS® (amitriptyline hydrochloride) was similar to that of the IR treatments and the pharmacokinetics of amitriptyline after OROS® dosing may decrease the incidence of anticholinergic effects compared with that seen with nighttime dosing of the IR formulation. Therefore, this controlled‐release formulation of amitriptyline may be appropriate for single daily administration. To characterize the pharmacokinetics of amitriptyline and its metabolite nortriptyline following OROS and IR treatments, and to correlate them with anticholinergic side-effects.AIMSTo characterize the pharmacokinetics of amitriptyline and its metabolite nortriptyline following OROS and IR treatments, and to correlate them with anticholinergic side-effects.The pharmacokinetics and safety of amitriptyline following administration of an osmotic controlled release tablet (OROS and an immediate release (IR) tablet were evaluated in 14 healthy subjects. In this randomized, open label, three-way crossover feasibility study, the subjects received a single 75 mg OROS tablet, three 25 mg IR tablets administered every 8 h, or 3x25 mg IR tablets administered at nighttime. In each treatment arm serial blood samples were collected for a period of 84 h after dosing. The plasma samples were analysed by gas chromatography for amitriptyline and its metabolite nortriptyline. Anticholinergic effects such as saliva output, visual acuity, and subject-rated drowsiness and dry mouth were measured on a continuous scale during each treatment period.METHODSThe pharmacokinetics and safety of amitriptyline following administration of an osmotic controlled release tablet (OROS and an immediate release (IR) tablet were evaluated in 14 healthy subjects. In this randomized, open label, three-way crossover feasibility study, the subjects received a single 75 mg OROS tablet, three 25 mg IR tablets administered every 8 h, or 3x25 mg IR tablets administered at nighttime. In each treatment arm serial blood samples were collected for a period of 84 h after dosing. The plasma samples were analysed by gas chromatography for amitriptyline and its metabolite nortriptyline. Anticholinergic effects such as saliva output, visual acuity, and subject-rated drowsiness and dry mouth were measured on a continuous scale during each treatment period.Following dosing with OROS (amitriptyline hydrochloride), the mean maximal plasma amitriptyline concentration Cmax (15.3 ng ml-1 ) was lower and the mean tmax (25.7 h) was longer than that associated with the equivalent IR dose administered at nighttime (26.8 ng ml-1 and 6.3 h, respectively). The bioavailability of amitriptyline following OROS dosing was 95% relative to IR every 8 h dosing, and 89% relative to IR nighttime dosing. The metabolite-to-drug ratios after the three treatment periods were similar, suggesting no change in metabolism between treatments. The relationships between plasma amitriptyline concentration and anticholinergic effects (e.g. reduced saliva weight, dry mouth, and drowsiness) were similar with all three treatments. Of the anticholinergic effects, only decreased saliva weight and dry mouth correlated well with plasma amitriptyline concentrations; drowsiness did not. There was no apparent correlation between anticholinergic effects and the plasma nortriptyline concentration.RESULTSFollowing dosing with OROS (amitriptyline hydrochloride), the mean maximal plasma amitriptyline concentration Cmax (15.3 ng ml-1 ) was lower and the mean tmax (25.7 h) was longer than that associated with the equivalent IR dose administered at nighttime (26.8 ng ml-1 and 6.3 h, respectively). The bioavailability of amitriptyline following OROS dosing was 95% relative to IR every 8 h dosing, and 89% relative to IR nighttime dosing. The metabolite-to-drug ratios after the three treatment periods were similar, suggesting no change in metabolism between treatments. The relationships between plasma amitriptyline concentration and anticholinergic effects (e.g. reduced saliva weight, dry mouth, and drowsiness) were similar with all three treatments. Of the anticholinergic effects, only decreased saliva weight and dry mouth correlated well with plasma amitriptyline concentrations; drowsiness did not. There was no apparent correlation between anticholinergic effects and the plasma nortriptyline concentration.The bioavailability of OROS (amitriptyline hydrochloride) was similar to that of the IR treatments and the pharmacokinetics of amitriptyline after OROS dosing may decrease the incidence of anticholinergic effects compared with that seen with nighttime dosing of the IR formulation. Therefore, this controlled-release formulation of amitriptyline may be appropriate for single daily administration.CONCLUSIONSThe bioavailability of OROS (amitriptyline hydrochloride) was similar to that of the IR treatments and the pharmacokinetics of amitriptyline after OROS dosing may decrease the incidence of anticholinergic effects compared with that seen with nighttime dosing of the IR formulation. Therefore, this controlled-release formulation of amitriptyline may be appropriate for single daily administration. To characterize the pharmacokinetics of amitriptyline and its metabolite nortriptyline following OROS and IR treatments, and to correlate them with anticholinergic side-effects. The pharmacokinetics and safety of amitriptyline following administration of an osmotic controlled release tablet (OROS and an immediate release (IR) tablet were evaluated in 14 healthy subjects. In this randomized, open label, three-way crossover feasibility study, the subjects received a single 75 mg OROS tablet, three 25 mg IR tablets administered every 8 h, or 3x25 mg IR tablets administered at nighttime. In each treatment arm serial blood samples were collected for a period of 84 h after dosing. The plasma samples were analysed by gas chromatography for amitriptyline and its metabolite nortriptyline. Anticholinergic effects such as saliva output, visual acuity, and subject-rated drowsiness and dry mouth were measured on a continuous scale during each treatment period. Following dosing with OROS (amitriptyline hydrochloride), the mean maximal plasma amitriptyline concentration Cmax (15.3 ng ml-1 ) was lower and the mean tmax (25.7 h) was longer than that associated with the equivalent IR dose administered at nighttime (26.8 ng ml-1 and 6.3 h, respectively). The bioavailability of amitriptyline following OROS dosing was 95% relative to IR every 8 h dosing, and 89% relative to IR nighttime dosing. The metabolite-to-drug ratios after the three treatment periods were similar, suggesting no change in metabolism between treatments. The relationships between plasma amitriptyline concentration and anticholinergic effects (e.g. reduced saliva weight, dry mouth, and drowsiness) were similar with all three treatments. Of the anticholinergic effects, only decreased saliva weight and dry mouth correlated well with plasma amitriptyline concentrations; drowsiness did not. There was no apparent correlation between anticholinergic effects and the plasma nortriptyline concentration. The bioavailability of OROS (amitriptyline hydrochloride) was similar to that of the IR treatments and the pharmacokinetics of amitriptyline after OROS dosing may decrease the incidence of anticholinergic effects compared with that seen with nighttime dosing of the IR formulation. Therefore, this controlled-release formulation of amitriptyline may be appropriate for single daily administration. Aims To characterize the pharmacokinetics of amitriptyline and its metabolite nortriptyline following OROS ® and IR treatments, and to correlate them with anticholinergic side‐effects. Methods The pharmacokinetics and safety of amitriptyline following administration of an osmotic controlled release tablet (OROS ® and an immediate release (IR) tablet were evaluated in 14 healthy subjects. In this randomized, open label, three‐way crossover feasibility study, the subjects received a single 75 mg OROS ® tablet, three 25 mg IR tablets administered every 8 h, or 3×25 mg IR tablets administered at nighttime. In each treatment arm serial blood samples were collected for a period of 84 h after dosing. The plasma samples were analysed by gas chromatography for amitriptyline and its metabolite nortriptyline. Anticholinergic effects such as saliva output, visual acuity, and subject‐rated drowsiness and dry mouth were measured on a continuous scale during each treatment period. Results Following dosing with OROS ® (amitriptyline hydrochloride), the mean maximal plasma amitriptyline concentration C max (15.3 ng ml −1 ) was lower and the mean t max (25.7 h) was longer than that associated with the equivalent IR dose administered at nighttime (26.8 ng ml −1 and 6.3 h, respectively). The bioavailability of amitriptyline following OROS ® dosing was 95% relative to IR every 8 h dosing, and 89% relative to IR nighttime dosing. The metabolite‐to‐drug ratios after the three treatment periods were similar, suggesting no change in metabolism between treatments. The relationships between plasma amitriptyline concentration and anticholinergic effects (e.g. reduced saliva weight, dry mouth, and drowsiness) were similar with all three treatments. Of the anticholinergic effects, only decreased saliva weight and dry mouth correlated well with plasma amitriptyline concentrations; drowsiness did not. There was no apparent correlation between anticholinergic effects and the plasma nortriptyline concentration. Conclusions The bioavailability of OROS ® (amitriptyline hydrochloride) was similar to that of the IR treatments and the pharmacokinetics of amitriptyline after OROS ® dosing may decrease the incidence of anticholinergic effects compared with that seen with nighttime dosing of the IR formulation. Therefore, this controlled‐release formulation of amitriptyline may be appropriate for single daily administration.
Author	Gupta, Suneel K. Hwang, Stephen S. Shah, Jaymin C.
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Keywords	Human Nortriptyline Amitriptyline Controlled release form Metabolite Psychotropic Toxicity Oral administration Tricyclic compound Normal Cholinergic receptor Activity concentration relation Immediate release form Dosage form Antidepressant agent Antagonist Pharmacokinetics
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Snippet	Aims To characterize the pharmacokinetics of amitriptyline and its metabolite nortriptyline following OROS® and IR treatments, and to correlate them with... Aims To characterize the pharmacokinetics of amitriptyline and its metabolite nortriptyline following OROS ® and IR treatments, and to correlate them with... To characterize the pharmacokinetics of amitriptyline and its metabolite nortriptyline following OROS and IR treatments, and to correlate them with...
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SubjectTerms	Adult amitriptyline Amitriptyline - blood Amitriptyline - pharmacokinetics anticholinergic effects Antidepressive Agents, Tricyclic - blood Antidepressive Agents, Tricyclic - pharmacokinetics Biological and medical sciences Chemistry, Pharmaceutical Cholinergic Antagonists - blood Cholinergic Antagonists - pharmacokinetics controlled‐release Cross-Over Studies Dose-Response Relationship, Drug Feasibility Studies Humans Male Medical sciences Neuropharmacology Original pharmacodynamics pharmacokinetics Pharmacology. Drug treatments Psychoanaleptics: cns stimulant, antidepressant agent, nootropic agent, mood stabilizer..., (alzheimer disease) Psychology. Psychoanalysis. Psychiatry Psychopharmacology
Title	Pharmacokinetic and pharmacodynamic characterization of OROS® and immediate‐release amitriptyline
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