Melatonin pharmacokinetics following two different oral surge-sustained release doses in older adults.
Study Goal
The researchers aimed to compare the pharmacokinetic properties of low-dose (0.4mg) and high-dose (4.0mg) melatonin in a combined immediate-release/controlled-release formulation in older adults with insomnia and low endogenous melatonin levels.
Results Summary
The study found no significant differences in pharmacokinetic parameters between low- and high-dose melatonin, but both doses resulted in substantially higher melatonin levels than typical physiologic levels for the age group. High-dose melatonin maintained elevated levels for an average of 10 hours, potentially extending beyond the typical sleep period, while renal and liver function remained stable after 6 weeks of treatment.
Population
Older adults with insomnia complaints and low endogenous melatonin levels (n=27).
Effective Dosage
0.4mg (low-dose) and 4.0mg (high-dose), both as 25% immediate-release and 75% controlled-release formulations.
Duration
6 weeks
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
low-dose (0.4mg) melatonin (25% immediate release+75% controlled release) | no change | time to maximum level | 27 older adults with insomnia complaints and low endogenous melatonin levels | 1.3hrs versus 1.5hrs | did not differ significantly | #1 |
low-dose (0.4mg) melatonin (25% immediate release+75% controlled release) | no change | elimination half-life | 27 older adults with insomnia complaints and low endogenous melatonin levels | 1.8hrs versus 2.1hrs | did not differ significantly | #2 |
low-dose (0.4mg) melatonin (25% immediate release+75% controlled release) | no change | apparent total clearance | 27 older adults with insomnia complaints and low endogenous melatonin levels | 379L/hr versus 478L/hr | did not differ significantly | #3 |
low-dose (0.4mg) melatonin (25% immediate release+75% controlled release) | increase | maximum concentration | 27 older adults with insomnia complaints and low endogenous melatonin levels | 405 ±93pg/mL | was | #4 |
high-dose (4.0mg) melatonin (25% immediate release+75% controlled release) | increase | maximum concentration | 27 older adults with insomnia complaints and low endogenous melatonin levels | 3999±700pg/mL | was | #5 |
high-dose (4.0mg) melatonin (25% immediate release+75% controlled release) | increase | melatonin levels | subjects in the high-dose arm | >50pg/mL for an average of 10hrs | maintained | #6 |
melatonin | no change | renal and liver function parameters | 27 older adults with insomnia complaints and low endogenous melatonin levels | after 6wks of treatment | remained stable | #7 |
Melatonin is increasingly used for the treatment of sleep disorders. Surge-sustained formulations consisting of combined immediate release and controlled release dosing may mimic the endogenous melatonin physiologic profile. However, relatively little is known about the pharmacokinetic properties of low-dose (<0.5mg) and high-dose (>2mg) melatonin in a combined immediate release/controlled release dose, especially in older adults who may also exhibit altered melatonin disposition. To assess this, we conducted a randomized, double-blind, placebo-controlled study of low-dose (0.4mg) and high-dose (4.0mg) melatonin (25% immediate release+75% controlled release) in 27 older adults with insomnia complaints and low endogenous melatonin levels to determine whether melatonin pharmacokinetic properties differ between these two doses. The time to maximum level (1.3hrs versus 1.5hrs), elimination half-life (1.8hrs versus 2.1hrs), and apparent total clearance (379L/hr versus 478L/hr) did not differ significantly between the low- and high-dose arms, respectively. The maximum concentration was 405 ±93pg/mL for the low-dose arm and 3999±700pg/mL for the high-dose arm, both of which are substantially higher than physiologic melatonin levels for this age group. In addition, subjects in the high-dose arm maintained melatonin levels >50pg/mL for an average of 10hrs, which could result in elevated melatonin levels beyond the typical sleep period. Renal and liver function parameters remained stable after 6wks of treatment. The linear pharmacokinetic behavior of melatonin observed in the elderly can form the basis for future studies exploring a wider range of dosing scenarios to establish exposure-response relationships for melatonin-mediated sleep outcomes.