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Different routes and formulations of melatonin in critically ill patients. A pharmacokinetic randomized study.

Clinical endocrinology
July 1, 2019
Giovanni Mistraletti et al. (13 authors)
Journal ArticleRandomized Controlled TrialResearch Support, Non-U.S. Gov'tHuman StudyClinical
Study Details

Study Goal

The researchers aimed to evaluate the feasibility of different melatonin administration routes (oral and transdermal) and formulations (standard tablet, solid lipid nanoparticles, and microemulsion) in critically ill patients, focusing on absorption efficiency and achieving physiological nocturnal blood peaks.

Results Summary

SLN-OS (solid lipid nanoparticle oral suspension) showed higher bioavailability than standard tablets, while μE-TD (transdermal microemulsion) had delayed absorption but achieved pharmacological blood levels resembling the physiological melatonin pattern.

Population

High-risk critically ill patients

Effective Dosage

3 mg melatonin

Duration

24 hours post-administration

Interactions

None mentioned

Extracted Claims (10)
InterventionDirectionEndpointPopulationDosageImpactClaim #
melatonin administered per os as a standard tablet (ST-OS)
no change
time-to-peak blood concentration
high-risk critically ill patients
0.5 hours
median time-to-peak blood concentration was
#1
melatonin administered per os as a suspension in solid lipid nanoparticles (SLN-OS)
no change
time-to-peak blood concentration
high-risk critically ill patients
0.5 hours
median time-to-peak blood concentration was
#2
melatonin administered per os as a suspension in solid lipid nanoparticles (SLN-OS)
increase
area under the curve (AUC)
high-risk critically ill patients
157386 [65732-193653] vs 44441 [22319-90705] pg/mL*hours
area under the curve (AUC) was significantly higher than after ST-OS
#3
transdermal melatonin via jellified microemulsion (μE-TD)
increase
time-to-peak blood concentration
high-risk critically ill patients
4 hours
presented a delayed time-to-peak blood concentration
#4
transdermal melatonin via jellified microemulsion (μE-TD)
decrease
bioavailability (AUC)
high-risk critically ill patients
3142 [1344-14573] pg/mL*hours
presented a lower bioavailability
#5
transdermal melatonin via jellified microemulsion (μE-TD)
increase
pharmacological peak concentration
high-risk critically ill patients
388 [132-1583] pg/mL
reached pharmacological peak concentration
#6
SLN-melatonin enterally administered
increase
pharmacokinetics
critically ill patients
-
offers favourable pharmacokinetics
#7
SLN-melatonin enterally administered
increase
bioavailability
critically ill patients
-
higher bioavailability with respect to the standard formulation
#8
μE-TD
increase
pharmacological blood levels
-
-
provided effective pharmacological blood levels
#9
μE-TD
no change
time-concentration profile
-
-
time-concentration profile more similar to the physiological melatonin pattern
#10
Abstract

BACKGROUND AND OBJECTIVES: Critically ill patients present reduced endogenous melatonin blood levels, and they might benefit from its exogenous supplementation. The aim of this research was to evaluate the feasibility of different routes of administration and drug formulations of melatonin. The efficiency of absorption was assessed as well as the adequacy in achieving and maintaining the physiological nocturnal blood peak. METHODS: Twenty-one high-risk critically ill patients were randomly assigned to receive melatonin either: (a) per os, as a standard tablet (ST-OS), (b) per os, as a suspension in solid lipid nanoparticles (SLN-OS) or c) transdermal (TD), by applying a jellified melatonin microemulsion (μE) on the skin (μE-TD). SLN-OS and μE-TD were lipid-based colloidal systems. The endogenous melatonin blood values were observed for 24 hours; subsequently, melatonin 3 mg was administered and pharmacokinetics was studied for 24 hours further. RESULTS: In both groups that received ST-OS and SLN-OS, the median time-to-peak blood concentration was 0.5 hours; however, the area under the curve (AUC) after administration of SLN-OS was significantly higher than after ST-OS (157386 [65732-193653] vs 44441 [22319-90705] pg/mL*hours, P = 0.048). μE-TD presented a delayed time-to-peak blood concentration (4 hours), a lower bioavailability (AUC: 3142 [1344-14573] pg/mL*hours) and reached pharmacological peak concentration (388 [132-1583] pg/mL). CONCLUSIONS: SLN-melatonin enterally administered offers favourable pharmacokinetics in critically ill patients, with higher bioavailability with respect to the standard formulation; μE-TD provided effective pharmacological blood levels, with a time-concentration profile more similar to the physiological melatonin pattern.

Medical Subject Headings (MeSH)
AgedAged, 80 and overColloidsCritical IllnessFemaleHumansIntensive Care UnitsMaleMelatoninMiddle Aged
Study Links
Quality Scores
SafetyNot Assessed
Efficacy85/10
Quality80/10
Citation Metrics
Total Citations10
Citations/Year1.7
Relative Citation Ratio0.75
NIH Percentile39.8%
Research Impact Scores
APT Score0.25
Weight Score2.16
Normalized Score0.70
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