Recruitment

Recruitment Status
Completed
Estimated Enrollment
190

Summary

Conditions
  • Cardiac Arrest
  • Hypothermia
Type
Observational
Design
Observational Model: CohortTime Perspective: Prospective

Participation Requirements

Age
Younger than 18 years
Gender
Both males and females

Description

Background: Therapeutic hypothermia is used in the pediatric intensive care unit, and is being studied in the setting of pediatric cardiac arrest. Following cardiac arrest, multiple organ dysfunction syndrome, especially renal and hepatic dysfunction, is common and affects the metabolism and excreti...

Background: Therapeutic hypothermia is used in the pediatric intensive care unit, and is being studied in the setting of pediatric cardiac arrest. Following cardiac arrest, multiple organ dysfunction syndrome, especially renal and hepatic dysfunction, is common and affects the metabolism and excretion of drugs. In addition, very little is known about the impact of hypothermia on a child's ability to metabolize medications. Dose adjustments may be required in the setting of hypothermia to avoid under-dosing and over-dosing of medications. Improper dosing and drug accumulation of sedatives and opiates can worsen existing neurologic, circulatory and respiratory failure. The measurement of the actual drug and metabolite concentrations in the body (pharmacokinetics) provides information on how a child metabolizes medications. In addition, variability in these concentrations after the administration of equal doses to different children may result from genetically driven differences in drug metabolizing systems (pharmacogenetics). Finally, these genetic differences may respond differently to hypothermia. Our overarching hypothesis is that morphine and midazolam disposition will be affected by temperature management even when accounting for potentially confounding quantifiable factors of organ dysfunction and genetic differences. Objectives: The objectives of this study, Hypothermia's Impact on Pharmacology 2, are To estimate the impact of hypothermia on the variability in morphine and midazolam pharmacokinetics in children after cardiac arrest and To estimate the impact of genetic factors on the variability in morphine and midazolam pharmacokinetics, specifically in the setting of hypothermia. Sophisticated modeling and simulation techniques will be utilized to examine the highly dynamic changes in physiology associated with critical illness, drug disposition, pharmacogenetics and temperature modulation. The models created using this approach will be implemented to optimize the prospective treatment of these critically ill children. Study Design: Prospective pharmacokinetic study

Tracking Information

NCT #
NCT01560338
Collaborators
Not Provided
Investigators
Principal Investigator: Athena F Zuppa, MD MSCE Children's Hospital of Philadelphia