Maura Harkin1, Jamie L Miller2, Sin Yin Lim3, Stephen B Neely2, Christina K Walsh4, Peter N Johnson2. 1. Oklahoma Children's Hospital at OU Health, Oklahoma City, OK, USA. 2. University of Oklahoma College of Pharmacy, Oklahoma City, OK, USA. 3. University of Wisconsin School of Pharmacy, Madison, WI, USA. 4. University of Oklahoma College of Medicine, Oklahoma City, OK, USA.
Abstract
BACKGROUND: Opioid rotations from fentanyl to hydromorphone may reduce opioid/sedative exposure in critically ill children. OBJECTIVE: The primary objective was to determine the conversion percentage from fentanyl to hydromorphone infusions using equianalgesic conversions (0.1 mg fentanyl = 1.5 mg hydromorphone). Secondary objectives included identification of the median time and hydromorphone rate at stabilization (defined as the first 24-hour period no hydromorphone rates changed, 80% of State Behavioral Scale [SBS] scores between 0 and -1, and <3 hydromorphone boluses administered). Additional outcomes included a comparison of opioid/sedative requirements on the day of conversion versus the three 24-hour periods prior to conversion. METHODS: This retrospective study included children <18 years old converted from fentanyl to hydromorphone infusions over 6.3 years. Linear mixed models were used to determine if the mean cumulative opioid/sedative dosing differed from the day of conversion versus three 24-hour periods prior to conversion. RESULTS: A total of 36 children were converted to hydromorphone. The median conversion percentage of hydromorphone was 86% of their fentanyl dose (interquartile range [IQR] = 67-100). The median hydromorphone rate at stabilization was 0.08 mg/kg/h (IQR = 0.05-0.1). Eight (22%) were stabilized on their initial hydromorphone rate; 8 (22%) never achieved stabilization. Patients had a significant decrease in opioid dosing on the day of conversion versus the 24-hour period prior to conversion but no changes in sedative dosing following conversion. CONCLUSION AND RELEVANCE: A median 14% fentanyl dose reduction was noted when transitioning to hydromorphone. Further exploration is needed to determine if opioid rotations with hydromorphone can reduce opioid/sedative exposure.
BACKGROUND: Opioid rotations from fentanyl to hydromorphone may reduce opioid/sedative exposure in critically ill children. OBJECTIVE: The primary objective was to determine the conversion percentage from fentanyl to hydromorphone infusions using equianalgesic conversions (0.1 mg fentanyl = 1.5 mg hydromorphone). Secondary objectives included identification of the median time and hydromorphone rate at stabilization (defined as the first 24-hour period no hydromorphone rates changed, 80% of State Behavioral Scale [SBS] scores between 0 and -1, and <3 hydromorphone boluses administered). Additional outcomes included a comparison of opioid/sedative requirements on the day of conversion versus the three 24-hour periods prior to conversion. METHODS: This retrospective study included children <18 years old converted from fentanyl to hydromorphone infusions over 6.3 years. Linear mixed models were used to determine if the mean cumulative opioid/sedative dosing differed from the day of conversion versus three 24-hour periods prior to conversion. RESULTS: A total of 36 children were converted to hydromorphone. The median conversion percentage of hydromorphone was 86% of their fentanyl dose (interquartile range [IQR] = 67-100). The median hydromorphone rate at stabilization was 0.08 mg/kg/h (IQR = 0.05-0.1). Eight (22%) were stabilized on their initial hydromorphone rate; 8 (22%) never achieved stabilization. Patients had a significant decrease in opioid dosing on the day of conversion versus the 24-hour period prior to conversion but no changes in sedative dosing following conversion. CONCLUSION AND RELEVANCE: A median 14% fentanyl dose reduction was noted when transitioning to hydromorphone. Further exploration is needed to determine if opioid rotations with hydromorphone can reduce opioid/sedative exposure.