TY - JOUR
T1 - Degradation of benzodiazepines after 120 days of EMS deployment
AU - Neurological Emergencies Treatment Trials investigators
AU - McMullan, Jason T.
AU - Jones, Elizabeth
AU - Barnhart, Bruce
AU - Denninghoff, Kurt
AU - Spaite, Daniel
AU - Zaleski, Erin
AU - Silbergleit, Robert
AU - Lowenstein, Daniel
AU - Barsan, William
AU - Pancioli, Arthur
AU - Stevenson, Valerie
AU - Harney, Deneil
AU - Harsh, Donna
AU - Pinkerton, Joy
AU - Kade, Allison
AU - Siewert, Nicholas
AU - Pinawin, Ashley
AU - Ring, Catherin
AU - Brenne, Phebe
AU - Vonderschmidt, Kay
AU - Durkalski, Valerie
AU - Palesch, Yuko
AU - Dillon, Catherine
AU - Pauls, Keith
AU - Wu, Qi
AU - Zhao, Wenle
AU - Conwit, Robin
AU - Janis, Scott
AU - Jett, David
AU - Fureman, Brandy
AU - Welch, Robert D.
AU - Mango, Lynnmarie
AU - Mika, Valerie H.
AU - Atas, Jenny
AU - Dunne, Robert
AU - Wheaton, Douglas
AU - Levy, Phillip
AU - Velilla, Marc Anthony
AU - Sherwin, Robert
AU - O'Neil, Brian
AU - Groves, Angela
AU - Rosenthal, Marc
AU - Ewing, Irene
AU - Waymeyer, Peggy
AU - Kay Vonderschmidt, M.
AU - Schwartz, Hamilton
AU - Stettler, Brian
AU - Knight, William
AU - Adeoye, Opeolu
AU - Bobrow, Bentley J.
N1 - Funding Information:
This work was conducted as part of the RAMPART trial, which was supported by awards from the National Institute of Neurological Disorders and Stroke (NINDS) (U01NS056975 and U01NS059041); the National Institutes of Health Office of the Director CounterACT Program; and the Biomedical Advanced Research and Development Authority of the Assistant Secretary for Preparedness and Response.
PY - 2014/7/1
Y1 - 2014/7/1
N2 - Introduction. EMS treatment of status epilepticus improves outcomes, but the benzodiazepine best suited for EMS use is unclear, given potential high environmental temperature exposures. Objective. To describe the degradation of diazepam, lorazepam, and midazolam as a function of temperature exposure and time over 120 days of storage on active EMS units. Methods. Study boxes containing vials of diazepam, lorazepam, and midazolam were distributed to 4 active EMS units in each of 2 EMS systems in the southwestern United States during May-August 2011. The boxes logged temperature every minute and were stored in EMS units per local agency policy. Two vials of each drug were removed from each box at 30-day intervals and underwent high-performance liquid chromatography to determine drug concentration. Concentration was analyzed as mean (and 95%CI) percent of initial labeled concentration as a function of time and mean kinetic temperature (MKT). Results. 192 samples were collected (2 samples of each drug from each of 4 units per city at 4 time-points). After 120 days, the mean relative concentration (95%CI) of diazepam was 97.0% (95.7-98.2%) and of midazolam was 99.0% (97.7-100.2%). Lorazepam experienced modest degradation by 60 days (95.6% [91.6-99.5%]) and substantial degradation at 90 days (90.3% [85.2-95.4%]) and 120 days (86.5% [80.7-92.3%]). Mean MKT was 31.6°C (95%CI 27.1-36.1). Increasing MKT was associated with greater degradation of lorazepam, but not midazolam or diazepam. Conclusions. Midazolam and diazepam experienced minimal degradation throughout 120 days of EMS deployment in high-heat environments. Lorazepam experienced significant degradation over 120 days and appeared especially sensitive to higher MKT exposure.
AB - Introduction. EMS treatment of status epilepticus improves outcomes, but the benzodiazepine best suited for EMS use is unclear, given potential high environmental temperature exposures. Objective. To describe the degradation of diazepam, lorazepam, and midazolam as a function of temperature exposure and time over 120 days of storage on active EMS units. Methods. Study boxes containing vials of diazepam, lorazepam, and midazolam were distributed to 4 active EMS units in each of 2 EMS systems in the southwestern United States during May-August 2011. The boxes logged temperature every minute and were stored in EMS units per local agency policy. Two vials of each drug were removed from each box at 30-day intervals and underwent high-performance liquid chromatography to determine drug concentration. Concentration was analyzed as mean (and 95%CI) percent of initial labeled concentration as a function of time and mean kinetic temperature (MKT). Results. 192 samples were collected (2 samples of each drug from each of 4 units per city at 4 time-points). After 120 days, the mean relative concentration (95%CI) of diazepam was 97.0% (95.7-98.2%) and of midazolam was 99.0% (97.7-100.2%). Lorazepam experienced modest degradation by 60 days (95.6% [91.6-99.5%]) and substantial degradation at 90 days (90.3% [85.2-95.4%]) and 120 days (86.5% [80.7-92.3%]). Mean MKT was 31.6°C (95%CI 27.1-36.1). Increasing MKT was associated with greater degradation of lorazepam, but not midazolam or diazepam. Conclusions. Midazolam and diazepam experienced minimal degradation throughout 120 days of EMS deployment in high-heat environments. Lorazepam experienced significant degradation over 120 days and appeared especially sensitive to higher MKT exposure.
KW - Benzodiazepines
KW - Emergency medical services
KW - Temperature
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U2 - 10.3109/10903127.2013.869642
DO - 10.3109/10903127.2013.869642
M3 - Article
C2 - 24548058
AN - SCOPUS:84902972449
SN - 1090-3127
VL - 18
SP - 368
EP - 374
JO - Prehospital Emergency Care
JF - Prehospital Emergency Care
IS - 3
ER -