On-scene Times for Inter-facility Transport of Patients with Hypoxemic Respiratory Failure

Abstract Introduction Inter-facility transport of critically ill patients is associated with a high risk of adverse events, and critical care transport (CCT) teams may spend considerable time at sending institutions preparing patients for transport. The effect of mode of transport and distance to be traveled on on-scene times (OSTs) has not been well-described. Problem Quantification of the time required to package patients and complete CCTs based on mode of transport and distance between facilities is important for hospitals and CCT teams to allocate resources effectively. Methods This is a retrospective review of OSTs and transport times for patients with hypoxemic respiratory failure transported from October 2009 through December 2012 from sending hospitals to three tertiary care hospitals. Differences among the OSTs and transport times based on the mode of transport (ground, rotor wing, or fixed wing), distance traveled, and intra-hospital pick-up location (emergency department [ED] vs intensive care unit [ICU]) were assessed. Correlations between OSTs and transport times were performed based on mode of transport and distance traveled. Results Two hundred thirty-nine charts were identified for review. Mean OST was 42.2 (SD=18.8) minutes, and mean transport time was 35.7 (SD=19.5) minutes. On-scene time was greater than en route time for 147 patients and greater than total trip time for 91. Mean transport distance was 42.2 (SD=35.1) miles. There were no differences in the OST based on mode of transport; however, total transport time was significantly shorter for rotor versus ground, (39.9 [SD=19.9] minutes vs 54.2 [SD=24.7] minutes; P <.001) and for rotor versus fixed wing (84.3 [SD=34.2] minutes; P=0.02). On-scene time in the ED was significantly shorter than the ICU (33.5 [SD=15.7] minutes vs 45.2 [SD=18.8] minutes; P <.001). For all patients, regardless of mode of transportation, there was no correlation between OST and total miles travelled; although, there was a significant correlation between the time en route and distance, as well as total trip time and distance. Conclusions In this cohort of critically ill patients with hypoxemic respiratory failure, OST was over 40 minutes and was often longer than the total trip time. On-scene time did not correlate with mode of transport or distance traveled. These data can assist in planning inter-facility transports for both the sending and receiving hospitals, as well as CCT services. WilcoxSR, SaiaMS, WadenH, McGahnSJ, FrakesM, WedelSK, RichardsJB. On-scene times for inter-facility transport of patients with hypoxemic respiratory failure. Prehosp Disaster Med. 2016;31(3):267–271.

[1]  Susan R. Wilcox,et al.  Improved Oxygenation After Transport in Patients With Hypoxemic Respiratory Failure. , 2015, Air medical journal.

[2]  R. MacDonald,et al.  Critical events during land-based interfacility transport. , 2014, Annals of emergency medicine.

[3]  R. Favory,et al.  Adverse events during intrahospital transport of critically ill patients: incidence and risk factors , 2013, Annals of Intensive Care.

[4]  A. Nakstad,et al.  Landing sites and intubation may influence helicopter emergency medical services on-scene time. , 2011, The Journal of emergency medicine.

[5]  S Whiteley,et al.  Guidelines for the transport of the critically ill adult (3rd Edition 2011) , 2011 .

[6]  A. Corfield,et al.  On-scene times and critical care interventions for an aeromedical retrieval service , 2010, Emergency Medicine Journal.

[7]  E. Swanson,et al.  Air Ambulance Transport Times and Advanced Cardiac Life Support Interventions during the Interfacility Transfer of Patients with Acute ST-segment Elevation Myocardial Infarction , 2010, Prehospital emergency care : official journal of the National Association of EMS Physicians and the National Association of State EMS Directors.

[8]  M. Schull,et al.  Incidence and predictors of critical events during urgent air–medical transport , 2009, Canadian Medical Association Journal.

[9]  C. Seymour,et al.  Adverse events during rotary-wing transport of mechanically ventilated patients: a retrospective cohort study , 2008, Critical care.

[10]  D. V. van Hoving,et al.  Comparison of mean on-scene times: road versus air transportation of critically ill patients in the Western Cape of South Africa , 2008, Emergency Medicine Journal.

[11]  E. Steyerberg,et al.  Helicopter emergency medical services (HEMS): impact on on-scene times. , 2007, The Journal of trauma.

[12]  R. Malthaner,et al.  The fastest route between two points is not always a straight line: An analysis of air and land transfer of nonpenetrating trauma patients. , 2006, The Journal of trauma.

[13]  J. Svenson,et al.  Is air transport faster? A comparison of air versus ground transport times for interfacility transfers in a regional referral system. , 2006, Air medical journal.

[14]  W. Runciman,et al.  Incidents during Out-of-Hospital Patient Transportation , 2006, Anaesthesia and intensive care.

[15]  C. Waydhas,et al.  Deterioration of respiratory function after intra-hospital transport of critically ill surgical patients , 1995, Intensive Care Medicine.

[16]  Albert W. Wu,et al.  Incidents relating to the intra-hospital transfer of critically ill patients , 2004, Intensive Care Medicine.

[17]  H. Hecker,et al.  Predictors of respiratory function deterioration after transfer of critically ill patients , 1998, Intensive Care Medicine.

[18]  R. Kanter,et al.  Adverse events during interhospital transport: physiologic deterioration associated with pretransport severity of illness. , 1989, Pediatrics.