Their respective severe trauma patient loads over a five-year aggregate are illustrated in the histogram in figure figure4.4. Drive-times and impedances from the BC road atlas feature class were used to analyze the number of persons residing within a one hour drive-time to either hospital. The KGH patient postal codes within
the IHA and within 2.5 kilometers of the KGH catchment were summed, with 367 of the approximately 160,660 persons residing within its catchment requiring emergency trauma care at KGH. Approximately 96,350 persons Inhibitors,research,lifescience,medical reside within one hour’s drive to RIH, of which 319 required emergency medical treatment. Conversely, 162, or 31% of patients treated at KGH who resided within the IHA catchment resided more than one hour from the facility while 190, or 37% of patients who resided within
the IHA and were treated at RIH resided more than one hour from the facility. Inhibitors,research,lifescience,medical Figure 4 Variation in critical care patient caseloads between Trauma hospitals in the Interior Health Authority. 542 of the 635 patients treated at KGH were transferred directly or indirectly (n = 186) from the scene via ground ambulance Inhibitors,research,lifescience,medical with an additional 15 patients air lifted via HEMS. Among indirect patient transfers, 47 patients arrived via fixed-wing ambulance, with 4 arriving via HEMS. Likewise, of the 732 persons treated at RIH for emergency trauma surgery, 620 patients were directly or indirectly (n = 287) admitted from the scene via ground ambulance. 22 patients were directly admitted using HEMS. An additional 82 patients were indirectly transferred to RIH via fixed-wing aircraft, with 10 patients transferred via HEMS. Our model Inhibitors,research,lifescience,medical therefore favours RIH as the site of a future HEMS
– based on denominator population, distance to services and historical usage. Discussion and conclusion In this paper, we outlined the use of GIS catchment models Inhibitors,research,lifescience,medical to derive highly precise population estimations for patients within and outside a one hour road travel catchment for two competing tertiary care centres. Though both centres would benefit from the expansion of the early activation/auto launch facility, our analysis determined that one is poised to serve more patients with the addition next of the HEMS service. This location analysis for the new HEMS was Selleckchem GS 1101 developed using the principles of evidence-based decision making. Adopting this strategy may potentially mitigate higher rates of trauma mortality in rural and remote areas. Certainly it will increase the population catchment within one hour of trauma services. Our model can also potentially set a threshold beyond which HEMS and/or early activation/auto launch would be required to provide care within a one-hour window. We caution that computer generated models cannot account for all variables in complex situations.