Paramedic and Surgeon Views on Trauma Surgical Readiness: Implications for Guideline Implementation

2018 ◽  
Vol 84 (6) ◽  
pp. 1079-1085
Author(s):  
Jerome Manson ◽  
Kristen Burke ◽  
Catherine P. Starnes ◽  
Kristin Long ◽  
Paul A. Kearney ◽  
...  
Keyword(s):  
Disease Control ◽  
Trauma Center ◽  
Guideline Implementation ◽  
Trauma System ◽  
Trauma Centers ◽  
System A ◽  
Field Triage ◽  
Cdc Guidelines ◽  
General Surgeons ◽  
Mere Presence

Centers for disease control (CDC) Guidelines for Field Triage are effective when proper implementation by EMS personnel is paired with surgeon willingness to care for trauma victims. We hypothesized that in a state with an immature trauma system, a discrepancy exists between medic and surgeon perception of surgical readiness, coinciding with inconsistent implementation of protocols. Surveys were conducted among medics and general surgeons. Destination protocols, trauma center locations, surgeon readiness, and interest in trauma were assessed. A standard clinical trauma scenario was also used. Surgeon willingness to operate is not affected by working outside of trauma centers or interest in trauma. Medics working far from trauma centers are less confident in local surgeon's willingness to operate and less likely to have destination protocols. Trauma center proximity affects medic perception of surgeon willingness to operate, but mere presence of general surgeons does not. In a trauma scenario, surgeon willingness to operate was related to medic perception but not action. In rural states, most surgeons do not work in trauma centers and most medics do not work near them. Although most responding surgeons indicate willingness to operate, medics are confident of such willingness only half the time. This disparity results in inconsistent use of the CDC guidelines. Although most medics report protocols for destination determination, nearly one-fourth of victims are taken to the geographically closest centers, sometimes with no surgeon at all. Efforts at medic training, enhancing surgeon readiness, and alignment of goals are necessary for the CDC Guidelines to be effective.

Outcome in an Urban Pediatric Trauma System with Unified Prehospital Emergency Medical Services Care

1995 ◽  
Vol 10 (1) ◽  
pp. 19-23 ◽  
Author(s):  
Michael J. VanRooyen ◽  
Edward P. Sloan ◽  
John A. Barrett ◽  
Robert F. Smith ◽  
Hernan M. Reyes
Keyword(s):  
Head Injury ◽  
Mortality Rate ◽  
Trauma Center ◽  
Pediatric Trauma ◽  
Trauma System ◽  
Age Groups ◽  
Mortality Rates ◽  
Trauma Centers ◽  
Field Triage ◽  
Pediatric Trauma Center

AbstractHypothesis:Pediatric mortality is predicted by age, presence of head trauma, head trauma with a low Glasgow Coma Scale (GCS) score, a low Pediatric Trauma Score (PTS), and transport directly to a pediatric trauma center.Population:Studied were 1,429 patients younger than 16 years old admitted to or declared dead on arrival (DOA) in a pediatric trauma center from January through October, 1988. The trauma system, which served 3-million persons, included six pediatric trauma centers.Methods:Data were obtained by a retrospective review of summary statistics provided to the Chicago Department of Health by the pediatric trauma centers.Results:Overall mortality was 4.8% (68 of 1429); 32 of the patients who died (47.1%) were DOA. The in-hospital mortality rate was 2.6%. Head injury was the principal diagnosis in 46.2% of admissions and was a factor in 72.2% of hospital deaths. The mortality rate was 20.3% in children with a GCS≤10 and 0.4% when the GCS was >10 (odds ratio [OR] = 67.0, 95% CI = 15.0–417.4). When the PTS was ≤ 5, mortality was 25.6%; with a PTS > 5, the mortality was 0.2% (OR = 420.7, 95% CI = 99.3–2,520). Although transfers to a pediatric trauma center accounted for 73.6% of admissions, direct field triage to a pediatric trauma center was associated with a 3.2 times greater mortality risk (95% CI = 1.58–6.59). Mortality rates were equal for all age groups. Pediatric trauma center volume did not influence mortality rates.Conclusions:Head injury and death occur in all age groups, suggesting the need for broad prevention strategies. Specific GCS and PTS values that predict mortality can be used in emergency medical services (EMS) triage protocols. Although the high proportion of transfers mandates systemwide transfer protocols, the lower mortality in these patients suggests appropriate EMS field triage. These factors should be considered as states develop pediatric trauma systems.

Is Outcome after Blunt Splenic Injury in Adults Better in High-Volume Trauma Centers?

2005 ◽  
Vol 71 (11) ◽  
pp. 942-949 ◽  
Author(s):  
Brian G. Harbrecht ◽  
Mazen S. Zenati ◽  
Louis H. Alarcon ◽  
Juan B. Ochoa ◽  
Juan C. Puyana ◽  
...  
Keyword(s):  
Emergency Department ◽  
Trauma Center ◽  
Injury Severity ◽  
Trauma System ◽  
High Volume ◽  
Trauma Centers ◽  
Case Volume ◽  
Center Volume ◽  
Low Volume ◽  
Outcome Differences

An association between outcome and case volume has been demonstrated for selected complex operations. The relationship between trauma center volume and patient outcome has also been examined, but no clear consensus has been established. The American College of Surgeons (ACS) has published recommendations on optimal trauma center volume for level 1 designation. We examined whether this volume criteria was associated with outcome differences for the treatment of adult blunt splenic injuries. Using a state trauma database, ACS criteria were used to stratify trauma centers into high-volume centers (>240 patients with Injury Severity Score >15 per year) or low-volume centers, and outcome was evaluated. There were 1,829 patients treated at high-volume centers and 1,040 patients treated at low-volume centers. There was no difference in age, gender, emergency department pulse, emergency department systolic blood pressure, or overall mortality between high- and low-volume centers. Patients at low-volume centers were more likely to be treated operatively, but the overall success rate of nonoperative management between high-and low-volume centers was similar. These data suggest that ACS criteria for trauma centers level designation are not associated with differences in outcome in the treatment of adult blunt splenic injuries in this regional trauma system.

Are there Field Triage Criteria that Can Predict Low-Yield Air Medical Transports?

2019 ◽  
Vol 34 (6) ◽  
pp. 596-603
Author(s):  
Hiroko Miyagi ◽  
David C. Evans ◽  
Howard A. Werman
Keyword(s):  
Trauma Center ◽  
Early Discharge ◽  
Hospital Death ◽  
Trauma Patients ◽  
Trauma Centers ◽  
Predictive Values ◽  
Field Triage ◽  
Number Of Patients ◽  
Medical Transport ◽  
The Impact

AbstractIntroduction:Air medical transport of trauma patients from the scene of injury plays a critical role in the delivery of severely injured patients to trauma centers. Over-triage of patients to trauma centers reduces the system efficiency and jeopardizes safety of air medical crews.Hypothesis:The objective of this study was to determine which triage factors utilized by Emergency Medical Services (EMS) providers are strong predictors of early discharge for trauma patients transported by helicopter to a trauma center.Methods:A retrospective chart review over a two-year period was performed for trauma patients flown from the injury site into a Level I trauma center by an air medical transport program. Demographic and clinical data were collected on each patient. Prehospital factors such as Glasgow Coma Score (GCS), Revised Trauma Score (RTS), intubation status, mechanism of injury, anatomic injuries, physiologic parameters, and any combinations of these factors were investigated to determine which triage criteria accurately predicted early discharge. Hospital factors such as Injury Severity Score (ISS), length-of-stay (LOS), survival, and emergency department disposition were also collected. Early discharge was defined as a hospital stay of less than 24 hours in a patient who survives their injuries. A more stringent definition of appropriate triage was defined as a patient with in-hospital death, an ISS >15, those taken to the operating room (OR) or intensive care unit (ICU), or those receiving blood products. Those patients who failed to meet these criteria were also used to determine over-triage rates.Results:An overall early discharge rate of 35% was found among the study population. Furthermore, when the more stringent definition was applied, over-triage rates were as high as 85%. Positive predictive values indicated that patients who met at least one anatomic and physiologic criteria were appropriately transported by helicopter as 94% of these patients had stays longer than 24 hours. No other criteria or combination of criteria had a high predictive value for early discharge.Conclusions:No individual triage criteria or combination of criteria examined demonstrated the ability to uniformly predict an early discharge. Although helicopter transport and subsequent hospital care is costly and resource consuming, it appears that a significant number of patients will be discharged within 24 hours of their transport to a trauma center. Future studies must determine the impact of eliminating “low-yield” triage criteria on under-triage of scene trauma patients.

Compliance with Centers for Disease Control and Prevention Field Triage Guidelines in an Established Trauma System

2012 ◽  
Vol 215 (1) ◽  
pp. 148-154 ◽  
Author(s):  
Alexis M. Gage ◽  
Neal Traven ◽  
Frederick P. Rivara ◽  
Gregory J. Jurkovich ◽  
Saman Arbabi
Keyword(s):  
Disease Control ◽  
Trauma System ◽  
Field Triage ◽  
Control And Prevention ◽  
Centers For Disease Control

Analysis of Hospital Ability to Provide Trauma Services: A Comparison between Teaching and Community Hospitals

1991 ◽  
Vol 6 (4) ◽  
pp. 455-458 ◽  
Author(s):  
Keith W. Neely ◽  
Robert L. Norton ◽  
Ed Bartkus ◽  
John A. Schiver
Keyword(s):  
Trauma Care ◽  
Trauma Center ◽  
Trauma System ◽  
Teaching Hospitals ◽  
Trauma Centers ◽  
Ct Scanner ◽  
Community Hospitals ◽  
Availability Analysis ◽  
Level Ii ◽  
American College Of Surgeons

AbstractHypothesis:Teaching hospitals (TH) can maintain the American College of Surgeons Committee on Trauma (ACSCOT) criteria for Level II trauma care more consistently than can community hospitals (CH).Methods:A retrospective analysis of 2,091 trauma system patients was done to determine if TH in an urban area are better able to meet the criteria for Level II trauma care than are CH. During the study period, a voluntary trauma plan existed among five hospitals; two TH and three CH. A hospital could accept patients that met trauma system entry criteria as long as, at that moment, it could provide the resources specified by ACSCOT. Hospitals were required to report their current resources accurately. A centralized communications center maintained a computerized, inter-hospital link which continuously monitored the availability of all participating hospitals. Trauma system protocols required paramedics to transport system patients to the closest available trauma hospital that had all the required resources available. Nine of the required ACSCOT Level II trauma center criteria were monitored for each institution emergency department (ED); trauma surgeon (TS); operating room (OR); angiogaphy (ANG); anesthesiologist (ANE); intensive care unit (ICU); on-call surgeon (OCS); neurosurgeon (NS); and CT scanner (CT) available at the time of each trauma system entry.Results:With the exception of OR, TH generally maintained the required staff and services more successfully than did CH. Further, less day to night variation in the available resources occurred at the TH. Specifically, ANE, ICU, TS, NS and CT were available more often both day and night, at TH than CH. However, OR was less available at TH than CH during both day and night (p<.01).Conclusions:In this community, TH provided a greater availability of trauma services than did CH. This study supports the designation of TH as trauma centers. A similar availability analysis can be performed in other communities to help guide trauma center designation.

Right Patient, Right Place, Right Time: Field Triage and Transfer to Level I Trauma Centers

2020 ◽  
Vol 86 (5) ◽  
pp. 400-406
Author(s):  
Benjamin L. Gough ◽  
Matthew D. Painter ◽  
Autumn L. Hoffman ◽  
Richard J. Caplan ◽  
Cynthia A. Peters ◽  
...  
Keyword(s):  
Propensity Score ◽  
Trauma Center ◽  
Linear Regression Analysis ◽  
Trauma System ◽  
Hospital Length Of Stay ◽  
Risk Of Mortality ◽  
Field Triage ◽  
Increased Risk ◽  
Level I ◽  
Transferred Patients

Introduction This study sought to compare the outcomes of trauma patients taken directly from the field to a level I trauma center (direct) versus patients that were first brought to a level III trauma center prior to being transferred to a level I (transfer) within our inclusive Delaware trauma system. Methods A retrospective review of the level I center’s trauma registry was performed using data from 2013 to 2017 for patients brought to a single level I trauma center from two surrounding counties. The direct cohort consisted of 362 patients, while the transfer cohort contained 204 patients. Linear regression analysis was performed to investigate hospital length of stay (LOS), while logistic regression was used for mortality, complications, and craniotomy. Covariates included age, gender, county, and injury severity score (ISS). Propensity score weighting was also performed between the direct and transfer cohorts. Results When adjusting for age, gender, ISS, and county, transferred patients demonstrated worse outcomes compared to direct patients in both the regression and propensity score analyses. Transferred patients were at increased risk of mortality (OR 2.17, CI 1.10-4.37, P = .027) and craniotomy (OR 3.92, CI 1.87-8.72, P < .001). Age was predictive of mortality ( P < .001). ISS was predictive of increased risk of mortality ( P < .001), increased LOS ( P < .001), and craniotomy ( P < .001). Older age, Sussex County, and higher ISS were predictive of patients being transferred ( P < .001). Discussion Delays in presentation to our level I trauma center resulted in worse outcomes. Patients that meet criteria should be considered for transport directly to the highest level trauma center in the system to avoid delays in care.

Pediatric Trauma System Evaluation before and after Level II Verification

2019 ◽  
Vol 85 (11) ◽  
pp. 1281-1287
Author(s):  
Michael D. Dixon ◽  
Scott Engum
Keyword(s):  
Native American ◽  
Trauma Center ◽  
Injury Severity ◽  
Life Support ◽  
Pediatric Trauma ◽  
Trauma System ◽  
Trauma Centers ◽  
Level Ii ◽  
Level I ◽  
Pediatric Trauma Center

ACS-verified trauma centers show higher survival and improved mortality rates in states with ACS-verified Level I pediatric trauma centers. However, few significant changes are appreciated in the first two years after verification. Minimal research exists examining verification of ACS Level II pediatric trauma centers. We analyzed ACS Level II pediatric trauma verification at our institution. In 2014, Sanford Medical Center Fargo became the only Level II pediatric trauma center in North Dakota, as well as the only center between Spokane and Minneapolis. A retrospective review of the institution's pre-existing trauma database one year pre- and postverification was performed. Patients aged <18 years were included in the study ( P < 0.05). Patient number increased by 23 per cent, from 167 to 205 patients. A statistically significant increase occured in the three to six year old age group ( P = 0.0002); motorized recreational vehicle ( P = 0.028), violent ( P = 0.009), and other ( P = 0.0374) mechanism of injury categories; ambulance ( P = 0.0124), fixed wing ( P = 0.0028), and personal-owned vehicle ( P = 0.0112) modes of transportation. Decreased public injuries ( P = 0.0071) and advanced life support ambulance transportation ( P = 0.0397). The study showed a nonstatistically significant increase in mean Injury Severity Score (from 6.3 to 7) and Native American trauma (from 14 to 20 per cent). Whereas prolonged ACS Level I pediatric trauma center verification was found to benefit patients, minimal data exist on ACS Level II verification. Our findings are consistent with current Level I ACS pediatric trauma center data. Future benefits will require continued analysis because our Level II pediatric trauma center continues to mature and affect our rural and large Native American community.

Successful Incorporation of Performance Based Payments for Trauma Center Readiness Costs into the Georgia Trauma System

2017 ◽  
Vol 83 (9) ◽  
pp. 966-971
Author(s):  
◽  
Dennis W. Ashley ◽  
Jeffrey M. Nicholas ◽  
Christopher J. Dente ◽  
Tracy J. Johns ◽  
...  
Keyword(s):  
Trauma Center ◽  
Performance Metrics ◽  
Response Times ◽  
Trauma System ◽  
Performance Criteria ◽  
Trauma Centers ◽  
Conference Calls ◽  
Improvement Program ◽  
Level I ◽  
The Impact

As quality and outcomes have moved to the fore front of medicine in this era of healthcare reform, a state trauma system Performance Based Payments (PBP) program has been incorporated into trauma center readiness funding. The purpose of this study was to evaluate the impact of a PBP on trauma center revenue. From 2010 to 2016, a percentage of readiness costs funding to trauma centers was placed in a PBP and withheld until the PBP criteria were completed. To introduce the concept, only three performance criteria and 10 per cent of readiness costs funding were tied to PBP in 2010. The PBP has evolved over the last several years to now include specific criteria by level of designation with an increase to 50 per cent of readiness costs funding being tied to PBP criteria. Final PBP distribution to trauma centers was based on the number of performance criteria completed. During 2016, the PBP criteria for Level I and II trauma centers included participation in official state meetings/conference calls, required attendance to American College of Surgeons state chapter meetings, Trauma Quality Improvement Program, registry reports, and surgeon participation in Peer Review Committee and trauma alert response times. Over the seven-year study period, $36,261,469 was available for readiness funds with $11,534,512 eligible for the PBP. Only $636,383 (6%) was withheld from trauma centers. A performance-based program was successfully incorporated into trauma center readiness funding, supporting state performance measures without adversely affecting the trauma center revenue. Future PBP criteria may be aligned to designation standards and clinical quality performance metrics.

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