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NCT05820217 Clinical Trial

External Validation of the Clinical Pre-hospital "Red- Flag" Alert for Activation of Intra-hospital Hemorrhage Control Response in Blunt Trauma.

Trauma Injury Clinical Trial

RED-FLAG 2

Official title:
External Validation of the Clinical Pre-hospital "Red- Flag" Alert for Activation of Intra-hospital Hemorrhage Control Response in Blunt Trauma. A Prospective Multicentric Study

Clinical Trial Details — Status: Not yet recruiting

Administrative data
NCT number NCT05820217
Other study ID # RED-FLAG 2
Secondary ID
Status Not yet recruiting
Phase
First received
Last updated
Start date May 10, 2023
Est. completion date December 31, 2024

Study information
Verified date April 2023
Source University Hospital, Angers
Contact François Morin, MD, MSc
Phone 0033241353715
Email francois.morin@chu-angers.fr
Is FDA regulated No
Health authority
Study type Observational

Clinical Trial Summary

External validation of the clinical pre-hospital "Red- Flag" alert for activation of intra-hospital hemorrhage control response in blunt trauma.

Description:

Severe trauma, with a variety of causes, is responsible for more than 9% of the world's population and is the leading cause of preventable mortality among 15-35 year olds. Massive hemorrhage remains the second leading cause of early mortality in those traumatized after head trauma, accounting for about 40% of deaths. In 71% of cases this mortality is pre-hospital without access to rapid medicalization. Intra-hospital mortality is also important. The main factors explaining this mortality in patients with severe bleeding are delays in recognition and management. The effectiveness of the "trauma systems" and the management channels for severe traumatized injuries are thus generally assessed by the intra-hospital mortality rate. Optimal and early management is therefore essential from the pre-hospital phase. The treatment of traumatic hemorrhagic shock requires means of local hemostasis, medication management and can go as far as the establishment of massive transfusion protocols (PTM). This type of PTM is activated in about 8% of cases. While it is little practiced in pre-hospital and still debated today, its early hospital establishment is essential. Rym Hamada et al. highlighted a predictive score "RED-FLAG" of severe hemorrhage in severe traumatized patients requiring the immediate implementation of rapid hemorrhage control (activation of PTM, hemostasis surgery, etc.). This score is based on 5 clinico-biological items. A score of 2 or more is predictive of an immediate intra-hospital action of hemostasis. In France, several networks are organized around centers 15 and hospitals specialized in the management of severe traumatized, from alert to definitive treatment, in accordance with the international recommendations in force. The objective of this study is to perform external and prospective validation, within a new cohort, of the "RED-FLAGS" score. For this, we are conducting a multicenter and prospective study

Recruitment information / eligibility
Status Not yet recruiting
Enrollment 630
Est. completion date December 31, 2024
Est. primary completion date May 10, 2023
Accepts healthy volunteers
Gender All
Age group 18 Years and older
Eligibility Inclusion Criteria: - Adult patients (More than 18 yo) - Regulated by the medical regulation centers (SAMU - centres 15) of the hospitals of Angers (SAMU 49), Rennes (SAMU 35), Le Mans (SAMU 72), Tours (SAMU 37), Laval (SAMU 53) and Chambéry (SAMU 73) - Patients with severe trauma classified as A or B - And benefiting respectively from hospital support in trauma centers - Not subject to limitation of active therapeutics - Member or beneficiary of a social security scheme Exclusion criteria: - Patients with Not Considered Severe Trauma (Not A, B or C) after pre-hospital medical assessment - Patient objecting to participating in research

Study Design

Related Conditions & MeSH terms

Locations
Country Name City State
n/a

Sponsors (6)
Lead Sponsor Collaborator
University Hospital, Angers Hospital, Chambery, France, Hospital, Laval, France, Hospital, Le Mans, France, Rennes University Hospital, University Hospital, Tours

References & Publications (13)

Abe T, Komori A, Shiraishi A, Sugiyama T, Iriyama H, Kainoh T, Saitoh D. Trauma complications and in-hospital mortality: failure-to-rescue. Crit Care. 2020 May 15;24(1):223. doi: 10.1186/s13054-020-02951-1. — View Citation

Ageron FX, Coats TJ, Darioli V, Roberts I. Validation of the BATT score for prehospital risk stratification of traumatic haemorrhagic death: usefulness for tranexamic acid treatment criteria. Scand J Trauma Resusc Emerg Med. 2021 Jan 6;29(1):6. doi: 10.11 — View Citation

Baker CC, Oppenheimer L, Stephens B, Lewis FR, Trunkey DD. Epidemiology of trauma deaths. Am J Surg. 1980 Jul;140(1):144-50. doi: 10.1016/0002-9610(80)90431-6. — View Citation

Beck B, Smith K, Mercier E, Gabbe B, Bassed R, Mitra B, Teague W, Siedenburg J, McLellan S, Cameron P. Differences in the epidemiology of out-of-hospital and in-hospital trauma deaths. PLoS One. 2019 Jun 4;14(6):e0217158. doi: 10.1371/journal.pone.0217158 — View Citation

Cameron PA, Gabbe BJ, Cooper DJ, Walker T, Judson R, McNeil J. A statewide system of trauma care in Victoria: effect on patient survival. Med J Aust. 2008 Nov 17;189(10):546-50. doi: 10.5694/j.1326-5377.2008.tb02176.x. — View Citation

Davis KA, Fabian TC, Cioffi WG. The Toll of Death and Disability From Traumatic Injury in the United States-The "Neglected Disease" of Modern Society, Still Neglected After 50 Years. JAMA Surg. 2017 Mar 1;152(3):221-222. doi: 10.1001/jamasurg.2016.4625. N — View Citation

Hamada SR, Rosa A, Gauss T, Desclefs JP, Raux M, Harrois A, Follin A, Cook F, Boutonnet M; Traumabase(R) Group; Attias A, Ausset S, Boutonnet M, Dhonneur G, Duranteau J, Langeron O, Paugam-Burtz C, Pirracchio R, de St Maurice G, Vigue B, Rouquette A, Dura — View Citation

Krug EG, Sharma GK, Lozano R. The global burden of injuries. Am J Public Health. 2000 Apr;90(4):523-6. doi: 10.2105/ajph.90.4.523. — View Citation

Moore L, Stelfox HT, Evans D, Hameed SM, Yanchar NL, Simons R, Kortbeek J, Bourgeois G, Clement J, Turgeon AF, Lauzier F. Trends in Injury Outcomes Across Canadian Trauma Systems. JAMA Surg. 2017 Feb 1;152(2):168-174. doi: 10.1001/jamasurg.2016.4212. — View Citation

Sauaia A, Moore FA, Moore EE, Moser KS, Brennan R, Read RA, Pons PT. Epidemiology of trauma deaths: a reassessment. J Trauma. 1995 Feb;38(2):185-93. doi: 10.1097/00005373-199502000-00006. — View Citation

Shackelford SA, Del Junco DJ, Powell-Dunford N, Mazuchowski EL, Howard JT, Kotwal RS, Gurney J, Butler FK Jr, Gross K, Stockinger ZT. Association of Prehospital Blood Product Transfusion During Medical Evacuation of Combat Casualties in Afghanistan With A — View Citation

Shackford SR, Mackersie RC, Holbrook TL, Davis JW, Hollingsworth-Fridlund P, Hoyt DB, Wolf PL. The epidemiology of traumatic death. A population-based analysis. Arch Surg. 1993 May;128(5):571-5. doi: 10.1001/archsurg.1993.01420170107016. — View Citation

Teixeira PG, Inaba K, Hadjizacharia P, Brown C, Salim A, Rhee P, Browder T, Noguchi TT, Demetriades D. Preventable or potentially preventable mortality at a mature trauma center. J Trauma. 2007 Dec;63(6):1338-46; discussion 1346-7. doi: 10.1097/TA.0b013e3 — View Citation

* Note: There are 13 references in allClick here to view all references

Outcome
Type Measure Description Time frame Safety issue
Primary Specific intra-hospital severe haemorrhage response The main evaluation criterion is defined, as in the initial study by Hamada et al., by the presence of intrahospital criteria for severe hemorrhage justifying an immediate intrahospital action of hemostasis, defined by:
Red Blood Cell Concentrate transfusion required upon arrival at trauma center
Transfusion of at least 4 CGR within the first 6 hours of hospital management
Lactacidemy 5 mmol/L at first blood collection
Need for hemostasis surgery or radiology interventional prior to completion of a pan-body CT lesion assessment
Death from hemorrhagic shock within first 24 hours admission
The ability of the RED-FLAG score to detect patients with severe hospital bleeding requiring immediate hemostasis action (as defined above) will be assessed by determining the area under the curve and its 95% CI of the ROC curve of this score.		 24 hours
Secondary Comparison of the two RED-FLAG and BATT scores We will compare the two BATT score and the RED-FLAG scores results and their possible correlation between. We will use the Pearson linear coefficient to make the comparison.
The BATT (Bleeding Audit for Trauma & Triage) score is a score with a minimum of 0 and a maximum of 27 points. Its identifies trauma patient at risk of significant haemorrhage. A score of 2 or more would be an appropriate threshold for pre-hospital tranexamic acid treatment.
The RED-FLAG score is a score with a minimum of 0 and a maximum of 5 points. A score greater than or equal to 2 points identifies severe blunt trauma patients during the pre-hospital care phase and activating a specific immediate intra-hospital haemorrhage control response prior to arrival.		 24 hours
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