Evaluation of Contingency Telemedical Support to Improve Casualty Care at a Simulated Military Intermediate Resuscitation Facility: The EM-ANGEL Study

Robert Gerhardt; Jonathon Berry; Robert L. Mabry; Lawrence Flournoy; Robert G. Arnold; Christopher Hults; John B. Robinson; Robert A. Thaxton; Ramon Cestero; Jason D. Heiner; Alexandra R. Koller; Kevin M. Cox; Jay N. Patterson; Warren R. Dalton; Anne L. McKeague; Gary Gilbert; Carl Manemeit; Bruce D Adams

Evaluation of Contingency Telemedical Support to Improve Casualty Care at a Simulated Military Intermediate Resuscitation Facility: The EM-ANGEL Study

Robert Gerhardt, Jonathon Berry, Robert L. Mabry, Lawrence Flournoy, Robert G. Arnold, Christopher Hults, John B. Robinson, Robert A. Thaxton, Ramon Cestero, Jason D. Heiner, Alexandra R. Koller, Kevin M. Cox, Jay N. Patterson, Warren R. Dalton, Anne L. McKeague, Gary Gilbert, Carl Manemeit, Bruce D Adams

Department of Emergency Medicine

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

OBJECTIVE: We sought to determine whether Contingency Telemedical Support (CTS) improves the success rate and efficiency of primary care providers performing critical actions during simulated combat trauma resuscitation. Critical actions included advanced airway, chest decompression, extremity hemorrhage control, hypothermia prevention, antibiotics and analgesics, and hypotensive resuscitation, among others.

BACKGROUND: Recent studies report improved survival associated with skilled triage and treatment in the out-of-hospital/preoperative phase of combat casualty care. Historically, ground combat units are assigned primary care physicians and physician assistants as medical staff, due to resource limitations. Although they are recognized as optimal resuscitators, demand for military trauma surgeons and emergency physicians exceeds supply and is unlikely to improve in the near term.

METHODS: A prospective trial of telemedical mentoring during a casualty resuscitation encounter was studied using a high-fidelity patient simulator (HFPS). Subjects were randomized and formed into experimental (CTS) or control teams. CTS team leaders were equipped with a headset/microphone interface and telementored by a combat-experienced emergency physician or trauma surgeon. A standardized, scripted clinical scenario and HFPS were used with 14 critical actions. At completion, subjects were surveyed. Statistical approach included contingency table analysis, two-tailed t-test, and correlation coefficient. This study was reviewed and approved by our institutional review board (IRB).

RESULTS: Eighteen CTS teams and 16 control teams were studied. By intention-to-treat ITT analysis, 89% of CTS teams versus 56% of controls completed all life-threatening inventions (LSIs) (p<.01); 78% versus 19% completed all critical actions (p<.01); and 89% versus 56% established advanced airways within 8 minutes (p<.06). Average time to completion in minutes (95% confidence interval [CI] 95) was 12 minutes (10?14) for CTS versus 18 (16?20) for controls, with 75% of control teams not completing all critical actions.

CONCLUSION: In this model, real-time telementoring of simulated trauma resuscitation was feasible and improved accuracy and efficiency of non?emergency-trained resuscitators. Clinical validation and replicated study of these findings for guiding remote damage control resuscitation are warranted.

Original language	English (US)
Pages (from-to)	50-57
Number of pages	8
Journal	Journal of special operations medicine : a peer reviewed journal for SOF medical professionals
Volume	14
Issue number	1
State	Published - Mar 1 2014

ASJC Scopus subject areas

General Medicine

Cite this

Gerhardt, R., Berry, J., Mabry, R. L., Flournoy, L., Arnold, R. G., Hults, C., Robinson, J. B., Thaxton, R. A., Cestero, R., Heiner, J. D., Koller, A. R., Cox, K. M., Patterson, J. N., Dalton, W. R., McKeague, A. L., Gilbert, G., Manemeit, C., & Adams, B. D. (2014). Evaluation of Contingency Telemedical Support to Improve Casualty Care at a Simulated Military Intermediate Resuscitation Facility: The EM-ANGEL Study. Journal of special operations medicine : a peer reviewed journal for SOF medical professionals, 14(1), 50-57.

Evaluation of Contingency Telemedical Support to Improve Casualty Care at a Simulated Military Intermediate Resuscitation Facility: The EM-ANGEL Study. / Gerhardt, Robert; Berry, Jonathon; Mabry, Robert L. et al.
In: Journal of special operations medicine : a peer reviewed journal for SOF medical professionals, Vol. 14, No. 1, 01.03.2014, p. 50-57.

Research output: Contribution to journal › Article › peer-review

Gerhardt, R, Berry, J, Mabry, RL, Flournoy, L, Arnold, RG, Hults, C, Robinson, JB, Thaxton, RA, Cestero, R, Heiner, JD, Koller, AR, Cox, KM, Patterson, JN, Dalton, WR, McKeague, AL, Gilbert, G, Manemeit, C & Adams, BD 2014, 'Evaluation of Contingency Telemedical Support to Improve Casualty Care at a Simulated Military Intermediate Resuscitation Facility: The EM-ANGEL Study', Journal of special operations medicine : a peer reviewed journal for SOF medical professionals, vol. 14, no. 1, pp. 50-57.

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abstract = "OBJECTIVE: We sought to determine whether Contingency Telemedical Support (CTS) improves the success rate and efficiency of primary care providers performing critical actions during simulated combat trauma resuscitation. Critical actions included advanced airway, chest decompression, extremity hemorrhage control, hypothermia prevention, antibiotics and analgesics, and hypotensive resuscitation, among others.BACKGROUND: Recent studies report improved survival associated with skilled triage and treatment in the out-of-hospital/preoperative phase of combat casualty care. Historically, ground combat units are assigned primary care physicians and physician assistants as medical staff, due to resource limitations. Although they are recognized as optimal resuscitators, demand for military trauma surgeons and emergency physicians exceeds supply and is unlikely to improve in the near term.METHODS: A prospective trial of telemedical mentoring during a casualty resuscitation encounter was studied using a high-fidelity patient simulator (HFPS). Subjects were randomized and formed into experimental (CTS) or control teams. CTS team leaders were equipped with a headset/microphone interface and telementored by a combat-experienced emergency physician or trauma surgeon. A standardized, scripted clinical scenario and HFPS were used with 14 critical actions. At completion, subjects were surveyed. Statistical approach included contingency table analysis, two-tailed t-test, and correlation coefficient. This study was reviewed and approved by our institutional review board (IRB).RESULTS: Eighteen CTS teams and 16 control teams were studied. By intention-to-treat ITT analysis, 89% of CTS teams versus 56% of controls completed all life-threatening inventions (LSIs) (p<.01); 78% versus 19% completed all critical actions (p<.01); and 89% versus 56% established advanced airways within 8 minutes (p<.06). Average time to completion in minutes (95% confidence interval [CI] 95) was 12 minutes (10?14) for CTS versus 18 (16?20) for controls, with 75% of control teams not completing all critical actions.CONCLUSION: In this model, real-time telementoring of simulated trauma resuscitation was feasible and improved accuracy and efficiency of non?emergency-trained resuscitators. Clinical validation and replicated study of these findings for guiding remote damage control resuscitation are warranted.",

author = "Robert Gerhardt and Jonathon Berry and Mabry, {Robert L.} and Lawrence Flournoy and Arnold, {Robert G.} and Christopher Hults and Robinson, {John B.} and Thaxton, {Robert A.} and Ramon Cestero and Heiner, {Jason D.} and Koller, {Alexandra R.} and Cox, {Kevin M.} and Patterson, {Jay N.} and Dalton, {Warren R.} and McKeague, {Anne L.} and Gary Gilbert and Carl Manemeit and Adams, {Bruce D}",

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AU - Flournoy, Lawrence

AU - Arnold, Robert G.

AU - Hults, Christopher

AU - Robinson, John B.

AU - Thaxton, Robert A.

AU - Cestero, Ramon

AU - Heiner, Jason D.

AU - Koller, Alexandra R.

AU - Cox, Kevin M.

AU - Patterson, Jay N.

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N2 - OBJECTIVE: We sought to determine whether Contingency Telemedical Support (CTS) improves the success rate and efficiency of primary care providers performing critical actions during simulated combat trauma resuscitation. Critical actions included advanced airway, chest decompression, extremity hemorrhage control, hypothermia prevention, antibiotics and analgesics, and hypotensive resuscitation, among others.BACKGROUND: Recent studies report improved survival associated with skilled triage and treatment in the out-of-hospital/preoperative phase of combat casualty care. Historically, ground combat units are assigned primary care physicians and physician assistants as medical staff, due to resource limitations. Although they are recognized as optimal resuscitators, demand for military trauma surgeons and emergency physicians exceeds supply and is unlikely to improve in the near term.METHODS: A prospective trial of telemedical mentoring during a casualty resuscitation encounter was studied using a high-fidelity patient simulator (HFPS). Subjects were randomized and formed into experimental (CTS) or control teams. CTS team leaders were equipped with a headset/microphone interface and telementored by a combat-experienced emergency physician or trauma surgeon. A standardized, scripted clinical scenario and HFPS were used with 14 critical actions. At completion, subjects were surveyed. Statistical approach included contingency table analysis, two-tailed t-test, and correlation coefficient. This study was reviewed and approved by our institutional review board (IRB).RESULTS: Eighteen CTS teams and 16 control teams were studied. By intention-to-treat ITT analysis, 89% of CTS teams versus 56% of controls completed all life-threatening inventions (LSIs) (p<.01); 78% versus 19% completed all critical actions (p<.01); and 89% versus 56% established advanced airways within 8 minutes (p<.06). Average time to completion in minutes (95% confidence interval [CI] 95) was 12 minutes (10?14) for CTS versus 18 (16?20) for controls, with 75% of control teams not completing all critical actions.CONCLUSION: In this model, real-time telementoring of simulated trauma resuscitation was feasible and improved accuracy and efficiency of non?emergency-trained resuscitators. Clinical validation and replicated study of these findings for guiding remote damage control resuscitation are warranted.

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Evaluation of Contingency Telemedical Support to Improve Casualty Care at a Simulated Military Intermediate Resuscitation Facility: The EM-ANGEL Study

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