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A Novel Arterial Line Simulation Model.

Ryan Walsh1, Chelsie Black2, Joshua Krieger3

  • 1Department of Emergency Medicine, Vanderbilt University Medical Center, 1211 Medical Center Drive, Nashville, TN.

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|March 23, 2019
PubMed
Summary
This summary is machine-generated.

Military medical teams can now train for arterial line insertion using a novel, low-cost field simulator. This training enhances readiness for mass casualty events in remote environments.

Keywords:
arterial linedamage control surgical teamdeploymentsimulation

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Area of Science:

  • Emergency Medicine
  • Surgical Training
  • Military Health Systems

Background:

  • Damage control surgery and resuscitation teams are deployed to forward areas with high risks of mass casualty events.
  • Proficiency in arterial line insertion and transducing is critical for these deployed surgical teams.
  • Existing field simulation models for arterial line procedures are lacking.

Purpose of the Study:

  • To develop and evaluate a novel, low-cost arterial line insertion and transducer simulator using readily available materials.
  • To assess the effectiveness of this simulator in training deployed medical personnel.

Main Methods:

  • A simulator was constructed using Thera-band tubing, saline, Coban, and a SAM splint.
  • Ten deployed damage control surgical team members received 30 minutes of instruction on the simulator.
  • Participants' proficiency in radial artery line insertion and transducer setup was assessed.

Main Results:

  • All participants demonstrated proficiency in arterial line insertion and transducer setup after brief training.
  • 80% of participants had no prior experience with arterial line insertion or setup.
  • The simulator was effective in rapidly training medical personnel.

Conclusions:

  • This novel field simulator, made from deployed environment materials, is the first of its kind.
  • It provides an effective and accessible method for training arterial line insertion and transducing.
  • This training tool can enhance the capabilities of medical units facing mass casualty threats.