Simulation-based education: How could simulation be used for technical skills development in the future

Simulation-based education: How
couldsimulationbeusedfortechnicalskills
developmentinthefuture
MersinŰniversitesi,FacultyofMedicine
MESEKOK
October27,2015
Deborah Rooney PhD
MEDICAL SCHOOL
UNIVERSITY
OF
MICHIGAN

Copyright 2015. All Rights Reserved.

Disclosures and conflicts of interest
•  None

My Background
•  Medical education since 1991
•  Nine years in surgical education
•  PhD in Educational Psychology
•  Director of Education and Research, Clinical
Simulation Center, University of Michigan (UMCSC)

UM Clinical Simulation Center (UMCSC)

Today’s talk: Simulation-based
education
•  Brief history of developments that impacted
simulation
•  Current applications of simulation-based training for
technical skills
•  Projected trends in simulation-based training

Simulation-based education is not
new

n = 3
n = 963
History of Simulation-based
Education

Dr. Gordon introduces “Harvey”
Education

1973 “Harvey”
1970s Standardized Pts
Education

1980-90s MIS training
1973 “Harvey”
1970s Std Pts
Education

1980-90s Computers
1973 “Harvey”
1970s Std Pts
1980-90s MIS
Education

1998 Standards
1973 “Harvey”
1970s Std Pts
1980-90s MIS
Computers
Education

2000 Error
1973 “Harvey”
1970s Std Pts
1980-90s MIS
Computers
1998 Standards
Education

Development & refinement of best practices
•  Invention and proof of concept of specific
simulators, skills curricula
•  Development of practical tools to support
learning and assessment in complex settings
•  Application of educational theories
History of SBE* for technical skills:
2000 to present
*SBE= Simulation-based Education

Educational Theory and Technical Skills:
Bloom
Bloom, based on Dave, R. (1967). Psychomotor domain. Berlin: International Conference of Educational Testing.
Higher order psychomotor skills
Lower order psychomotor skills
Watch instructor and repeat
(copy)
Complete task with verbal
instruction
Combine learned skills to
meet novel requirements
Apply automatic strategies
Perform with expertise
without assistance
Naturalization
Articulation
Precision
Manipulation
Imitation
GOAL

Frequency
Urgency (cost)
urgency
frequency
urgency
frequency
(CVC, code)( PE, IV)
Current Trends: technical skills
training

Address
Gap
Impact
Pt Care
Value
?
Current Trends: technical skills
training

Benefits of SBE for technical skills
training
Addresses the gap (improving KSA*)
•  Lumbar puncture (LP) skills in the Neonatal Intensive Care Unit
(Shafer et al, 2013)
Improves patient outcomes
•  Central venous catheter placement skills in the Medical Intensive
Care Unit
(Barsuk et al, 2009)
Decreases hospital costs
•  Central line placement skills in the Medical Intensive Care Unit
(Cohen et al, 2010)
*KSA= knowledge, skills, attitude

Learning Goals:
•  Improve documentation (knowledge)
•  Decrease traumatic tap rate (skills)
•  Improve confidence amongst residents
(attitude/affect)
Shafer S, Rooney D, Schumacher R, Chapman R, House J. Neonatal Lumbar Punctures: Bridging the Clinical
Gap. MedEdPORTAL; 2013. Available from: www.mededportal.org/publication/9597
Addressing gaps: lumbar puncture in
NICU**Neonatal Intensive Care Unit

Intervention
•  Pre-assessment
•  Simulation-based Curriculum (blocked, deliberate practice)
•  Post-assessment
Program Evaluation
•  Compare pre- post measures (KSAs)
•  knowledge (written test)
•  performance assessment
(sim and clinical)
Shafer S, Rooney D, Schumacher R, Chapman R, House J. Neonatal Lumbar Punctures: Bridging the Clinical
Gap. MedEdPORTAL; 2013. Available from: www.mededportal.org/publication/9597
NICU

0
0.5
1
1.5
2
2.5
3
Pre
Post
NICU*

What about impact
to patient care?

Improves patient outcomes: Central
Venous Catheter (CVC) placement in MICU
Sim-based, mastery training central line placement skills
in Medical ICU (MICU);
•  Presentation with contra/indications for CVC
•  Video demonstration of CVC IJ placement
•  One-on-one instructor & trainee practice with
feedback
•  Pre-post training assessment
Barsuk JH, McGaghie WC, Cohen ER, O'Leary KJ, Wayne DB. Simulation based mastery learning reduces complications
during central venous catheter insertion in a medical intensive care unit. Crit Care Med. 2009 Oct;37(10):2697-701.

CVC placement in Medical
Intensive Care Unit (MICU)
Sim-based, mastery training improved
clinical measures;
•  Fewer needle passes
•  Fewer arterial punctures
•  Fewer catheter adjustments
Barsuk JH, McGaghie WC, Cohen ER, O'Leary KJ, Wayne DB. Simulation based mastery learning reduces complications
during central venous catheter insertion in a medical intensive care unit. Crit Care Med. 2009 Oct;37(10):2697-701.

Cohen ER, Feinglass J, Barsuk JH, et al. Cost savings from reduced catheter-related bloodstream infection after simulation-based
education for residents in a medical intensive care unit. Simul Healthc. 2010 Apr;5(2):98-102.
Follow-up research compared pre-post Catheter-Related
Bloodstream Infections (CRBSI) and potential cost-
savings for the hospital
-Cohen and colleagues
CVC placement in Medical
Intensive Care Unit (MICU)

4.2/100
MICU CVC CRBSI/adm.
0.42/100
MICU CVC CRBSI/ adm.
SBE CVC training improved infection
rates

•  Training cost ~US$110,000 ( 319,000)
•  Approximately 9.95 CRBSIs were prevented in MICU
patients/ CVCs in the year after intervention
•  Each translated to US$82,000 ( 240,000) and 14
added hospital days
2M
SBE CVC training reduced costs

Future Trends: technical skills
training
Frequency
Urgency (cost)
urgency
frequency
urgency
frequency
urgency
frequency
(CVC, code)
( Targeted learners)
( PE, IV)

Future trends: targeted
procedural training

-Tavlasoglu et al (Diyarbakir Military Medical Hospital)
procedural training

Barsness KA, Rooney DM, Davis LM, O'Brien E. Evaluation of three sources of validity evidence for a laparoscopic duodenal atresia repair simulator.
J Laparoendosc Adv Surg Tech A. 2015 Mar;25(3):256-60.
Tai B, Rooney D, Stephenson F, Liao P, Sagher O, Shih A, Savastano LE. Development of 3D-printing built ventriculostomy placement simulator.
J Neurosurg. 2015 Jun 26:1-7.
procedural training
Neurosurgery and Pediatric Surgery
•  Very small trainee group
•  Target procedural skills

Challenges associated with
SBE
•  Cost
•  Space
•  Expertise
•  Time (development and delivery)

•  Decrease space requirements
•  Decrease faculty time commitment
•  Increase learner access
Addressing the challenges:
Future training targets technical skills

•  Using available web-based curriculum on computer
•  Self-directed training and
assessment
•  Addresses knowledge,
skills, attitude
Future Training: Streamlining
technical skills training with technology

Future training targeting
technical skills: retinal exam
•  Originally developed for residents, soon to be adapted by medical
students (n=170)
•  3 weeks to teach retinal exam
skills
•  30 minutes/session = 85
teaching hours
•  Teaching commitment = 0

Future training targeting
technical skills: endoscopy
Residents;
•  Family medicine
•  IM-Gastroenterology
•  Surgery
ü Self-directed learning
ü 24 hour access
ü Built-in assessment

and there’s more than technical
skills…

Future SBE targets: moving
beyond technical skills
•  Communication and professionalism
•  Patient safety & quality improvement
•  More complex skills (decision-making)

Communication skills
Pediatric ICU (PICU)
“Bootcamp”
Trainees:
PICU fellows
Learning Goals:
Improve PICU fellows’ reflection/awareness of own communication skills
Improve fellows’ awareness of patient/families’ perceptions
Improve fellows’ communication skills with patients and families

Day 1
•  Introductions
•  Presentation of family’s story from parent/child
•  Self-evaluation
Day 2
•  Faculty/Parent-educator facilitated simulation
Ongoing Assessment & Evaluation
•  360° (nursing staff, faculty, patient/parent, trainee-self)
•  On-unit assessment
Communication Bootcamp:
logistics

Communication Skills: third-year
medical students in Turkey

Thank you
Questions?

Deborah
Rooney,
PhD

dmrooney@med.umich.edu

Simulation-based education: How could simulation be used for technical skills development in the future

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