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Using Simulation to Build High Performance Teams

Improving Patient Safety

How building better teams through simulation can address a root cause of patient harm

If you look at healthcare organizations who are leaders in delivering safe, patient-centered care, there’s a common thread. They place a premium on creating great teams.1 Across healthcare, these teams represent thousands of doctors, nurses, anesthesiologists, and others who, despite vastly different skill sets and training, come together every day, assume their roles at the patient’s bedside, and perform nothing short of miracles in giving back patients their lives.

Laerdal is honored to support many of these teams as they train today to outperform themselves tomorrow. Using simulation, these teams can push, test, and come to know themselves in ways that give them a profound edge before they encounter a real patient.

Preventable medical error in U.S. hospitals accounts for an estimated 250,000 patient deaths and over 1 million injuries annually.2 The majority of these cases can be attributed to a breakdown in teamwork and communications.3 Great teams know this, and so teamwork is where they focus—not just on refining individual skills but on instilling the skills necessary to excel within teams.4

We thank those institutions that place a premium on creating high performance teams in healthcare. Below we share some trends and findings based on our clients’ experiences in the hopes of supporting your organization’s patient safety initiatives, 

Improving patient safety is a team sport.

John M. Eisenberg, MD, former Director, Agency for Healthcare Research and Quality

Multidisciplinary team training is just starting to enter the healthcare curriculum

Teamwork and communication are latecomers to medical education. Many institutions, however, have resolved to change in light of recent patient harm statistics. Leading medical schools are beginning to re-tool their programs to teach doctors the importance of teamwork and communications.5 And, many nursing schools are beginning to overlay Quality and Safety Education for Nurses (QSEN) across their curricula, which has a large teamwork and collaboration component.

Historically medical education has served a singular purpose: to produce experts licensed in their clinical field. Only recently have major institutions challenged whether that licensure qualifies experts to work effectively within a team.7 Findings show that multidisciplinary team training leads to better teamwork and communications, especially in emergency or time-critical situations. It’s a paradox in healthcare that the many disciplines that must come together daily to treat patients all train separately during school and during continuing education. The following takes a deeper look at why this is a problem.

The math behind multidisciplinary healthcare teams

The realities of hospital operations are that rigidly assigned teams are a rarity.8 Teams are often based on who’s on schedule, the nature of the case at hand, and so on. Consider this real world example: a patient suffers an obstetrics emergency. The hospital has 208 staff members that make up the 6 disciplines necessary to form the critical event team that will respond.9 How many team combinations are possible?

The answer is 381,000,000. That’s how many team combinations in this hospital could come together to respond to a single obstetrics emergency. 81 x 50 x 16 x 12 x 14 x 35 = 381,000,000. See the table below.

 

Position Number in Unit
Obstetricians 81
Labor and Delivery Nurses 50
Anesthesiologists 16
Neonatal Nurse Practitioners 12
Scrub Technicians 14
Certified Registered Nurse Anesthetists 35
Total Staff 208
Total Combination of Teams Possible! 381,000,000

 

How many team combinations could come together in your organization to respond to a patient emergency? The numbers can be staggering.

Multidisciplinary teams don't have to be permanently assigned to be great teams!

Traditional team training in healthcare assumes that teams must train together to achieve high performance.10 The math above shows that this is impractical. And, patient harm data show us that a team of experts does not automatically make an expert team.11

Organizations that build great teams approach the problem by focusing on the cognitive and interpersonal competencies that create great teams regardless of what combination of people is assigned to a case.12 These organizations train their staff in team “systems” like TeamSTEPPS®, Crew Resource Management (CRM), or ones they've developed on their own. And, they reinforce that system through process design and carefully communicated expectations. Everyone is trained to conduct teamwork and communications to the same standard. This becomes especially critical in emergency situations where inconsistencies in approach and expectations can manifest themselves in the form of confusion, delay in action, and even a complete breakdown in team performance. The result for the patient can be disastrous.

Simulation is a proven means for improving team performance and patient outcomes

Medicine has traditionally relied on a “see one, do one” approach to learning and experience.13 Didactic learning in this context focuses on imparting knowledge. Simulation-based learning makes that knowledge come alive in a setting created to mimic real clinical encounters and lifelike experiences where teamwork counts.14

As a high-stakes/high-risk industry, healthcare is still a relative newcomer to using simulation to improve team performance. Aviation and the military are among the pioneers in using simulation as a prerequisite to building effective teams. And, the evidence is clear in those sectors that simulation leads to improved team effectiveness, better mission outcomes, and reduced risk. Where the same techniques have been applied in healthcare, the results have been very much the same.

According to a study published in BMJ Quality & Safety, simulation-based team-training can improve team communications, coordination and cooperation. And, such training has led to improved patient safety outcomes. Thirteen studies published between 2011 and 2012 reported statistically significant changes in teamwork behaviors, processes, and/or the team's ability to respond to emergencies. Ten studies reported significant improvement in clinical care processes or patient outcomes, including mortality and morbidity—all as a result of implementing a team training program.15

In this context, simulation affords teams benefits that didactic learning can’t deliver. One is the opportunity for deliberate practice, i.e., quality practice, not just quantity. Another is the chance to debrief and truly understand the strengths and weaknesses in a team’s behavior. Furnished with all this, providers leave the simulation better equipped for future patient care. 16

Focus on the simulation, not the simulator

That may come as surprising advice from one of the world’s leading providers of patient simulators. But, it’s been validated time and time again that focusing first on your training and education objectives and not on which simulator to choose is the best path to success.

Imagine a situation where you are trying to train a multidisciplinary team in the fundamentals of applying TeamSTEPPS®, CRM), or possibly the QSEN competencies. If your training and education objective is to ensure that the learners are all comfortable applying sound communications and teamwork tools, an advanced simulator may not add to the experience. In fact, it could detract from it. We have seen great team training occur using a basic manikin or even a task trainer.

If, however, you wanted to give that same multidisciplinary team the experience of applying their newfound communications and teamwork skills in a real world setting where they will be measured against their patient’s response to emergency interventions, a high fidelity simulator is essential. So will be an appropriately written scenario and a video capture system for debriefing.  

Allow the problem you are trying to resolve and your desired result determine your choice of a simulator, not the other way around.

In situ simulation can make your choices easier and your success greater

In situ simulation means conducting simulation on location in your team’s own care setting using the same staff, protocol, processes and equipment that your team uses every day. In situ simulation allows teams to review and reinforce their skills and problem-solve, all the while identifying hazards and deficiencies in their systems and environment.17

One of the fundamental obstacles that our clients often say they face is the lack of infrastructure to house and support a large simulation program. In situ simulation proves that a large infrastructure is not essential – and a large infrastructure is never a substitute for simulation best practices.

In situ simulation promotes training efficiency since it occurs during the actual workday, utilizing staff while they are on duty without the need to backfill or schedule training days. And, it can be conducted with minimal resources and investment beyond what’s essential to get the job done. The most important resource needed? A local champion.

Consider looking at your team training objective in the context of what your teams experience at the patient’s bedside.  Identify the teamwork and communications deficiencies that occur routinely then and there. Looking at problems this way from an in situ perspective and then creating an in situ simulation in response can be an effective means for gaining the results you want to achieve – in the very place where you want the learning applied.

We can help you turn your team of experts into an expert team

Perhaps you are a Department Head, or an Educator, or a Risk Manager. Whatever your role, we want to help you be a simulation champion.  Simulation, especially in situ simulation, can yield significant results.18 Studies show that in situ simulation has yielded marked results in areas like obstetrics19,20, pediatrics21, trauma care22, neonatal resuscitation,23 and even new clinician orientation.24

Laerdal’s mission is helping save lives. One way we do this is by equipping providers with the best possible means for conducting simulation where the challenges to improving patient safety most often occur: among and within teams and in your real world environment.  If you need help, please contact us.

References

  1. Teamwork a Key Feature of Patient Safety Improvement Program. Navigating the Health Care System: Advice Columns from Dr. Carolyn Clancy, October 2, 2012. Agency for Healthcare Research and Quality, Rockville, MD.
  2. Medical error—the third leading cause of death in the US BMJ 2016; 353:i2139 doi:  (Published 03 May 2016)  
  3. Leonard, M., Graham, S., & Bonacum, D. (2004.)  The Human Factor: The Critical Importance of Effective Teamwork and Communication in Providing Safe Care.  Quality & Safety in Health Care, 13 (Suppl 1), i85-i90. doi:10.1136/qshc.2004.010033
  4. Teamwork Helps Doctors with Patient Safety: Dr. Bob Wachter, February 15, 2011, Medpage Today’s KevinMD.com 
  5. Medical Schools Reboot for 21st Century: Julie Rovner, April 9, 2015, Health News from NPR
  6. The QSEN Institute
  7. Medical Schools Reboot for 21st Century: Julie Rovner, April 9, 2015, Health News from NPR
  8. Riley, W., Lownik, E., Parotta, C., Miller, K., & Davis, S. (2011) Creating High Reliability Teams in Healthcare through In Situ Simulation Training. Adm. Sci. 2011, 1(1), 14-31; doi:10.3390/admsci1010014
  9. Idem
  10. Idem
  11. James, John T., A New, Evidence-based Estimate of Patient Harms Associated with Hospital Care, Journal of Patient Safety. September 2013 - Volume 9 - Issue 3 - p 122–128
  12. Teamwork and Communication Working Group. Improving patient safety with effective teamwork and communication: Literature review needs assessment, evaluation of training tools and expert consultations. Edmonton (AB): Canadian Patient Safety Institute; 2011.  See also: Medical Teamwork and Patient Safety: The Evidence-Based Relationship, Agency for Healthcare Research and Quality
  13. McCaghie, W., Issenberg, B., Cohen, E., Barsuk, J., Wayne, D., June 2011, Does Simulation-based Medical Education with Deliberate Practice Yield Better Results than Traditional Clinical Education? A Meta-Analytic Comparative Review of the Evidence, Acad Med. 2011 Jun; 86(6): 706–711.
  14. Aggarwal R, Mytton OT, Derbrew M, Hananel D, Heydenburg M, Issenberg B, et al., (2010) Training and simulation for patient safety., Qual Saf Health Care. 2010 Aug;19 Suppl 2:i34-43. doi: 10.1136/qshc.2009.038562
  15. Weaver, S. J., Dy, S. M., & Rosen, M. A. (2014). Team-training in healthcare: A narrative synthesis of the literature. BMJ Quality & Safety, 23(5), 359-372. doi:10.1136/bmjqs-2013-001848
  16. Aggarwal R, Mytton OT, Derbrew M, Hananel D, Heydenburg M, Issenberg B, et al., (2010) Training and simulation for patient safety., Qual Saf Health Care. 2010 Aug;19 Suppl 2:i34-43. doi: 10.1136/qshc.2009.038562
  17. Patterson, D., Blike., George, Nadkarni, M, (2008) In Situ Simulation: Challenges and Results. Advances in Patient Safety: New Directions and Alternative Approaches (Vol. 3: Performance and Tools). Agency for Healthcare Research and Quality (US); 2008 Aug.
  18. Riley, W., Lownik, E., Parotta, C., Miller, K., & Davis, S. (2011) Creating High Reliability Teams in Healthcare through In Situ Simulation Training. Adm. Sci. 2011, 1(1), 14-31; doi:10.3390/admsci1010014
  19. Riley W1, Davis S, Miller K, Hansen H, Sainfort F, Sweet R. (2011) Didactic and simulation nontechnical skills team training to improve perinatal patient outcomes in a community hospital. Jt Comm J Qual Patient Saf. 2011 Aug;37(8):357-64
  20. Gardner, R., Walzer, T., Robert, S., Raemer, D., (2008) Obstetric Simulation as a Risk Control Strategy: Course Design and Evaluation. Simulation in Healthcare: The Journal of the Society for Simulation in Healthcare: Summer 2008 - Volume 3 - Issue 2 - pp 119-127
  21. Couto TB1, Kerrey BT, Taylor RG, FitzGerald M, Geis GL. (2015) Teamwork skills in actual, in situ, and in-center pediatric emergencies: performance levels across settings and perceptions of comparative educational impact. Simul Healthc. 2015 Apr;10(2):76-84. doi: 10.1097/SIH.0000000000000081
  22. Miller D1, Crandall C, Washington C 3rd, McLaughlin S. (2012) Improving teamwork and communication in trauma care through in situ simulations. Acad Emerg Med. 2012 May;19(5):608-12. doi: 10.1111/j.1553-2712.2012.01354.x
  23. Rubio-Gerung, S., Utet, P., Touzet, S., et al.  In Situ Simulation Training for Neonatal Resuscitation: An RCT, Pediatrics, September 2014, VOLUME 134 / ISSUE 3
  24. Olejniczak EA1, Schmidt NA, Brown JM. (2010) Simulation as an orientation strategy for new nurse graduates: an integrative review of the evidence. Simul Healthc. 2010 Feb;5(1):52-7. doi: 10.1097/SIH.0b013e3181ba1f61