Human factors in robotic assisted surgery: Lessons from studies 'in the Wild'

doi:10.1016/j.apergo.2018.02.011

Review

. 2019 Jul:78:270-276.

doi: 10.1016/j.apergo.2018.02.011. Epub 2018 Mar 2.

Human factors in robotic assisted surgery: Lessons from studies 'in the Wild'

Ken Catchpole¹, Ann Bisantz², M Susan Hallbeck³, Matthias Weigl⁴, Rebecca Randell⁵, Merrick Kossack⁶, Jennifer T Anger⁷

Affiliations

¹ Department of Anesthesia and Perioperative Medicine, Medical University of South Carolina, 167 Ashley Avenue, Suite 301, MSC 912, Charleston, SC 29425, USA. Electronic address: Catchpol@MUSC.edu.
² Department of Industrial and Systems Engineering, University at Buffalo, 342 Bell Hall, Buffalo, NY 14260, USA. Electronic address: bisantz@buffalo.edu.
³ Department of Health Sciences Research, Robert D. and Patricia E. Kern Center for the Science of Health Care Delivery, Mayo Clinic, 200 First St. SW, Rochester, MN 55905, USA. Electronic address: Hallbeck.Susan@mayo.edu.
⁴ Institute for Occupational, Social, and Environmental Medicine, Ludwig-Maximilians-University Munich, Ziemssenstr, 1 80336 München, Germany. Electronic address: matthias.weigl@med.lmu.de.
⁵ School of Healthcare, Baines Wing, University of Leeds, Leeds, LS2 9JT, UK. Electronic address: r.randell@leeds.ac.uk.
⁶ Human Factors Engineering, UL Wiklund 300 Baker Avenue, Suite 200, Concord, MA 01742, USA. Electronic address: Merrick.Kossack@ul.com.
⁷ Department of Surgery, Cedars-Sinai Medical Center, Los Angeles, La Cienega Blvd., Beverly Hills, CA 90211, USA.

PMID: 29478667
PMCID: PMC6105731
DOI: 10.1016/j.apergo.2018.02.011

Review

Human factors in robotic assisted surgery: Lessons from studies 'in the Wild'

Ken Catchpole et al. Appl Ergon. 2019 Jul.

. 2019 Jul:78:270-276.

doi: 10.1016/j.apergo.2018.02.011. Epub 2018 Mar 2.

Authors

Ken Catchpole¹, Ann Bisantz², M Susan Hallbeck³, Matthias Weigl⁴, Rebecca Randell⁵, Merrick Kossack⁶, Jennifer T Anger⁷

Affiliations

¹ Department of Anesthesia and Perioperative Medicine, Medical University of South Carolina, 167 Ashley Avenue, Suite 301, MSC 912, Charleston, SC 29425, USA. Electronic address: Catchpol@MUSC.edu.
² Department of Industrial and Systems Engineering, University at Buffalo, 342 Bell Hall, Buffalo, NY 14260, USA. Electronic address: bisantz@buffalo.edu.
³ Department of Health Sciences Research, Robert D. and Patricia E. Kern Center for the Science of Health Care Delivery, Mayo Clinic, 200 First St. SW, Rochester, MN 55905, USA. Electronic address: Hallbeck.Susan@mayo.edu.
⁴ Institute for Occupational, Social, and Environmental Medicine, Ludwig-Maximilians-University Munich, Ziemssenstr, 1 80336 München, Germany. Electronic address: matthias.weigl@med.lmu.de.
⁵ School of Healthcare, Baines Wing, University of Leeds, Leeds, LS2 9JT, UK. Electronic address: r.randell@leeds.ac.uk.
⁶ Human Factors Engineering, UL Wiklund 300 Baker Avenue, Suite 200, Concord, MA 01742, USA. Electronic address: Merrick.Kossack@ul.com.
⁷ Department of Surgery, Cedars-Sinai Medical Center, Los Angeles, La Cienega Blvd., Beverly Hills, CA 90211, USA.

PMID: 29478667
PMCID: PMC6105731
DOI: 10.1016/j.apergo.2018.02.011

Abstract

This article reviews studies conducted "in the wild" that explore the "ironies of automation" in Robotic Assisted Surgery (RAS). Workload may be reduced for the surgeon, but increased for other team members, with postural stress relocated rather than reduced, and the introduction of a range of new challenges, for example, in the need to control multiple arms, with multiple instruments; and the increased demands of being physically separated from the team. Workflow disruptions were not compared with other surgeries; however, the prevalence of equipment and training disruptions differs from other types of surgeries. A consistent observation is that communication and coordination problems are relatively frequent, suggesting that the surgical team may need to be trained to use specific verbal and non-verbal cues during surgery. RAS also changes the necessary size of the operating room instrument cleaning processes. These studies demonstrate the value of clinically-based human factors engineers working alongside surgical teams to improve the delivery of RAS.

Keywords: Automation; Human factors; Robotics; Surgery; Teamwork; Workload.

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Conflict of interest statement

Conflicts of Interest: Dr. Anger declares that she is an Investigator and Expert Witness for Boston Scientific, Inc. Authors Catchpole, Bisantz, Hallbeck, Weigl, Randell and Kossack declare that they have no conflicts of interest.

Figures

**Figure 1**
The SEIPS model applied to system-level RAS components

**Figure 2**
Example Robotic Surgery Room Configuration.

See this image and copyright information in PMC

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References

1. Abdelrahman AMA, Lowndes BR, Rand C, Shah H, El-Sherif N, Prokop L, Hallbeck MS. Impact of Robotic Surgery Versus Laparoscopic Surgery on Surgeon Musculoskeletal Symptoms and Workload: A Systematic Review and Meta-analysis. Surgical endoscopy. 2017;31(Suppl 1)
1. Ahmad N, Hussein AA, Cavuoto L, Sharif M, Allers JC, Hinata N, Ahmad B, Kozlowski JG, Hashmi Z, Bisantz A, Guru KA. Ambulatory Movements, Team Dynamics and Interactions during Robot-Assisted Surgery. BJU Int 2016 - PMC - PubMed
1. Allers JC, Hussein AA, Ahmad N, Cavuoto L, Wing JF, Hayes RM, Hinata N, Bisantz A, Guru KA. Evaluation and Impact of Workflow Interruptions during Robot-Assisted Surgery. Urology 2016 - PubMed
1. Bainbridge L. Ironies of Automation. Automatica. 1983;19:775–779.
1. Blandford A, Berndt E, Catchpole K, Furniss D, Mayer A, Mentis H, O'Kane AA, Owen T, Rajkomar A, Randell R. Strategies for conducting situated studies of technology use in hospitals. Cognition Technology & Work. 2015;17:489–502.

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[1] Abdelrahman AMA, Lowndes BR, Rand C, Shah H, El-Sherif N, Prokop L, Hallbeck MS. Impact of Robotic Surgery Versus Laparoscopic Surgery on Surgeon Musculoskeletal Symptoms and Workload: A Systematic Review and Meta-analysis. Surgical endoscopy. 2017;31(Suppl 1)

[2] Abdelrahman AMA, Lowndes BR, Rand C, Shah H, El-Sherif N, Prokop L, Hallbeck MS. Impact of Robotic Surgery Versus Laparoscopic Surgery on Surgeon Musculoskeletal Symptoms and Workload: A Systematic Review and Meta-analysis. Surgical endoscopy. 2017;31(Suppl 1)

[3] Ahmad N, Hussein AA, Cavuoto L, Sharif M, Allers JC, Hinata N, Ahmad B, Kozlowski JG, Hashmi Z, Bisantz A, Guru KA. Ambulatory Movements, Team Dynamics and Interactions during Robot-Assisted Surgery. BJU Int 2016 - PMC - PubMed

[4] Ahmad N, Hussein AA, Cavuoto L, Sharif M, Allers JC, Hinata N, Ahmad B, Kozlowski JG, Hashmi Z, Bisantz A, Guru KA. Ambulatory Movements, Team Dynamics and Interactions during Robot-Assisted Surgery. BJU Int 2016 - PMC - PubMed

[5] Allers JC, Hussein AA, Ahmad N, Cavuoto L, Wing JF, Hayes RM, Hinata N, Bisantz A, Guru KA. Evaluation and Impact of Workflow Interruptions during Robot-Assisted Surgery. Urology 2016 - PubMed

[6] Allers JC, Hussein AA, Ahmad N, Cavuoto L, Wing JF, Hayes RM, Hinata N, Bisantz A, Guru KA. Evaluation and Impact of Workflow Interruptions during Robot-Assisted Surgery. Urology 2016 - PubMed

[7] Bainbridge L. Ironies of Automation. Automatica. 1983;19:775–779.

[8] Bainbridge L. Ironies of Automation. Automatica. 1983;19:775–779.

[9] Blandford A, Berndt E, Catchpole K, Furniss D, Mayer A, Mentis H, O'Kane AA, Owen T, Rajkomar A, Randell R. Strategies for conducting situated studies of technology use in hospitals. Cognition Technology & Work. 2015;17:489–502.

[10] Blandford A, Berndt E, Catchpole K, Furniss D, Mayer A, Mentis H, O'Kane AA, Owen T, Rajkomar A, Randell R. Strategies for conducting situated studies of technology use in hospitals. Cognition Technology & Work. 2015;17:489–502.

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Human factors in robotic assisted surgery: Lessons from studies 'in the Wild'

Affiliations

Human factors in robotic assisted surgery: Lessons from studies 'in the Wild'

Authors

Affiliations

Abstract

Conflict of interest statement

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