A Proficiency-Based Progression Simulation Training Curriculum to Acquire the Skills Needed in Performing Arthroscopic Bankart and Rotator Cuff Repairs—Implementation and Impact

To investigate the impact of a proficiency-based progression (PBP) curriculum employed to teach trainees in the skills needed to demonstrate proficiency for an arthroscopic Bankart repair (ABR) and an arthroscopic rotator cuff repair (ARCR) by objectively comparing pre- and immediate postcourse perf...

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Published inArthroscopy Vol. 37; no. 4; pp. 1099 - 1106.e5
Main Authors Angelo, Richard L., St Pierre, Pat, Tauro, Joe, Gallagher, Anthony G., Barber, Alan, Beach, William, Burns, Joseph, Caldwell, Paul, Curtis, Alan, Dodds, Julie, Field, Larry, Leland, Marty, Getelman, Mark, Hunter, Robert, Kelly, John, Kibler, Ben, McIntyre, Louis, Nicandri, Gregg, Nord, Keith, Pedowitz, Robert, Richmond, John, Snyder, Stephen, Ticker, Jonathan, Voloshin, Ilya, Waterman, Brian, Weber, Stephen
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.04.2021
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Abstract To investigate the impact of a proficiency-based progression (PBP) curriculum employed to teach trainees in the skills needed to demonstrate proficiency for an arthroscopic Bankart repair (ABR) and an arthroscopic rotator cuff repair (ARCR) by objectively comparing pre- and immediate postcourse performances. In a prospective study, 16 arthroscopy/sports medicine fellows and 2 senior residents (complete group: N = 18) were randomly assigned to perform a precourse cadaveric ABR (Bankart subgroup: N = 6), ARCR (cuff subgroup: N = 6), or basic skills on a shoulder simulator (N = 6). After completing a PBP training curriculum, all 18 registrants performed both an ABR and ARCR scored in real time by trained raters using previously validated metrics. The Bankart subgroup made 58% fewer objectively assessed errors at the completion of the course than at baseline (P = .004, confidence interval –1.449 to –0.281), and performance variability was substantially reduced (standard deviation = 5.89 vs 2.81). The cuff subgroup also made 58% fewer errors (P = .001, confidence interval –1.376 to 0.382) and showed a similar reduction in performance variability (standard deviation = 5.42 vs 2.1). Only one subject’s precourse baseline performance met the proficiency benchmark compared with 89% and 83% of the all registrants on the final ABR and ARCR cadaveric assessments, respectively. The results of this study reject the null hypothesis. They demonstrate that the implementation of a PBP simulation curriculum to train the skills necessary to perform arthroscopic Bankart and rotator cuff repairs results in a large and statistically significant improvement in the trainee’s ability to meet the 2 related performance benchmarks. Proficiency was demonstrated by 89% and 83% of the trainees for an ABR and an ARCR, respectively, in a two- and one-half day course. Surgical training employing a PBP curriculum is efficient, effective, and has the potential to improve patient safety.
AbstractList To investigate the impact of a proficiency-based progression (PBP) curriculum employed to teach trainees in the skills needed to demonstrate proficiency for an arthroscopic Bankart repair (ABR) and an arthroscopic rotator cuff repair (ARCR) by objectively comparing pre- and immediate postcourse performances.PURPOSETo investigate the impact of a proficiency-based progression (PBP) curriculum employed to teach trainees in the skills needed to demonstrate proficiency for an arthroscopic Bankart repair (ABR) and an arthroscopic rotator cuff repair (ARCR) by objectively comparing pre- and immediate postcourse performances.In a prospective study, 16 arthroscopy/sports medicine fellows and 2 senior residents (complete group: N = 18) were randomly assigned to perform a precourse cadaveric ABR (Bankart subgroup: N = 6), ARCR (cuff subgroup: N = 6), or basic skills on a shoulder simulator (N = 6). After completing a PBP training curriculum, all 18 registrants performed both an ABR and ARCR scored in real time by trained raters using previously validated metrics.METHODSIn a prospective study, 16 arthroscopy/sports medicine fellows and 2 senior residents (complete group: N = 18) were randomly assigned to perform a precourse cadaveric ABR (Bankart subgroup: N = 6), ARCR (cuff subgroup: N = 6), or basic skills on a shoulder simulator (N = 6). After completing a PBP training curriculum, all 18 registrants performed both an ABR and ARCR scored in real time by trained raters using previously validated metrics.The Bankart subgroup made 58% fewer objectively assessed errors at the completion of the course than at baseline (P = .004, confidence interval -1.449 to -0.281), and performance variability was substantially reduced (standard deviation = 5.89 vs 2.81). The cuff subgroup also made 58% fewer errors (P = .001, confidence interval -1.376 to 0.382) and showed a similar reduction in performance variability (standard deviation = 5.42 vs 2.1). Only one subject's precourse baseline performance met the proficiency benchmark compared with 89% and 83% of the all registrants on the final ABR and ARCR cadaveric assessments, respectively.RESULTSThe Bankart subgroup made 58% fewer objectively assessed errors at the completion of the course than at baseline (P = .004, confidence interval -1.449 to -0.281), and performance variability was substantially reduced (standard deviation = 5.89 vs 2.81). The cuff subgroup also made 58% fewer errors (P = .001, confidence interval -1.376 to 0.382) and showed a similar reduction in performance variability (standard deviation = 5.42 vs 2.1). Only one subject's precourse baseline performance met the proficiency benchmark compared with 89% and 83% of the all registrants on the final ABR and ARCR cadaveric assessments, respectively.The results of this study reject the null hypothesis. They demonstrate that the implementation of a PBP simulation curriculum to train the skills necessary to perform arthroscopic Bankart and rotator cuff repairs results in a large and statistically significant improvement in the trainee's ability to meet the 2 related performance benchmarks. Proficiency was demonstrated by 89% and 83% of the trainees for an ABR and an ARCR, respectively, in a two- and one-half day course.CONCLUSIONSThe results of this study reject the null hypothesis. They demonstrate that the implementation of a PBP simulation curriculum to train the skills necessary to perform arthroscopic Bankart and rotator cuff repairs results in a large and statistically significant improvement in the trainee's ability to meet the 2 related performance benchmarks. Proficiency was demonstrated by 89% and 83% of the trainees for an ABR and an ARCR, respectively, in a two- and one-half day course.Surgical training employing a PBP curriculum is efficient, effective, and has the potential to improve patient safety.CLINICAL RELEVANCESurgical training employing a PBP curriculum is efficient, effective, and has the potential to improve patient safety.
To investigate the impact of a proficiency-based progression (PBP) curriculum employed to teach trainees in the skills needed to demonstrate proficiency for an arthroscopic Bankart repair (ABR) and an arthroscopic rotator cuff repair (ARCR) by objectively comparing pre- and immediate postcourse performances. In a prospective study, 16 arthroscopy/sports medicine fellows and 2 senior residents (complete group: N = 18) were randomly assigned to perform a precourse cadaveric ABR (Bankart subgroup: N = 6), ARCR (cuff subgroup: N = 6), or basic skills on a shoulder simulator (N = 6). After completing a PBP training curriculum, all 18 registrants performed both an ABR and ARCR scored in real time by trained raters using previously validated metrics. The Bankart subgroup made 58% fewer objectively assessed errors at the completion of the course than at baseline (P = .004, confidence interval –1.449 to –0.281), and performance variability was substantially reduced (standard deviation = 5.89 vs 2.81). The cuff subgroup also made 58% fewer errors (P = .001, confidence interval –1.376 to 0.382) and showed a similar reduction in performance variability (standard deviation = 5.42 vs 2.1). Only one subject’s precourse baseline performance met the proficiency benchmark compared with 89% and 83% of the all registrants on the final ABR and ARCR cadaveric assessments, respectively. The results of this study reject the null hypothesis. They demonstrate that the implementation of a PBP simulation curriculum to train the skills necessary to perform arthroscopic Bankart and rotator cuff repairs results in a large and statistically significant improvement in the trainee’s ability to meet the 2 related performance benchmarks. Proficiency was demonstrated by 89% and 83% of the trainees for an ABR and an ARCR, respectively, in a two- and one-half day course. Surgical training employing a PBP curriculum is efficient, effective, and has the potential to improve patient safety.
Author Dodds, Julie
Barber, Alan
Kibler, Ben
Leland, Marty
Field, Larry
Nord, Keith
Curtis, Alan
Angelo, Richard L.
Caldwell, Paul
Tauro, Joe
Pedowitz, Robert
Beach, William
Nicandri, Gregg
St Pierre, Pat
Hunter, Robert
Snyder, Stephen
Voloshin, Ilya
Waterman, Brian
Richmond, John
Weber, Stephen
Gallagher, Anthony G.
Burns, Joseph
Getelman, Mark
McIntyre, Louis
Kelly, John
Ticker, Jonathan
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Voloshin, Ilya
Nord, Keith
Waterman, Brian
Curtis, Alan
Richmond, John
Weber, Stephen
Burns, Joseph
Getelman, Mark
McIntyre, Louis
Caldwell, Paul
Kelly, John
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Pedowitz, Robert
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Snippet To investigate the impact of a proficiency-based progression (PBP) curriculum employed to teach trainees in the skills needed to demonstrate proficiency for an...
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Title A Proficiency-Based Progression Simulation Training Curriculum to Acquire the Skills Needed in Performing Arthroscopic Bankart and Rotator Cuff Repairs—Implementation and Impact
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https://dx.doi.org/10.1016/j.arthro.2020.11.040
https://www.ncbi.nlm.nih.gov/pubmed/33359814
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