In this post, JBJS Deputy Editor for Social Media Dr. Matt Schmitz reflects on technology-assisted surgery and skills acquisition in orthopaedics.
One of the key foundations of academic orthopaedics is teaching the next generation how to become competent and independent surgeons. This involves imparting surgical knowledge as well as guiding residents and junior surgeons on the use of tools that may improve their surgical outcomes.
In the 1980s, researchers Stuart and Hubert Dreyfus described a pathway of skills acquisition by which a learner progresses through stages, from novice to advanced beginner, then to competent, proficient, and finally, expert1,2. With the expansion of technology use in orthopaedics, it’s logical to ponder how those tools may assist with skills acquisition among junior surgeons and thus theoretically improve their surgical consistency and outcomes. Advocates of computer navigation for joint arthroplasty, for example, tout more reliable implant placement. Advances in technology in surgery could theoretically help novice and advanced-beginner surgeons progress to competent.
Looking further at the topic, what about the value of technology use (computer navigation and robotics) among lower- versus higher-volume surgeons? As McAuliffe et al. point out in a new study, prior research regarding the use of technology in total knee arthroplasty (TKA) primarily has focused on high-volume settings, leaving uncertainty about the benefits of technology-assisted TKA for those who perform fewer procedures. Their study is in the November 20, 2024 issue of JBJS:
The researchers investigated the association of technology usage and surgeon volume on revision rate in TKA. Using data from the Australian Orthopaedic Association National Joint Replacement Registry (AOANJRR), they included 53,264 primary TKAs performed from 2008 through 2022, by surgeons 5 or more years after their first recorded procedure. The analysis assessed the relationship between surgeon volume, the type of instrumentation used (technology-assisted or conventional instrumentation), and revision rates. Kaplan-Meier estimates and Cox proportional-hazards methods were applied to evaluate outcomes.
The researchers found that:
- Among the analyzed TKA procedures, 31,536 were technology-assisted and 21,728 involved conventional instrumentation.
- The use of technology lowered the all-cause revision rate for surgeons performing fewer than 50 TKAs annually and reduced the minor revision rate for those with fewer than 40 TKAs per year.
- No interaction was found between surgeon volume and major revision rate.
- When using 100 TKAs/year as a benchmark, lower-volume surgeons had higher rates of all-cause and major revision with conventional-instrumentation TKA but rates comparable to those of surgeons performing 100 TKAs/year with technology-assisted TKA.
The main take-away, say the authors, is that technology-assisted TKA was associated with a lower revision rate than TKA with conventional instrumentation for lower-volume surgeons, suggesting that its preferential use may enhance surgical outcomes for this group. In contrast, no significant difference in revision rate between TKA with technology assistance versus conventional instrumentation was found for higher-volume surgeons. The findings indicate a potential strategy for improving outcomes in low-volume settings through technology utilization, with further studies warranted.
This research underscores the importance of tailoring surgical technology applications to surgeon experience levels, particularly in improving patient outcomes for lower-volume TKA surgeons. In certain practice scenarios in which surgeons simply can’t obtain the volume to become proficient (novices or advanced beginners), it seems as though technology could be helpful to surgeons in advancing to the competent level. At the same time, however, overreliance on technology could take away from “learning” the basics of surgical procedures, which involves repetition. Would overreliance prevent a surgeon from becoming proficient or expert? While future studies will help shed further light on technology use, for now, we see from the study by McAuliffe et al. that technology-assisted TKA has the potential to improve outcomes for lower-volume surgeons.
Read the study at JBJS.org: Association of Technology Usage and Decreased Revision TKA Rates for Low-Volume Surgeons Using an Optimal Prosthesis Combination. An Analysis of 53,264 Primary TKAs
Matthew R. Schmitz, MD
JBJS Deputy Editor for Social Media
References:
- Dreyfus SE., Dreyfus HL. A Five-Stage Model of the Mental Activities Involved in Directed Skill Acquisition. Washington, DC: Storming Media; Dec 1980. https://apps.dtic.mil/sti/pdfs/ADA084551.pdf. Archived from the original on May 16, 2010: https://web.archive.org/web/20100516071752/http:/www.dtic.mil/cgi-bin/GetTRDoc?AD=ADA084551&Location=U2&doc=GetTRDoc.pdf
- Dreyfus S, Dreyfus HL. Mind over Machine. Free Press, New York (1998).
