In May 2012, in airports across the globe, seven
orthopaedic surgeons bravely said goodbye to their loved ones, and
slowly turned towards their respective aircraft. Filled with expectation
and mild trepidation they stepped into the unknown… the ABC fellowship
of 2012.
The use of robots in orthopaedic surgery is an
emerging field that is gaining momentum. It has the potential for significant
improvements in surgical planning, accuracy of component implantation
and patient safety. Advocates of robot-assisted systems describe
better patient outcomes through improved pre-operative planning
and enhanced execution of surgery. However, costs, limited availability,
a lack of evidence regarding the efficiency and safety of such systems
and an absence of long-term high-impact studies have restricted
the widespread implementation of these systems. We have reviewed
the literature on the efficacy, safety and current understanding of
the use of robotics in orthopaedics. Cite this article:
The aim of this study was to investigate the effect of laboratory-based simulator training on the ability of surgical trainees to perform diagnostic arthroscopy of the knee. A total of 20 junior orthopaedic trainees were randomised to receive either a fixed protocol of arthroscopic simulator training on a bench-top knee simulator or no additional training. Motion analysis was used to assess performance objectively. Each trainee then received traditional instruction and demonstrations of diagnostic arthroscopy of the knee in theatre before performing the procedure under the supervision of a blinded consultant trainer. Their performance was assessed using a procedure-based assessment from the Orthopaedic Competence Assessment Project and a five-point global rating assessment scale. In theatre the simulator-trained group performed significantly better than the untrained group using the Orthopaedic Competence Assessment Project score (p = 0.0007) and assessment by the global rating scale (p = 0.0011), demonstrating the transfer of psychomotor skills from simulator training to arthroscopy in the operating theatre. This has implications for the planning of future training curricula.
The use of journal clubs and, more recently,
case-based discussions in order to stimulate debate among orthopaedic
surgeons lies at the heart of orthopaedic training and education. A
virtual learning environment can be used as a platform to host virtual
journal clubs and case-based discussions. This has many advantages
in the current climate of constrained time and diminishing trainee
and consultant participation in such activities. The virtual environment
model opens up participation and improves access to journal clubs
and case-based discussions, provides reusable educational content,
establishes an electronic record of participation for individuals,
makes use of multimedia material (including clinical imaging and
photographs) for discussion, and finally, allows participants to
link case-based discussions with relevant papers in the journal
club. The Leicester experience highlights the many advantages and some
of the potential difficulties in setting up such a virtual system
and provides useful guidance for those considering such a system
in their own training programme. As a result of the virtual learning
environment, trainee participation has increased and there is a
trend for increased consultant input in the virtual journal club
and case-based discussions. It is likely that the use of virtual environments will expand
to encompass newer technological approaches to personal learning
and professional development.
