http://orcid.org/0000-0002-5086-6246
REFERENCES
- Cosman P, Hemli JM, Ellis AM, Hugh TJ. Learning the surgical craft: a review of skills training options. ANZ journal of surgery. 2007;77(10):838–45.
- Chikwe J, de Souza AC, Pepper JR. No time to train the surgeons. BMJ. 2004;328(7437):418–9.
- Kopta JA. The development of motor skills in orthopaedic education. Clinical orthopaedics and related research. 1971;75:80–5.
- Raison N, Ahmed K, Fossati N, Buffi N, Mottrie A, Dasgupta P, et al. Competency based training in robotic surgery: benchmark scores for virtual reality robotic simulation. BJU Int. 2017;119(5):804–11.
- Ericsson KA. Deliberate practice and the acquisition and maintenance of expert performance in medicine and related domains. Academic Medicine. 2004;79(10):S70–S81.
- Ericsson KA. Deliberate practice and acquisition of expert performance: a general overview. Academic emergency medicine: official journal of the Society for Academic Emergency Medicine. 2008;15(11):988–94.
- Lee JY, Kerbl DC, McDougall EM, Mucksavage P. Medical students pursuing surgical fields have no greater innate motor dexterity than those pursuing nonsurgical fields. Journal of surgical education. 2012;69(3):360–3.
- MacCormick MRA, Kilkenny JJ, Walker M, Zur Linden A, Singh A. Investigating the impact of innate dexterity skills and visuospatial aptitude on the performance of baseline laparoscopic skills in veterinary students. Veterinary surgery: VS. 2017;46:1175–86.
- Hughes DT, Forest SJ, Foitl R, Chao E. Influence of medical students' past experiences and innate dexterity on suturing performance. American journal of surgery. 2014;208(2):302–6.
- The role of anxiety in simulation-based dexterity and overall performance: does it really matter? Journal of Investigative Surgery In Press.