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已发表论文
Training the next generation of surgeons in robotic surgery
Authors Carpenter BT, Sundaram CP
Received 3 August 2015
Accepted for publication 14 December 2015
Published 21 April 2017 Volume 2017:4 Pages 39—44
DOI https://doi.org/10.2147/RSRR.S70552
Checked for plagiarism Yes
Review by Single-blind
Peer reviewers approved by Dr Juan Barajas-Gamboa
Peer reviewer comments 2
Editor who approved publication: Dr Masoud Azodi
Context: Robotic surgery has
been used with rapidly increasing frequency within urology and across many
other surgical specialties. A standardized curriculum for the training and
credentialing of robotic surgeons has unfortunately trailed far behind the
adoption of this surgical technology.
Objective: To review the current available surgical skills training models, assessments, and curricula for the purpose of training resident, fellow, and practicing surgeons in an effort to promote surgical skill proficiency and mastery and to minimize the risk of patient harm.
Evidence acquisition: We performed a thorough review of available literature through a PubMed database search in February 2015.
Evidence synthesis: In this article, we compiled and scrutinized the available relevant literature regarding past and present robotic surgical training techniques and credentialing criteria. This review details the basic surgical skills (both technical and nontechnical) that are necessary for individuals and teams to be successful in the operative setting. We go on to discuss the role of current robotic surgical training techniques including dry lab and virtual simulators. Finally, we offer current validated training curricula, the Global Evaluative Assessment of Robotic Skills and Fundamentals of Robotic Surgery models, which have laid the groundwork for a future standardized model that could be applied on a national and international level and across several surgical subspecialties. The ultimate goal of the review is to provide a foundation from which a future standardized training and credentialing curriculum could be based.
Conclusion: There is currently a great need for a standardized curriculum to be developed and employed for the use of training and credentialing future and current robotic surgeons.
Keywords: robotic surgery, robotic training curriculum, robotic simulation
Objective: To review the current available surgical skills training models, assessments, and curricula for the purpose of training resident, fellow, and practicing surgeons in an effort to promote surgical skill proficiency and mastery and to minimize the risk of patient harm.
Evidence acquisition: We performed a thorough review of available literature through a PubMed database search in February 2015.
Evidence synthesis: In this article, we compiled and scrutinized the available relevant literature regarding past and present robotic surgical training techniques and credentialing criteria. This review details the basic surgical skills (both technical and nontechnical) that are necessary for individuals and teams to be successful in the operative setting. We go on to discuss the role of current robotic surgical training techniques including dry lab and virtual simulators. Finally, we offer current validated training curricula, the Global Evaluative Assessment of Robotic Skills and Fundamentals of Robotic Surgery models, which have laid the groundwork for a future standardized model that could be applied on a national and international level and across several surgical subspecialties. The ultimate goal of the review is to provide a foundation from which a future standardized training and credentialing curriculum could be based.
Conclusion: There is currently a great need for a standardized curriculum to be developed and employed for the use of training and credentialing future and current robotic surgeons.
Keywords: robotic surgery, robotic training curriculum, robotic simulation
