Battle of the bots: a comparison of the standard da Vinci and the da Vinci Surgical Skills Simulator in surgical skills acquisition

Brown, Kevin H.; Mosley, Natalie; Tierney, James P.

doi:10.1007/s11701-016-0636-2

Cited by 20 publications

(12 citation statements)

References 15 publications

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“…The da Vinci Skills Simulator ® has been shown to provide similar training for the same physical skills on a standard robotic system (44). As the emphasis on simulation changes from simple task performance to procedure-based duplication of clinical scenarios, this will further reduce or eliminate the learning curve associated with the technology and improve operative safety.…”

Section: Robotic Cholecystectomy In the Face Of New Technologiesmentioning

confidence: 99%

The emerging role for robotics in cholecystectomy: the dawn of a new era?

Zaman¹,

Singh²

2018

Hepatobiliary Surg. Nutr.

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Though laparoscopic cholecystectomy (LC) was highly criticized in its early stages, it quickly grew to become a new standard of care and has revolutionized the field of general surgery. Now emerging robotic technology is making its way into the minimally invasive arena. Robotic cholecystectomy (RC) is often disparaged as a costly technology that can lead to increased operative times with outcomes that are quite similar to LC. However, this perspective is skewed as many existing studies were performed in the early phase of learning for this procedure. RC can be performed in a cost-effective manner as the volume of robotic procedures increases. In addition, improved visualization and capability to perform fluorescence cholangiography can improve the safety profile of cholecystectomy to a level that has not yet been achieved with conventional laparoscopy. Advanced simulation technology for robotic surgery, and newer singlesite robotic platforms have the potential to further revolutionize this technology and lead to improved patient satisfaction. In this review, we will present current data, trends, and controversies in robotic-assisted cholecystectomy.

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Section: Robotic Cholecystectomy In the Face Of New Technologiesmentioning

confidence: 99%

The emerging role for robotics in cholecystectomy: the dawn of a new era?

Zaman¹,

Singh²

2018

Hepatobiliary Surg. Nutr.

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“…The provided virtual reality (VR) environment enables novice robotic surgeons to practice surgical skills without compromising patient safety; consequently, such simulation training has become an established and reliable component in surgical training on the da Vinci operating system [21]. Generally, complex procedures of robotic-assisted surgery (RAS) based on different motor skills, technical knowledge, cognitive skills, and psychomotoric skills are mandatory [22][23][24].…”

Section: Discussionmentioning

confidence: 99%

Cognitive training for robotic surgery: a chance to optimize surgical training? A pilot study

et al. 2020

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The rapid rise of robotic-assisted surgery (RAS) has necessitated an efficient and standardized training curriculum. Cognitive training (CT) can significantly improve skills, such as attention, working memory and problem solving, and can enhance surgical capacity and support RAS training. This pilot study was carried out between 02/2019 and 04/2019. The participants included 33 student volunteers, randomized into 3 groups: group 1 received training using the da Vinci training simulator, group 2 received computer-based cognitive training, and group 3 was the control group without training. Before (T1) and after-training (T2), performance was measured. Additionally, expert ratings and self-evaluations were collected. Subjective evaluations of performance were supplemented by evaluations based on three scales from the revised NEO Personality Inventory (NEO PI-R). In total, 25 probands remained with complete data for further analyses: n = 8 (group 1), n = 7 (group 2) and n = 10 (group 3). There were no significant differences in T1 and T2 among all three groups. The average training gain of group 1 and 2 was 15.87% and 24.6%, respectively, (a restricting condition is the loss of the last training session in group 2). Analyses of semi-structured psychological interviews (SPIs) revealed no significant differences for T1, but in T2, significance occurred at ‘self-reflection’ for group 2 (F(2.22) = 8.56; p < .005). The efficacy of CT in training highly complex and difficult procedures, such as RAS, is a proven and accepted fact. Further investigation involving higher numbers of training trials (while also being cost effective) should be performed.

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“…The traditional apprenticeship-based model of surgical education is increasingly being replaced by education using mannequins, cadavers, training boxes, and virtual reality simulators [13,18,19,20,21,22]. Research in this area has gradually moved from introducing simulation training to identifying the education method that most effectively teaches the requisite surgical skills.…”

Section: Discussionmentioning

confidence: 99%

Application of a Perception Neuron® System in Simulation-Based Surgical Training

Kim

Hong

Kim

et al. 2019

JCM

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While multiple studies show that simulation methods help in educating surgical trainees, few studies have focused on developing systems that help trainees to adopt the most effective body motions. This is the first study to use a Perception Neuron® system to evaluate the relationship between body motions and simulation scores. Ten medical students participated in this study. All completed two standard tasks with da Vinci Skills Simulator (dVSS) and five standard tasks with thyroidectomy training model. This was repeated. Thyroidectomy training was conducted while participants wore a perception neuron. Motion capture (MC) score that indicated how long the tasks took to complete and each participant’s economy-of-motion that was used was calculated. Correlations between the three scores were assessed by Pearson’s correlation analyses. The 20 trials were categorized as low, moderate, and high overall-proficiency by summing the training model, dVSS, and MC scores. The difference between the low and high overall-proficiency trials in terms of economy-of-motion of the left or right hand was assessed by two-tailed t-test. Relative to cycle 1, the training model, dVSS, and MC scores all increased significantly in cycle 2. Three scores correlated significantly with each other. Six, eight, and six trials were classified as low, moderate, and high overall-proficiency, respectively. Low- and high-scoring trials differed significantly in terms of right (dominant) hand economy-of-motion (675.2 mm and 369.4 mm, respectively) (p = 0.043). Perception Neuron® system can be applied to simulation-based training of surgical trainees. The motion analysis score is related to the traditional scoring system.

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Battle of the bots: a comparison of the standard da Vinci and the da Vinci Surgical Skills Simulator in surgical skills acquisition

Cited by 20 publications

References 15 publications

The emerging role for robotics in cholecystectomy: the dawn of a new era?

The emerging role for robotics in cholecystectomy: the dawn of a new era?

Cognitive training for robotic surgery: a chance to optimize surgical training? A pilot study

Application of a Perception Neuron® System in Simulation-Based Surgical Training

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