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INTRODUCTION AND HYPOTHESIS: Retropubic midurethral sling surgery involves the blind passage of trocars near vital organs. We quantified the proximity of surgeons' mental representation of trocar position relative to actual position using a pelvis simulation platform. We hypothesized that novice surgeons, compared with experts, would estimate the trocar's location to be further from the actual location. METHODS: Novice and expert surgeons performed bilateral retropubic trocar passes of a Gynecare TVT trocar (#810041B-#810,051) on the simulation platform. We measured the trocar tip's position using a motion capture system, and recorded vocalizations when they perceived contacting the bone and crossing three landmark-oriented planes. We calculated differences (∆Bone, ∆Turn, ∆Top, ∆Pop) between vocalization times and when the trocar crossed the corresponding plane. We performed Mann-Whitney and Chi-squared tests to investigate differences between novices and experts and Levene's test to assess equality of variances for subject-level variation. RESULTS: A total of 34 trials, including 22 expert and 12 novice trials, were performed by six participants. ∆Bone was significantly smaller among novice surgeons (1.27 vs 2.81 s, p=0.013). There were no significant differences in the remaining three deltas or in vocalizing early versus late. Levene's test revealed no significant differences in within-subject variability for any of the four deltas. Novices passed the trocar anterior to the pubic bone on three passes. CONCLUSIONS: Novices were similar to expert surgeons in their estimation of the trocar's location and may have relied more heavily on anticipatory mechanisms to compensate for lack of experience. Teaching surgeons should make sure the novice surgeon trocar pass starts posterior to the bone.
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Purpose: Our objective was to understand the cognitive strategies used by surgeons to mentally visualize navigation of a surgical instrument through blind space. Methods: We conducted semi-structured interviews with 15 expert and novice surgeons following simulated retropubic trocar passage on 3D-printed models of pelvises segmented from preop MRIs. Midurethral sling surgery involves blind passage of a trocar among the urethra, bladder, iliac vessels, and bowel while relying primarily on haptic feedback from the suprapubic bone (SPB) for guidance. Our conceptual foundation was based on Lahav's study on blind people's mental mapping of spaces using haptic cues. Participants detailed how they mentally pictured the trocar's location relative to vital anatomy. We coded all responses and used constant comparative analysis to generate themes, confirmed with member checking. Results: Expert and novice participants utilized multiple cognitive strategies combined with haptic feedback to accomplish safe trocar passage. Some used a step-by-step route strategy, visualizing sequential 2D axial images of anatomy adjacent to the SPB. Others used a map strategy, forming global 3D pictures. Although these mental pictures vanished when they were "lost," a safe zone could be reestablished by touching the SPB. Experts were more likely to relate their body position to the trocar path and rely on minor variations in resistance. Novices were more inclined toward backtracking of the trocar. Conclusions: Our findings may be extended to any blind surgical procedure. Teaching visualization strategies and incorporating tactile feedback can be used intraoperatively to help learners navigate their instrument safely around vital organs.
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OBJECTIVE: Psychological resilience has been studied in several demanding professions, including the military and competitive sports, yet specific strategies for managing stress are not commonly addressed during surgical training. The objective of this study was to investigate how surgeons view performance under pressure during high-risk surgical steps. DESIGN: Using constructivist grounded theory, we conducted 12 individual semi-structured interviews with a theoretical sample teaching surgeons, representing 10 different specialties and a range of experience. We drew on Luthar's concept of resilience as positive adaptation, an active and flexible process in which critical choices are made in stressful situations. We asked about both protective and vulnerability factors contributing to resilience in high-risk surgery. We coded transcripts, transforming each category of codes into a visual schematic highlighting our findings related to performance under pressure and resilience, which we transformed into a conceptual model. SETTING: Truman Medical Center, Kansas City, MO, tertiary hospital. PARTICIPANTS: Twelve teaching surgeons from 10 different surgical specialties. RESULTS: Mental 3D visualization is necessary for proper preoperative planning, enacting contingency plans in the face of intra-operative challenges, and managing emotions during high-risk surgery. Each of these factors informs staying calm under pressure and is necessary for building long-term surgical resilience. Negotiating challenges in high-risk surgery is contingent upon adapting to risk developed over time through surgical experience, mental 3D visualization, intentionality, and self-reflection. CONCLUSIONS: Mental 3D visualization informs processes for staying calm under pressure and is essential for building long-term surgical resilience. We recommend that residency curricula offer progressive education on mental 3D visualization and foster intraoperative environments that promote adapting to risk.