Levels Of Surgical Experience Research Articles

Expertise, Teleoperation, and Task Constraints Affect the Speed–Curvature–Torsion Power Law in RAMIS

Quantitative characterization of surgical movements can improve the quality of patient care by informing the development of new training protocols for surgeons, and the design and control of surgical robots. Here, we focus on the relationship between the speed of movement and its geometry that was extensively studied in computational motor control. In three-dimensional movements, this relationship is defined by a family of speed–curvature–torsion power laws, such as the one-sixth power law. We present a novel characterization of open and teleoperated suturing movements using the speed–curvature–torsion power-law analysis. We fitted the gain and the exponents of this power law to suturing movements of participants with different levels of surgical experience in open (using sensorized forceps) and teleoperated (using the da Vinci Research Kit/da Vinci Surgical System) conditions from two different datasets. We found that expertise and teleoperation significantly affected the gain and exponents of the power law, and that there were large differences between different segments of movement. These results confirm that the relationship between the speed and geometry of surgical movements is indicative of surgical skill, open a new avenue for understanding the effect of teleoperation on the movements of surgeons, and lay the foundation for the development of new algorithms for automatic segmentation of surgical tasks.

Augmented Reality Guided Osteotomy in Hallux Valgus Surgery

Category: Bunion Introduction/Purpose: An optimal osteotomy angle can avoid shortening of the first metatarsal bone after hallux valgus surgery and therefore reduce the risk of transfer-metatarsalgia. Up to date the osteotomy is performed free-hand without guidance and is therefore prone to unwanted variability in accuracy. The purpose of the present ex-vivo study was to investigate whether overlaying a hologram (augmented reality, AR) would improve accuracy of the distal osteotomy during hallux valgus surgery. Methods: A polyamide foot skeleton was constructed based a CT scan of a cadaveric foot and covered with medical silicon soft tissue. Three different polyamide first metatarsals were inserted to simulate a light, moderate and severe hallux valgus deformity. Distal Osteotomies of the first metatarsals were performed by two surgeons with different levels of surgical experience each with (AR, n=15x2) or without (controls, n=15x2) overlay of a hologram depicting an angle of osteotomy perpendicular to the second metatarsal in the transverse plane. Subsequently, the deviation to the plumb line of the second metatarsal in the transverse plane of all 60 osteotomies angles were optically measured and statistically analyzed. Results: Overall, the AR-guided osteotomies were more accurate (4.9 ± 4.2°) compared to the freehand cuts (6.7± 6.1°) by tendency (p=0.2). However, while the inexperienced surgeon performed more accurate osteotomies with AR with a mean angle of 6.4± 3.5° compared to freehand 10.5 ± 5.5° (p=0.02), no significant difference was noticed for the experienced surgeon with an osteotomy angle of around 3° in both cases. Conclusion: This pilot-study suggests that augmented reality guided osteotomies can potentially improve accuracy during hallux valgus surgery, particularly for less experienced surgeons. However, clinical studies are needed to investigate the clinical benefit of augmented reality in hallux valgus surgery.

Long-term results of atresiaplasty in patients with congenital aural atresia

Objectives: To evaluate long-term benefits of atresiaplasty on hearing and the impact of surgery on quality of life (QoL) in congenital aural atresia (CAA) patients.Methods: We evaluated the long-term hearing results, the impact of atresiaplasty on QoL, the meatal diameter of the operated ear canal, and the cumulative number of post-operative hospital visits in 14 CAA patients, on average, 12 years (range: 4–17 years) post-operatively.Results: The mean preoperative pure tone average (PTA) was 61 dB HL. The postoperative short-term PTA was 36 dB HL and the long-term PTA was 51 dB HL. The mean total Glasgow Benefit Inventory (GBI) score was 16 (range: −11–39), showing the positive benefit of atresiaplasty on QoL. The mean postoperative diameter of the auditory meatus was 6 mm. The average number of hospital outpatient visits during the first postoperative year was 10.Conclusion: Surgery for CAA is a demanding operation with variable anatomical and hearing outcomes. Atresiaplasty operations should be centralized to hospitals with large numbers of such patients to ensure sufficient levels of surgical experience. Bone-anchored hearing devices or middle-ear implants should be considered as a first-line option because they offer good hearing predictability.

Touch Surgery: Analysis and Assessment of Validity of a Hand Surgery Simulation "App".

Surgical educators are increasingly exploring surgical simulation and other nonclinical teaching adjuncts in the education of trainees. The simulators range from purpose-built machines to inexpensive smartphone or tablet-based applications (apps). This study evaluates a free surgery module from one such app, Touch Surgery, in an effort to evaluate its validity and usefulness in training for hand surgery procedures across varied levels of surgical experience. Participants were divided into 3 cohorts: fellowship-trained hand surgeons, orthopedic surgery residents, and medical students. Participants were trained in the use of the Touch Surgery app. Each participant completed the Carpal Tunnel Release module 3 times, and participants' score was recorded for each trial. Participants also completed a customized Likert survey regarding their opinions on the usefulness and accuracy of the app. Statistical analysis using a 2-tailed t test and analysis of variance was performed to evaluate for performance within and between cohorts. All cohorts performed better on average with each subsequent simulation attempt. For all attempts, the experts outperformed the novice and intermediate participants, while the intermediate cohort outperformed the novice cohort. Novice users consistently gave the app better scores for usefulness as a training tool, and demonstrated more willingness to use the product. The study confirms app validity and usefulness by demonstrating that every cohort's simulator performance improved with consecutive use, and participants with higher levels of training performed better. Also, user confidence in this app's veracity and utility increased with lower levels of training experience.

Assessment of Learning Curves for 180-W GreenLight XPS Photoselective Vaporisation of the Prostate: A Multicentre Study

BackgroundThe learning curve for photoselective vaporisation of the prostate (PVP) has never been assessed accurately. ObjectiveTo compare 180-W GreenLight XPS PVP learning curves for three surgeons with different levels of surgical experience and different institutional backgrounds. Design, setting, and participantsA multicentre retrospective study of the first patients treated with PVP by three operators in three different centres (n=152 in group 1, n=112 in group 2, n=101 in group 3) was conducted. Surgeon 1 had performed >600 PVP procedures (120-W GreenLight HPS laser) since 2007, while surgeons 2 and 3 had no previous experience with GreenLight PVP. Surgeon 1 mainly treats both benign prostatic hyperplasia (BPH) and urologic oncology, surgeon 2 primarily focuses on urologic oncology, and surgeon 3 mostly treats BPH. Surgeon experience was analysed as a continuous variable in terms of consecutive procedures performed. InterventionPVP using a 180-W GreenLight XPS laser. Outcome measurements and statistical analysisThe learning curve was analysed in terms of changes over time for the following variables: operative time, the vaporisation time/operative time ratio, and the energy delivered/prostate volume ratio. The primary endpoint was a trifecta of (1) energy delivered >5kJ/ml of prostate, (2) vaporisation time/operative time ratio of 66–80%, and (3) no postoperative complications. Results and limitationsPatient baseline characteristics differed significantly among the centres in terms of age, prostate volume, and International Prostate Symptom Score (IPSS). Most perioperative outcomes favoured group 1 over group 3 over group 2. Functional outcomes, such as a decrease in IPSS at 1 mo for the first 50 patients (−15 vs −13.6 vs −13.3; p<0.0001) and an increase in maximum flow at 1 mo for the first 50 patients (+14.2 vs. +7 vs. +9.4; p<0.0001), favoured group 1 over group 3 over group 2. The trifecta achievement rate was significantly higher in group 3 over group 1 over group 2 (26.7% vs 14.4% vs 5.4%; p<0.0001). In multivariate analysis adjusting for age, American Society of Anesthesiologists score, and preoperative prostate volume, the only factors predictive of trifecta achievement were surgeon experience (p<0.0001) and surgeon identity (p<0.0001). The study limitations include selection bias, short follow-up, and a lack of consensus regarding learning curve assessment and definition. ConclusionsMore than 100 PVP procedures were required to reach an intraoperative parameter plateau regardless of surgeon expertise and institutional background. Both surgeon background and expertise seemed to influence perioperative outcomes during the GreenLight XPS PVP learning curve. Patient summaryBoth surgeon background and expertise seem to influence perioperative outcomes during the learning curve when using a GreenLight XPS laser for photoselective vaporisation of the prostate.

Can kinematic tibial templates assist the surgeon locating the flexion and extension plane of the knee?

PurposeWe performed virtual feasibility and in-vivo validation studies to test whether the use of a kinematic tibial template (KTT) assists the surgeon in accurately locating the orientation of the F-E of the knee with low bias and high precision. MethodsWith use of 166 3-dimensional bone models of normal knees, we designed seven KTTs that located the orientation of the F-E plane of the knee when best-fit within the cortical edge of the tibial resection. The virtual feasibility study asked 11 evaluators with different levels of surgical experience to use software and select, orient, and best-fit the KTT within the tibial resection of each bone model. The in-vivo validation study analyzed tibial component rotation on postoperative CT scans of 118 consecutive patients after one surgeon set the I-E rotation of the tibial component with a KTT when performing kinematically-aligned TKA. Bias and precision were computed as the mean and standard deviation of the differences between the A-P axis of the KTT and the F-E plane of the knee. ResultsFor the virtual feasibility study, the bias was 0.7° external and the precision was ±4.6° for 1826 KTT fittings, which were not affected by the level of surgical experience. For the in-vivo validation study, the bias was 0.1° external and the precision was ±3.9°. ConclusionsThe virtual feasibility and in-vivo validation studies suggest a KTT can assist the surgeon in accurately setting the I-E rotation of the tibial component parallel to the F-E plane of the knee when performing kinematically-aligned TKA.

Development of a method to compare microsurgery techniques across different levels of surgical experience

Abstract Object Surgical training is often seen as very timely and cost consuming as it requires multiple interactions with other experienced physicians. Through the use of video motion capture (VMC), novice surgeon's skills will be compared objectively to those of more experienced surgeons. Methods VMC was used to capture the movements of four neurosurgery residents performing five simple tasks: (1) threading the needle through the provided plastic vessel; (2) pulling the needle through the provided plastic vessel; and (3,4,5) tying the suture three times. Results It was concluded that experienced subjects recorded more accurate and precise motions within a shorter amount of time when compared to novice subjects. There was a decrease in time, elapsed path, and thumb tip distance with increasing experience. Conclusions The use of VMC proves to be a successful way to compare the differences between different levels of surgical expertise and we hope that this research will impact training paradigms for future surgical trainees.

Level of surgical experience is associated with change in hip center of rotation following cementless total hip arthroplasty: A radiographic assessment.

ObjectivesAfter total hip arthroplasty (THA), restoration of hip center of rotation (COR) is essential to ensure stability of the prosthetic hip and longevity of the prosthesis. Our aim was to determine whether, and how, the COR changed postoperatively compared to the native COR following implantation of a cementless acetabular component in anatomical position and to compare the accuracy of cup placement between two surgeons with different levels of surgical experience.Materials and methodsWe evaluated 145 patients (145 hips) who underwent unilateral primary THA, who had no distorted acetabulum on the affected hip and a normal contralateral hip. Hip reconstruction was radiologically and clinically assessed at a minimum 2-year follow-up. Perioperative change in COR, initial cup position, offset, leg-length discrepancy (LLD), radiographic cup orientation, Harris Hip Score (HHS), component loosening, and dislocations were compared between the highly experienced surgeon and less-experienced surgeon groups.ResultsThe COR was significantly displaced in the superior and medial directions postoperatively. Significant differences were identified in the vertical COR change, initial cup position, LLD, cup inclination, and cups within safe zones, but not in the horizontal COR change, offset parameters, cup anteversion, or HHS. There were no radiographic evidence of component loosening in both groups, but three dislocations (7%) only in the group operated on by the less-experienced surgeon (p = 0.027).ConclusionsWe found that the postoperative COR tended to be displaced in the superior and medial directions, and that the level of surgical experience strongly affected the accuracy and consistency of cup placement, particularly in COR position and cup inclination.

Surgical Competency for Robot-Assisted Hysterectomy: Development and Validation of a Robotic Hysterectomy Assessment Score (RHAS)

Study ObjectiveTo develop and validate a procedure-specific scoring algorithm to objectively measure robotic surgical skills during robot-assisted hysterectomy and to facilitate robotic surgery training and education. Design(Canadian Task Force classification III). SettingA National Comprehensive Cancer Network–designated comprehensive cancer center. PatientsDeidentified videos for robot-assisted hysterectomies were evaluated. InterventionsVideos from 26 robotic hysterectomies performed by surgeons with varying degrees of experience using the scoring system were evaluated. In phase I, critical elements of a robotic hysterectomy were deconstructed into 6 key domains to assess technical skills for procedure completion. Anchor descriptions were developed for each domain to match a 5-point Likert scale. Delphi methodology was used for content validation. A panel of 5 expert robotic surgeons refined this scoring system. In phase II, video recordings of procedures performed by surgeons with varying degrees of experience (expert, advanced beginner, and novice) were evaluated by blinded expert reviewers using the scoring system. Descriptive statistics were used to summarize the scores for each domain. Intraclass correlation was used to determine the interrater reliability. A p value <.05 was considered significant. Measurements and Main ResultsThe average score for the 3 classes of surgeon was 75.6 for expert, 71.3 for advanced beginner, and 69.0 for novice (p = .006). There were significant differences in scores of most individual domains among the various classes of surgeons. Novice surgeons took significantly longer than expert surgeons to complete their half of a hysterectomy (22.2 vs 12.0 minutes; p = .001). ConclusionThis pilot study demonstrates the feasibility of using a standardized rubric for clinical skills assessment in robotic hysterectomy. Blinded expert reviewers were able to differentiate between varying levels of surgical experience using this assessment tool.

The simplest method to classify CAM lesions.

CAM lesions are now seen as a significant pathology that could cause osteoarthritis of the hip joint. Currently there is no gold standard for classifying these lesions. We aim to show a simple method for classifying these lesions based on shape and position. Using CT 3D reconstruction, 91 preoperative CT scans from patients who had undergone hip arthroscopy for femoroacetabular impingement, were reconstructed to produce 3D images. Two senior hip surgeons have devised a simple four type classification system from previous experience. The system highlights the position and shape of different CAM lesions present in patients. The two senior surgeons and one junior surgeon reviewed the scans individually to assess whether the system could be used at all levels of surgical experience. The two senior surgeons agreed on which type of CAM lesion was present in all 91 cases. Intra observer reliability scores for the senior surgeons were 0.90 and 0.91. The junior surgeon reviewed the scans and disagreed on eight cases. This gave a Kappa co-efficient score of 0.87, which confirms a reliable system. We believe this classification system is simple and reproducible. It will aid surgeons in pre and intra-operative management of CAM lesions. Surgeons will be able to select the optimal portal placement and resect less capsule depending on the exact CAM lesion identified. This will potentially reduce complications and improve outcomes in junior hip arthroscopy surgeons.

Construct Validity, Assessment of the Learning Curve, and Experience of Using a Low-Cost Arthroscopic Surgical Simulator

We have developed a low-cost, portable shoulder simulator designed to train basic arthroscopic skills. This study aimed to establish the construct validity of the simulator by determining which parameters discriminated between experience levels and to assess the experience of using the simulator. Participants were given an introductory presentation and an untimed practice run of a 6-step triangulation task using hooks and rubber bands. A total of 6 consecutive attempts at the task were timed, and the number of times the participant looked at their hands during the task was recorded. Participants then completed a questionnaire on their experience of using the simulator. St George's Hospital, London and the South West London Elective Orthopaedic Centre, Surrey. Medical students, trainee doctors and surgeons, and consultant surgeons were approached to use the simulator. Participation was voluntary and nonincentivized. In total, 7 orthopedic consultants, 12 trainee doctors (ranging from foundation year 1 to clinical fellow post-Certificate of Completion of Training), and 9 medical students were recruited. The average time for medical students to complete the task was 161 seconds, compared to 118 seconds for trainees, and 84 seconds for consultants. The average fastest time for medical students was 105 seconds, 73 seconds for trainees, and 52 seconds for consultants. Students were significantly slower than trainees (p = 0.026) and consultants (p = 0.001). However, times did not differ significantly between trainees and consultants. Consultants looked at their hands 0.7 times on average during the task compared with 2.8 and 3.4 times for trainees and students, respectively. More than 95% of participants found the exercise interesting and agreed or strongly agreed that the simulator was easy to use, easily portable, and well designed and constructed. This study has established construct validity of the simulator by demonstrating the ability to distinguish between surgical experience levels. The learning curve shows improvement in individuals with or without arthroscopic or surgical experience. Simulation is becoming increasingly important in the training of medical students and surgical trainees; this study has established that low-cost portable arthroscopic box trainers may play a significant role.

The effect of surgical experience on the amount of radiation exposure from fluoroscopy during dynamic hip screw fixation.

INTRODUCTION Dynamic hip screw (DHS) fixation for proximal femur fractures is one of the most common procedures in trauma that requires the use of fluoroscopy. Emphasis is often placed on producing the 'perfect picture', which may lead to excessive use of fluoroscopy, without added patient benefit. This study, the largest of its kind, aimed to determine the effect of surgical experience on the amount of radiation exposure from fluoroscopy during DHS fixation. METHODS All hospital admissions for extracapsular proximal femur fractures to our institution between 2007 and 2012 were analysed. Patient demographics, fracture configuration, grade of surgeon and the total radiation dose after fixation were recorded. Analysis of variance was performed to assess differences in radiation levels between different grades of surgeon. RESULTS A total of 1,203 patients with a mean age of 81.3 years (range: 21-105 years) were included in the study. The majority of the fractures were three-part (33.3%), followed by two-part (32.2%), four-part (25.7%) and basicervical (8.9%). Registrars (ST3-ST8) used a significantly higher radiation dose than consultants for all fracture types (p=0.009). When analysed separately by trainee group, the most junior registrars (ST3-ST4) and the most senior registrars (ST7-ST8) were found to use significantly higher radiation levels than consultants (p=0.037 and p<0.001 respectively). CONCLUSIONS The level of surgical experience does influence the amount of radiation exposure from fluoroscopy during DHS fixation. Surgical trainees should not ignore the potential harmful effects of radiation and should be equipped with the knowledge of how to keep the radiation exposure as low as possible.

Adaptive Virtual Reality Training to Optimize Military Medical Skills Acquisition and Retention.

The Department of Defense has pursued the integration of virtual reality simulation into medical training and applications to fulfill the need to train 100,000 military health care personnel annually. Medical personnel transitions, both when entering an operational area and returning to the civilian theater, are characterized by the need to rapidly reacquire skills that are essential but have decayed through disuse or infrequent use. Improved efficiency in reacquiring such skills is critical to avoid the likelihood of mistakes that may result in mortality and morbidity. We focus here on a study testing a theory of how the skills required for minimally invasive surgery for military surgeons are learned and retained. Our adaptive virtual reality surgical training system will incorporate an intelligent mechanism for tracking performance that will recognize skill deficiencies and generate an optimal adaptive training schedule. Our design is modeling skill acquisition based on a skill retention theory. The complexity of appropriate training tasks is adjusted according to the level of retention and/or surgical experience. Based on preliminary work, our system will improve the capability to interactively assess the level of skills learning and decay, optimizes skill relearning across levels of surgical experience, and positively impact skill maintenance. Our system could eventually reduce mortality and morbidity by providing trainees with the reexperience they need to help make a transition between operating theaters. This article reports some data that will support adaptive tutoring of minimally invasive surgery and similar surgical skills.

Noise peaks influence communication in the operating room. An observational study

Noise peaks are powerful distractors. This study focuses on the impact of noise peaks on surgical teams’ communication during 109 long abdominal surgeries. We related measured noise peaks during 5-min intervals to the amount of observed communication during the same interval. Results show that noise peaks are associated with less case-relevant communication; this effect is moderated by the level of surgical experience; case-relevant communications decrease under high noise peak conditions among junior, but not among senior surgeons. However, case-irrelevant communication did not decrease under high noise level conditions, rather there was a trend to more case-irrelevant communication under high noise peaks. The results support the hypothesis that noise peaks impair communication because they draw on attentional resources rather than impairing understanding of communication. As case-relevant communication is important for surgical performance, exposure to high noise peaks in the OR should be minimised especially for less experienced surgeons.Practitioner Summary: This study investigated whether noise during surgeries influenced the communication within surgical teams. During abdominal surgeries, noise levels were measured and communication was observed. Results showed that high noise peaks reduced the frequency of patient-related communication, but did not reduce patient-irrelevant communication. Noise may negatively affect team coordination in surgeries.

Positioning Accuracy in Otosurgery Measured with Optical Tracking.

ObjectivesTo assess positioning accuracy in otosurgery and to test the impact of the two-handed instrument holding technique and the instrument support technique on surgical precision. To test an otologic training model with optical tracking.Study DesignIn total, 14 ENT surgeons in the same department with different levels of surgical experience performed static and dynamic tasks with otologic microinstruments under simulated otosurgical conditions.MethodsTip motion of the microinstrument was registered in three dimensions by optical tracking during 10 different tasks simulating surgical steps such as prosthesis crimping and dissection of the middle ear using formalin-fixed temporal bone. Instrument marker trajectories were compared within groups of experienced and less experienced surgeons performing uncompensated or compensated exercises.ResultsExperienced surgeons have significantly better positioning accuracy than novice ear surgeons in terms of mean displacement values of marker trajectories. The instrument support and the two-handed instrument holding techniques significantly reduce surgeons’ tremor. The laboratory set-up presented in this study provides precise feedback for otosurgeons about their surgical skills and proved to be a useful device for otosurgical training.ConclusionsSimple tremor compensation techniques may offer trainees the potential to improve their positioning accuracy to the level of more experienced surgeons. Training in an experimental otologic environment with optical tracking may aid acquisition of technical skills in middle ear surgery and potentially shorten the learning curve. Thus, simulated exercises of surgical steps should be integrated into the training of otosurgeons.

Management behaviors of the urology practitioners to the small lower calyceal stones: the results of a web-based survey.

Lower pole calyceal stones (LPS) represent lower spontaneous passage rates and, therefore, require several interventional treatment approaches. The aim of this survey study was to investigate the attitudes of the urology practitioners and the factors affecting their decision making in the management of small asymptomatic LPS. A total of 149 urologists participated to the study via email through the internet-based website. Participating urologists were asked to complete a 29-question survey including personal and academic data, level of surgical experience, available equipment for interventional approaches, which treatment do they prefer for small LPS (≥5mm and<1cm), and factors affecting their treatment decision. All data were analyzed to make inferences related with treatment decision and factors affecting decision-making. Mean participant age was 41.57 (26-62) years. The most preferred approach was observation/medical treatment option (52.3%), subsequently SWL (25.5%), RIRS (16.1%), miniPNL (5.4%) and standard PNL (0.7%) were chosen by the participants. On the other side, SWL and medical treatment were at the forefront (52 and 16.1%) among children. In the multivariate analysis of participants' age, academic status, surgical experience and institution, none was significantly associated with treatment decision-making (p>0.05). The most important factors associated with decision making were calyceal dilatation (85.9%) and patient preferences (81.2%). The other factors effecting treatment decision were reported to be recurrent disease (70.5%), the duration of the stone (74.5%), patient age (95.3%), current guidelines (87.9%), stone density (50.3%), body mass index (BMI) (73.8%) and other morbid diseases (91.9%). Our surveys' greatest value is in demonstrating the preferred treatment options and factors effecting decision-making in the treatment of LPS. The most preferred option in our population was follow-up and medical treatment. The most influencing factors on decision-making were age, patients' preferences, presence of calyceal dilatation, body mass index, comorbid conditions, available options for stone treatment and the surgeon's experience on the existing opportunities.

Extremity injuries in soldiers during the conflict in Mali: experience of Togo Level two Hospital.

The aim of this study was to analyse war-related and non-war-related extremity injuries in soldiers in the Mali conflict. This prospective study was performed from 1 May 1 to 31 December 2014. It concerned extremity injuries in soldiers treated at Togo Level 2 Hospital. Seventy-nine patients with an average age of 31.19 years were assessed. Among them, 50 were admitted after war injury and 29 from nonwar injury. Most war-related injuries were due to improvised explosive devices (IEDs) (36 %); road traffic accidents (51.72 %) were the main mechanism of non-war injury. A total of 125 injuries were analysed. Limb fractures were identified in 37 patients (29.6 %), and 22 cases (59.46 %) were open fractures. Twenty-six (20.8 %) patients had soft tissue wounds. The other injuries were sprains (18.4 %), muscle contusions (15.2 %), dislocations (8.8 %), traumatic amputations (4 %) and burns (3.2 %). Surgical debridement and external fixator application were the most frequently performed surgical procedures. Thirty-nine per cent of patients were evacuated to a level 3 hospital for better care. The severity of injuries and their rapid treatment require orthopaedic surgeons to have high levels of surgical experience and knowledge pertaining to military or disaster surgical doctrine.

Intraoperative management of posterior capsular rupture.

Posterior capsular rupture (PCR) and vitreous loss are inevitable complications encountered in cataract surgery across all levels of surgical experience and in spite of technological advances to improve safety. Thus, cataract surgeons must always be prepared to practice safe and effective intraoperative management strategies for capsular rupture. Novel approaches for lens fragment removal, vitrectomy, and lens implantation have expanded the available options for cataract surgery in the setting of an open posterior capsule. Intraoperative PCR management strategies should prioritize safety and strive to minimize vitreous traction, stabilize anterior chamber volume, maintain capsular and zonular integrity, and protect the corneal endothelium and other anterior segment structures. With appropriate management of PCR and vitreous, surgeons may still deliver safe and satisfactory visual outcomes for modern cataract surgery.

Development of a virtual reality robotic surgical curriculum using the da Vinci Si surgical system.

This study aimed to develop a training curriculum to evaluate the basic robotic skills necessary to reach an 80 % preset proficiency score and correlate the level of surgical experience with the overall performance obtained using the da Vinci Surgical Skills simulator. Twenty-two participants (4 faculty, 4 senior, and 14 junior residents) were enrolled in a 4-week robotic training curriculum developed at our institution. A set of seven robotic skills were selected based on the manufacturer's exercise primary endpoint. During their pretesting session, participants completed one trial of each of the seven simulated exercises. In two individual sessions over a 2 week period, trainees practiced a different set of exercises that evaluated the same basic robotic skills assessed during pretesting with the objective of reaching an overall score of 80 % on two consecutive attempts. If proficiency was not achieved, then a maximum of six trials per exercise was allowed before advancing to the next skill. During their fourth week of training, participants completed a post-testing session with the same set of exercises used during pretesting. Participants' overall performance and various metrics were recorded in an online database for further analysis. A significant skills gain from pre- to post-test was observed for each of the seven basic robotic skills regardless of participant's level of training (p < .001). Interestingly, participants only achieved an overall score of 80 % or more in only five of the seven exercises. No statistical difference in gain of skills was found between groups suggesting robotic skills development is independent of level of prior surgical expertise. A dedicated virtual reality robotic training curriculum significantly improves the seven basic robotic surgical skills necessary to operate the da Vinci Si surgical console. Six training trials appear to be insufficient to reach proficiency levels on more advanced skills.

Evaluation of a precise and measurable model for learning laparoscopic tissue handling.

Laparoscopic tissue handling is quite difficult to measure using virtual-reality laparoscopic simulators and box-trainer exercises, and therefore, completion time is the predominant performance measure for simulation-based laparoscopic training exercises. The purpose of this study was to evaluate the construct validity of a training and assessment model for precise laparoscopic handling of delicate tissue. Participants (n = 35) completed 2 progressively challenging laparoscopic tissue translocation exercises using delicate foam pieces and templates. Deidentified performances were scored using objective measures for tissue damage, accuracy, percentage complete, and completion time. Evaluation included multiple analysis of variance with repeated measures among the 3 groups as follows: medical students, residents and faculty who perform laparoscopic surgery less than once per week, and faculty members who perform laparoscopic surgery at least once per week. The model demonstrated significant construct validity by discriminating performances between the types of shapes and templates and across the levels of surgical experience on all dimensions. A significant interaction effect between the level of expertise and the difficulty of the exercise revealed excellent discrimination between experienced laparoscopic surgeons and others. This low-cost model provides an alternative or adjunct platform for laparoscopic training and assessment that requires precise and measurable handling of a delicate tissue.