Visual spatial ability for surgical trainees: implications for learning endoscopic, laparoscopic surgery and other image-guided procedures

Baseline Assessments of Psychomotor Aptitude Are Associated With the Future Operative Performance of Surgical Trainees: A Prospective Observational Cohort Study

OBJECTIVE

This study sought to investigate the association between validated psychomotor ability tests and future in-theater and simulated operative performance.

BACKGROUND

Assessments of visuospatial ability, perceptual ability, and manual dexterity correlate with simulated operative performance. Data showing the predictive value of such assessments in relation to future performance in the workplace is lacking.

METHODS

Core surgical residents in Ireland recruited from 2016 to 2019 participated in assessments of baseline perceptual, visuospatial, and psychomotor ability; Pictorial Surface Orientation (PicSOr) testing, digital visuospatial ability testing, and manual dexterity testing. Operative performance was prospectively assessed using the in-theater Supervised Structured Assessment of Operative Performance (SSAOP) tool, and simulation-based Operative Surgical Skill (OSS) assessments performed over a 2-year core training period. SSAOP assessments were scored using a 15-point checklist and a global 5-point operative performance score. OSS assessments were scored using procedure-specific checklists. Univariate correlations and multiple linear regression analyses were used to explore the association between fundamental ability measures and operative performance.

RESULTS

A total of 242 residents completed baseline psychomotor ability assessments. Aggregated fundamental ability scores were associated with performance in submitted workplace-based SSAOP assessments using the Total Checklist score ( P =0.002) and Overall Performance scores ( P =0.002), independent of operative experience, and undergraduate centile scores. Aggregated ability scores were also positively associated with simulation-based OSS assessment scores on multivariable analysis ( P =0.03).

CONCLUSION

This study indicates that visuospatial, psychomotor, and perceptual ability testing scores are associated with the future operative performance of surgical residents.

Predictive factors of academic success in neuromusculoskeletal anatomy among doctor of physical therapy students

Predictors of academic success in anatomy have been studied, but not in Doctor of Physical Therapy (DPT) students. The objectives of this study were to (1) explore predictors of academic success in a DPT anatomy course, (2) evaluate sex-based differences in the predictors of academic success and their influence on anatomy course grade, and (3) investigate the influence of the DPT anatomy course on visual-spatial ability. Forty-nine DPT students completed a demographic questionnaire, Learning and Study Strategies Inventory (LASSI), and Mental Rotations Test (MRT) before the ten-week anatomy course (MRT-1) and repeated the MRT at the end of the course (MRT-2). Anatomy course grade was determined based on quizzes and written and practical examinations. Multiple regression analysis showed significant associations between the predictor variables age (p = 0.010) and the LASSI anxiety subscale (p = 0.017), which measures anxiety coping, with the anatomy course grade. On the MRT-1, male DPT students attempted and correctly answered more questions than females (both, p < 0.0001). Female students had higher LASSI self-regulation and use of academic resources subscale scores (both, p < 0.05). In the 44 DPT students that completed the MRT-2, the number of correct and attempted responses increased following the anatomy course (p < 0.0001). Age and anxiety coping, but not sex, are predictors of anatomy course grades in DPT students. Mental rotations test scores improved following the anatomy course. The LASSI should be used in other cohorts to identify students with low anxiety subscale scores in order to provide targeted support.

Vestibular dysfunction is an important contributor to the aging of visuospatial ability in older adults–Data from a computerized test system

Background

A convergence of research supports a key role of the vestibular system in visuospatial ability. However, visuospatial ability may decline with age. This work aims to elucidate the important contribution of vestibular function to visuospatial ability in old adults through a computerized test system.

Methods

Patients with a clinical history of recurrent vertigo and at least failed one vestibular test were included in this cross-sectional study. Healthy controls of three age groups: older, middle-aged, and young adults were also involved. Visuospatial cognitive outcomes including spatial memory, spatial navigation, and mental rotation of all the groups were recorded. Comparing the performance of the visuospatial abilities between patients and age-matched controls as well as within the controls.

Results

A total of 158 individuals were enrolled. Results showed that patients performed worse than the age-matched controls, with the differences in the forward span (p &lt; 0.001), the time of the maze 8 × 8 (p = 0.009), and the time of the maze 12 × 12 (p = 0.032) being significant. For the differences in visuospatial cognitive outcomes within the controls, the younger group had a significantly better performance than the other groups. The older group and the middle-aged group had comparable performances during all the tests.

Conclusions

Older patients with vestibular dysfunction had more difficulties during visuospatial tasks than age-matched controls, especially in spatial memory and spatial navigation. Within the controls, younger adults did much better than other age groups, while older adults behaved similarly to middle-aged adults. It is a valuable attempt to computerize the administration of tests for visuospatial ability.

Burnout and Cognitive Functioning: Are We Underestimating the Role of Visuospatial Functions?

Job burnout is a psychological syndrome which results from chronic occupational stress and cognitive impairments are among its negative consequences. The demands of the COVID-19 pandemic have challenged the healthcare system increasing the risk of job burnout among healthcare professionals. The studies conducted so far have mainly focused on the effects of job burnout on executive functions. Visuospatial functions are a cognitive domain which plays an important role in healthcare workers' optimal performance. Healthcare workers are constantly relying on their visuospatial abilities in order to care for their patients as they are required to use techniques that involve manipulation of medical instruments, they need to have excellent hand-eye coordination and great perception of spatial anatomy, factors that can affect healthcare workers' performance is of significance and can put patient safety at risk. However, our understanding of how visuospatial functions are being affected in job burnout is limited. The scope of this mini-review is to examine the evidence concerning the relationship of job burnout with visuospatial functions. The sparsity of the relevant empirical evidence does not allow for definite conclusions. However, given the implications of diminished visuospatial abilities in patient safety we highlight the need for studies exploring the effects of job burnout on visuospatial functions. Limitations of studies are discussed.

The role of virtual reality simulation in surgical training in the light of COVID-19 pandemic: Visual spatial ability as a predictor for improved surgical performance: a randomized trial

INTRODUCTION

Due to the current COVID-19 pandemic, surgical training has become increasingly challenging due to required social distancing. Therefore, the use of virtual reality (VR)-simulation could be a helpful tool for imparting surgical skills, especially in minimally invasive environments. Visual spatial ability (VSA) might influence the learning curve for laparoscopic surgical skills. However, little is known about the influence of VSA for surgical novices on VR-simulator training regarding the complexity of different tasks over a long-term training period. Our study evaluated prior VSA and VSA development in surgical trainees during VR-simulator training, and its influence on surgical performance in simulator training.

METHODS

In our single-center prospective two-arm randomized trial, VSA was measured with a tube figure test before curriculum training. After 1:1 randomization, the training group (TG) participated in the entire curriculum training consisting of 48 different VR-simulator tasks with varying difficulty over a continuous nine-day training session. The control group (CG) performed two of these tasks on day 1 and 9. Correlation and regression analyses were used to assess the influence of VSA on VR-related surgical skills and to measure procedural abilities.

RESULTS

Sixty students (33 women) were included. Significant improvements in the TG in surgical performance and faster completion times were observed from days 1 to 9 for the scope orientation 30° right-handed (SOR), and cholecystectomy dissection tasks after the structured 9-day training program. After training, the TG with pre-existing low VSA scores achieved performance levels similar to those with pre-existing high VSA scores for the two VR simulator tasks. Significant correlations between VSA and surgical performance on complex laparoscopic camera navigation SOR tasks were found before training.

CONCLUSIONS

Our study revealed that that all trainees improved their surgical skills irrespective of previous VSA during structured VR simulator training. An increase in VSA resulted in improvements in surgical performance and training progress, which was more distinct in complex simulator tasks. Further, we demonstrated a positive relationship between VSA and surgical performance of the TG, especially at the beginning of training. Our results identified pre-existing levels of VSA as a predictor of surgical performance.

R-Cube-SR Test

Abstract. Visualization and spatial relations (mental rotation) are two important factors of spatial thinking. Visualization refers to complex visual-spatial transformations, whereas spatial relations refer to simple mental rotation of visualized objects. Conventional spatial relations tests, however, have been found to be highly correlated with visualization tests because solving items through mental rotation might involve visualization ability due to the complexity of the visual materials of these tests. In two studies ( N = 51, N = 109), a new computer-based test for spatial relations, the R-Cube-SR Test, was developed and validated. The R-Cube-SR Test utilizes simple, single-colored cubes as rotated visual materials. Reliability estimates of the reaction times reach ω = .87. Correlations with standard tests of spatial relations (up to r = .55) were significantly higher than with visualization tests, such as the new R-Cube-Vis Test ( Fehringer, 2020 ), which uses the same visual materials. This was supported by CFAs. It is concluded that the new R-Cube-SR Test is a valid measure of spatial relations. Both tests together, the R-Cube-Vis and R-Cube-SR, as specific tests for their respective factor, now, are able to provide a differential diagnosis of a participant’s spatial thinking ability using the same visual materials.

Efficacy of a virtual reality-based basic and clinical fused curriculum for clinical education on the lumbar intervertebral disc

OBJECTIVE

Today, minimally invasive procedures have become mainstream surgical procedures. Percutaneous endoscopic transforaminal discectomy for lumbar disc herniation (LDH) requires profound knowledge of the laparoscopic lumbar anatomy. Immersive virtual reality (VR) provides three-dimensional patient-specific models to help in the process of preclinical surgical preparation. In this study, the authors investigated the efficacy of VR application in LDH for training orthopedic residents and postgraduates.

METHODS

VR images of the lumbar anatomy were created with immersive VR and mAnatomy software. The study was conducted among 60 residents and postgraduates. A questionnaire was developed to assess the effect of and satisfaction with this VR-based basic and clinical fused curriculum. The teaching effect was also evaluated through a postlecture test, and the results of the prelecture surgical examination were taken as baselines.

RESULTS

All participants in the VR group agreed that VR-based education is practical, attractive, and easy to operate, compared to traditional teaching, and promotes better understanding of the anatomical structures involved in LDH. Learners in the VR group achieved higher scores on an anatomical and clinical fusion test than learners in the traditional group (84.67 ± 14.56 vs 76.00 ± 16.10, p < 0.05).

CONCLUSIONS

An immersive VR-based basic and clinical fused curriculum can increase residents' and postgraduates' interest and support them in mastering the structural changes and complicated symptoms of LDH. However, a simplified operational process and more realistic haptics of the VR system are necessary for further surgical preparation and application.

The study of visuospatial abilities in trainees: A scoping review and proposed model

BACKGROUND

Visuospatial abilities are an important component of technical skill acquisition. Targeted visuospatial ability training may have positive implications for training programs. The development of such interventions requires an adequate understanding of the visuospatial ability processes necessary for surgical and nonsurgical tasks. This scoping review aims to identify the components of visuospatial ability that have been reported in surgical and nonsurgical trainees and determine if there is consensus regarding the language and psychometric measures used, clarifying the elements that may be required to develop interventions that enhance visuospatial ability.

METHODS

A scoping review was designed to identify relevant records from EMBASE and Medline until January 13, 2020. Data were extracted on visuospatial ability terminology, dimensions, instruments, and interventions with results stratified by specialty (surgical, nonsurgical, or mixed). Conference abstracts, opinion pieces, and review studies were excluded.

RESULTS

Out of 882 total records, 26 were identified that met criteria for inclusion. Surgical specialities were represented in > 90% of results. A total of 16 unique terms were used to describe visuospatial ability and were measured using 34 instruments, of which eight were used more than once. Eighteen different dimensions were identified. A single study explored the effects of a targeted visuospatial ability intervention.

CONCLUSION

A wide range of visuospatial ability terms, instruments, and dimensions were identified, suggesting an incomplete understanding of the components most relevant to surgical and nonsurgical tasks. This confusion may be hindering the development of visuospatial ability targeted interventions during residency training. A rigorous methodological model is proposed to help unify the field and guide future research.

Recent evidence on visual-spatial ability in surgical education: A scoping review

BACKGROUND

Understanding the relationships between structures is critical for surgical trainees. However, the heterogeneity of the literature on visual-spatial ability (VSA) in surgery makes it challenging for educators to make informed decisions on incorporating VSA into their programs. We conducted a scoping review of the literature on VSA in surgery to provide a map of the literature and identify where gaps still exist for future research.

METHODS

We searched databases until December 2019 using keywords related to VSA and surgery. The resulting articles were independently screened by two researchers for inclusion in our review.

RESULTS

We included 117 articles in the final review. Fifty-nine articles reported significant correlations between VSA tests and surgical performance, and this association is supported by neuroimaging studies. However, it remains unclear whether VSA should be incorporated into trainee selection and whether there is a benefit of three-dimensional (3D) over two-dimensional (2D) training.

CONCLUSIONS

It appears that VSA correlates with surgical performance in the simulated environment, particularly for novice learners. Based on our findings, we make suggestions for how surgical educators may use VSA to support novice learners. Further research should determine whether VSA remains correlated to surgical performance when trainees move into the operative environment.

Investigating Visual-Spatial Abilities in Students and Expert Physical Therapists

Purpose: Visual-spatial abilities (VSAs) - the aptitude for mentally processing, retaining, and manipulating visual input - are used by physical therapists in movement analysis. Superior VSAs have been demonstrated in experts compared with novices in other fields, including surgery, anatomy, and aviation, but no literature has investigated VSAs in physical therapy. The purpose of this study was to quantify VSAs in expert and student physical therapists and investigate the differences between the two groups. Our results could assist future researchers in identifying areas for skill development and improved clinical competency in students and novice therapists. Method: Expert physical therapists and first-year PT students completed four computerized VSA tests in the Psychology Experiment Building Language programme: Four-Choice Response, Sequential Pattern Comparison, Mental Rotation, and Situation Awareness. Results: A total of 16 participants were recruited for each group. Expert physical therapists responded more accurately to the Four-Choice Response test, but not significantly so (p = 0.06), and with a significantly slower response time than student physical therapists (p = 0.03). No other differences were found. Conclusions: These findings suggest that expert physical therapists use selective attention more effectively and may value accuracy over speed. No differences were found in other measures of VSAs. Further studies are required to confirm and expand our findings.

EANS Basic Brain Course (ABC): combining simulation to cadaver lab for a new concept of neurosurgical training

BACKGROUND

Neurosurgical training has traditionally been based on an apprenticeship model that requires considerable time and exposure to surgeries. Unfortunately, nowadays these requirements are hampered by several limitations (e.g., decreased caseload, worktime restrictions). Furthermore, teaching methods vary among residency programs due to cultural differences, monetary restrictions, and infrastructure conditions, with the possible consequence of jeopardizing residents' training.

METHODS

The EANS Basic Brain Course originated from a collaboration between the Besta NeuroSim Center in Milano and the Swiss Foundation for Innovation and Training in Surgery in Geneva. It was held for 5 neurosurgical residents (PGY1-3) who participated to this first pilot experience in January 2019. The main goal was to cover the very basic aspects of cranial surgery, including both technical and non-technical skills. The course was developed in modules, starting from the diagnostic paths and communication with patients (played by professional actors), then moving to practical simulation sessions, rapid theoretical lessons, and discussions based on real cases and critical ethical aspects. At the end, the candidates had cadaver lab sessions in which they practiced basic emergency procedures and craniotomies. The interaction between the participants and the faculties was created and maintained using role plays that smoothly improved the cooperation during debriefs and discussions, thus making the sessions exceedingly involving.

RESULTS

At the end of the course, every trainee was able to complete the course curriculum and all the participants expressed their appreciation for this innovative format, with a particular emphasis on the time spent learning non-technical skills, confirming that they feel this to be a fundamental aspect of a comprehensive training in neurosurgery.

CONCLUSIONS

It is possible that this combined concept of training on technical and non-technical skills, using emerging technologies along with pedagogic techniques and cadaver dissection, may become the state-of-the-art for European Neurosurgical training programs in the next future.

Correlation of surgical trainee performance on laparoscopic versus endoscopic simulation

BACKGROUND

Both laparoscopy and endoscopy are image-based procedures, which are less intuitive than traditional open surgery and require extensive training to reach adequate proficiency. Currently, there is lack of understanding as to how the skills in one image-based procedure translate to another, such as endoscopy to laparoscopy and vice versa. The aim of our study was to explore the relationship between endoscopic and laparoscopic skills using a Fundamentals of Laparoscopic Surgery (FLS) trainer, a traditional virtual reality endoscopic trainer and a "desk-top" endoscopic physical simulator.

METHODS

Senior surgical residents from across Canada participating in an advanced laparoscopic foregut training course were enrolled in the study. Participants were assessed performing the FLS laparoscopic suturing task, the Endobubble 2 task (Simbionix, GI Mentor), and a forward viewing peg transfer on the novel Basics in Endoscopic Skills Training Box (BEST Box).

RESULTS

There was significant correlation between the participant's skill in simulated laparoscopic suturing and simulated endoscopic skill using the BEST box (Pearson coefficient (r) was 0.551 (p = 0.033) and the coefficient of determination (r²) was 0.304). There was a trend towards correlation between laparoscopic suturing time and Endobubble 2 score, but this did not reach statistical significance (r = 0.458, p = 0.086; r² = 0.210).

CONCLUSIONS

Performance in the two physical simulators, laparoscopic suturing and simulated flexible endoscopy using the BEST box, showed a correlation. This study adds to the growing body of evidence that laparoscopic and endoscopic skills are complementary and has the potential to impact simulation training involving both skill sets.

Identification of Warning Signs During Selection of Surgical Trainees

OBJECTIVE

The aim was to document empirical observations about antecedents to and practices of unsuitable behaviours amongst surgical trainees and develop an interview guide that could be used for the selection process.

DESIGN

A mixed methods design was adopted combining a survey distributed to senior surgeons and heads of departments, followed by semi-structured interviews with experienced surgeons.

SETTING

All surgical departments and hospitals in The South Swedish Health Care Region.

PARTICIPANTS

The survey was completed by 54 of 83 eligible surgeons above 50years of age, and 4 of 7 heads of surgical departments. Semi-structured interviews with 13 surgeons representing local, regional, and university hospitals from the same cohort.

RESULTS

Forty-six (85%) surgeons and four of seven heads of departments responded that they had come across surgical trainees deemed unsuitable to train and work as a surgeon. All heads of department and 31 of 54 of the surgeons believed tendencies towards unsuitability are evident early during training. From the survey, 107 statements described reasons for finding a trainee unsuitable. Qualitative analysis of the interviews and free-text answers of the survey led to identification of 11 problem domains with associated "warning signs". An interview guide to help detect unsuitability tendencies in candidates during selection procedures was constructed.

CONCLUSIONS

Experienced surgeons have quite consistent views on what makes a person unsuitable as a surgeon. Their views have been systematized into 11 problem domains, and a set of 'warning signs' for unsuitable behaviours and traits has been developed. Early detection of these signs and traits is important for the individual, the work environment, and patient safety. A recommendation for a minimum framework for selection including the constructed interview guide is presented.