Search

Your search keyword '"Taseen F. Haque"' showing total 14 results
Start Over Author "Taseen F. Haque"
14 results on '"Taseen F. Haque"'

1. Human visual explanations mitigate bias in AI-based assessment of surgeon skills

Author

Dani Kiyasseh, Jasper Laca, Taseen F. Haque, Maxwell Otiato, Brian J. Miles, Christian Wagner, Daniel A. Donoho, Quoc-Dien Trinh, Animashree Anandkumar, and Andrew J. Hung

Subjects
Computer applications to medicine. Medical informatics, R858-859.7
Abstract

Abstract Artificial intelligence (AI) systems can now reliably assess surgeon skills through videos of intraoperative surgical activity. With such systems informing future high-stakes decisions such as whether to credential surgeons and grant them the privilege to operate on patients, it is critical that they treat all surgeons fairly. However, it remains an open question whether surgical AI systems exhibit bias against surgeon sub-cohorts, and, if so, whether such bias can be mitigated. Here, we examine and mitigate the bias exhibited by a family of surgical AI systems—SAIS—deployed on videos of robotic surgeries from three geographically-diverse hospitals (USA and EU). We show that SAIS exhibits an underskilling bias, erroneously downgrading surgical performance, and an overskilling bias, erroneously upgrading surgical performance, at different rates across surgeon sub-cohorts. To mitigate such bias, we leverage a strategy —TWIX—which teaches an AI system to provide a visual explanation for its skill assessment that otherwise would have been provided by human experts. We show that whereas baseline strategies inconsistently mitigate algorithmic bias, TWIX can effectively mitigate the underskilling and overskilling bias while simultaneously improving the performance of these AI systems across hospitals. We discovered that these findings carry over to the training environment where we assess medical students’ skills today. Our study is a critical prerequisite to the eventual implementation of AI-augmented global surgeon credentialing programs, ensuring that all surgeons are treated fairly.

Published
2023
Full Text
View/download PDF

2. A multi-institutional study using artificial intelligence to provide reliable and fair feedback to surgeons

Author

Dani Kiyasseh, Jasper Laca, Taseen F. Haque, Brian J. Miles, Christian Wagner, Daniel A. Donoho, Animashree Anandkumar, and Andrew J. Hung

Subjects
Medicine
Abstract

Kiyasseh et al. compare the quality of feedback provided to surgeons by artificial intelligence (AI) to that provided by human experts. Teaching an AI system to explicitly follow human explanations improves the reliability and reduces the bias of AI-based feedback.

Published
2023
Full Text
View/download PDF

4. Tranexamic Acid and Prothrombotic Complications Following Total Hip and Total Knee Arthroplasty: A Population-Wide Safety Analysis Accounting for Surgeon Selection Bias

Author

Nathanael D. Heckmann, Taseen F. Haque, Amit S. Piple, Cory K. Mayfield, Gabriel J. Bouz, Lucas W. Mayer, Daniel A. Oakes, Jay R. Lieberman, and Alexander B. Christ

Subjects
Orthopedics and Sports Medicine
Abstract

Tranexamic acid (TXA) utilization during total joint arthroplasty (TJA) has become ubiquitous. However, concerns remain regarding the risk of thrombotic complications. The goal of this study was to examine the risk of prothrombotic complications in patients who received TXA during total knee (TKA) and total hip arthroplasty (THA).The Premier Healthcare Database was queried for patients who underwent elective TJA. TXA utilization trends were described from 2008 to 2020. Two analyses were performed using ICD-10 codes from 2016 to 2020: (1) patients who received TXA compared to patients who did not receive TXA and, (2) to account for surgeon selection bias, patients whose surgeon utilized TXA consistently (≥90% of cases) compared to patients whose surgeons used TXA infrequently (≤30% of cases). Multivariate and instrumental variable analyses (IVA) were performed to assess outcomes while accounting for confounding factors. TXA utilization increased from 0.1% of cases in 2008 to 89.2% in 2020. From 2016 to 2020, 1,120,858 TJAs were identified (62.1% TKA, 27.9% THA), of which 874,627 (78.0%) received TXA.Patients who received TXA were at lower risk of prothrombotic (adjusted Odds Ratio (aOR) 0.82, P.001), bleeding (aOR 0.75, P.001), and infectious complications (aOR 0.91, P0.001). Furthermore, patients who underwent surgery from surgeons who utilized TXA consistently were at lower risk for prothrombotic (aOR 0.90, P.001) and bleeding (aOR 0.72, P.001) complications.The widespread utilization of TXA during elective TJA was not associated with increased rates of prothrombotic complications. These findings persisted after accounting for surgeon selection bias.Level III.

Published
2023

5. A vision transformer for decoding surgeon activity from surgical videos

Author

Dani Kiyasseh, Runzhuo Ma, Taseen F. Haque, Brian J. Miles, Christian Wagner, Daniel A. Donoho, Animashree Anandkumar, and Andrew J. Hung

Subjects
Biomedical Engineering, Medicine (miscellaneous), Bioengineering, Computer Science Applications, Biotechnology
Abstract

The intraoperative activity of a surgeon has substantial impact on postoperative outcomes. However, for most surgical procedures, the details of intraoperative surgical actions, which can vary widely, are not well understood. Here we report a machine learning system leveraging a vision transformer and supervised contrastive learning for the decoding of elements of intraoperative surgical activity from videos commonly collected during robotic surgeries. The system accurately identified surgical steps, actions performed by the surgeon, the quality of these actions and the relative contribution of individual video frames to the decoding of the actions. Through extensive testing on data from three different hospitals located in two different continents, we show that the system generalizes across videos, surgeons, hospitals and surgical procedures, and that it can provide information on surgical gestures and skills from unannotated videos. Decoding intraoperative activity via accurate machine learning systems could be used to provide surgeons with feedback on their operating skills, and may allow for the identification of optimal surgical behaviour and for the study of relationships between intraoperative factors and postoperative outcomes.

Published
2023

6. Tailored Feedback Based on Clinically Relevant Performance Metrics Expedites the Acquisition of Robotic Suturing Skills—An Unblinded Pilot Randomized Controlled Trial

Author

Runzhuo Ma, Ryan S. Lee, Jessica H. Nguyen, Andrew Cowan, Taseen F. Haque, Jonathan You, Sidney I. Roberts, Steven Cen, Anthony Jarc, Inderbir S. Gill, and Andrew J. Hung

Subjects
Male, Benchmarking, Robotic Surgical Procedures, Urology, Humans, Computer Simulation, Pilot Projects, Clinical Competence, Feedback
Abstract

Previously, we identified 8 objective suturing performance metrics highly predictive of urinary continence recovery after robotic-assisted radical prostatectomy. Here, we aimed to test the feasibility of providing tailored feedback based upon these clinically relevant metrics and explore the impact on the acquisition of robotic suturing skills.Training surgeons were recruited and randomized to a feedback group or a control group. Both groups completed a baseline, midterm and final dry laboratory vesicourethral anastomosis (VUA) and underwent 4 intervening training sessions each, consisting of 3 suturing exercises. Eight performance metrics were recorded during each exercise: 4 automated performance metrics (derived from kinematic and system events data of the da Vinci® Robotic System) representing efficiency and console manipulation competency, and 4 suturing technical skill scores. The feedback group received tailored feedback (a visual diagram+verbal instructions+video examples) based on these metrics after each session. Generalized linear mixed model was used to compare metric improvement (Δ) from baseline to the midterm and final VUA.Twenty-three participants were randomized to the feedback group (11) or the control group (12). Demographic data and baseline VUA metrics were comparable between groups. The feedback group showed greater improvement than the control group in aggregate suturing scores at midterm (mean Δ feedback group 4.5 vs Δ control group 1.1) and final VUA (Δ feedback group 5.3 vs Δ control group 4.9). The feedback group also showed greater improvement in the majority of the included metrics at midterm and final VUA.Tailored feedback based on specific, clinically relevant performance metrics is feasible and may expedite the acquisition of robotic suturing skills.

Published
2022

8. Artificial Intelligence Applications in Urology

Author

Giovanni Cacciamani, Andrew J. Hung, Andrew B. Chen, Prokar Dasgupta, Sidney Roberts, Sirisha Rambhatla, and Taseen F. Haque

Subjects
medicine.medical_specialty, business.industry, Urology, Deep learning, media_common.quotation_subject, Checklist, Literacy, Readability, Fluency, Workforce, medicine, Generalizability theory, Artificial intelligence, Applications of artificial intelligence, business, media_common
Abstract

The growth and adoption of artificial intelligence has led to impressive results in urology. As artificial intelligence grows more ubiquitous, it is important to establish artificial intelligence literacy in the workforce. To this end, we present a narrative review of the literature of artificial intelligence and machine learning in urology and propose a checklist of reporting standards to improve readability and evaluate the current state of the literature. The listed article demonstrated heterogeneous reporting of methodologies and outcomes, limiting generalizability of research. We hope that this review serves as a foundation for future evaluation of medical research in artificial intelligence.

Published
2022

9. An Assessment Tool to Provide Targeted Feedback to Robotic Surgical Trainees: Development and Validation of the End-To-End Assessment of Suturing Expertise (EASE)

Author

Taseen F. Haque, Alvin Hui, Jonathan You, Runzhuo Ma, Jessica H. Nguyen, Xiaomeng Lei, Steven Cen, Monish Aron, Justin W. Collins, Hooman Djaladat, Ahmed Ghazi, Kenneth A. Yates, Andre L. Abreu, Siamak Daneshmand, Mihir M. Desai, Alvin C. Goh, Jim C. Hu, Amir H. Lebastchi, Thomas S. Lendvay, James Porter, Anne K. Schuckman, Rene Sotelo, Chandru P. Sundaram, Inderbir S. Gill, and Andrew J. Hung

Subjects
Urology, Article
Abstract

PURPOSE: To create a suturing skills assessment tool that comprehensively defines criteria around relevant sub-skills of suturing and to confirm its validity. MATERIALS AND METHODS: 5 expert surgeons and an educational psychologist participated in a cognitive task analysis (CTA) to deconstruct robotic suturing into an exhaustive list of technical skill domains and sub-skill descriptions. Using the Delphi methodology, each CTA element was systematically reviewed by a multi-institutional panel of 16 surgical educators and implemented in the final product when content validity index (CVI) reached ≥0.80. In the subsequent validation phase, 3 blinded reviewers independently scored 8 training videos and 39 vesicourethral anastomoses (VUA) using EASE; 10 VUA were also scored using Robotic Anastomosis Competency Evaluation (RACE), a previously validated, but simplified suturing assessment tool. Inter-rater reliability was measured with intra-class correlation (ICC) for normally distributed values and prevalence-adjusted bias-adjusted Kappa (PABAK) for skewed distributions. Expert (≥100 prior robotic cases) and trainee (

Published
2022

10. MP10-17 DEVELOPMENT AND VALIDATION OF THE END-TO-END ASSESSMENT OF SUTURING EXPERTISE (EASE)

Author

Taseen F. Haque, Alvin Hui, Jonathan You, Runzhuo Ma, Steven Cen, Xiaomeng Li, Monish Aron, Justin W. Collins, Hooman Djaladat, Ahmed Ghazi, Kenneth A. Yates, Andre L. Abreu, Siamak Danseshmand, Mihir M. Desai, Alvin C. Goh, Jim C. Hu, Amir H. Lebastchi, Thomas S. Lendvay, James Porter, Anne K. Schuckman, Rene Sotelo, Chandru P. Sundaram, Jessica H. Nguyen, Inderbir Gill, and Andrew J. Hung

Subjects
Urology
Published
2022

11. Technical Skill Impacts the Success of Sequential Robotic Suturing Substeps

Author

Balint Der, Daniel I. Sanford, Steven Cen, Andrew J. Hung, Ryan Hakim, Taseen F. Haque, Jessiica Nguyen, and Runzhuo Ma

Subjects
Surgeons, Entry angle, Sutures, business.industry, Urology, education, Suture Techniques, Robotics, Robotic Surgical Procedures, Medicine, Training, Humans, Operations management, Clinical Competence, Technical skills, business
Abstract

Introduction: Robotic surgical performance, in particular suturing, has been associated with postoperative clinical outcomes. Suturing can be deconstructed into substep components (needle positioning, needle entry angle, needle driving, and needle withdrawal) allowing for the provision of more specific feedback while teaching suturing and more precision when evaluating suturing technical skill and prediction of clinical outcomes. This study evaluates if the technical skill required for particular substeps of the suturing process is associated with the execution of subsequent substeps in terms of technical skill, accuracy, and efficiency. Materials and Methods: Training and expert surgeons completed standardized sutures on the Mimic™ Flex virtual reality robotic simulator. Video recordings were deidentified, time annotated, and provided technical skill scores for each of the four suturing substeps. Hierarchical Poisson regression with generalized estimating equation was used to examine the association of technical skill rating categories between substeps. Results: Twenty-two surgeons completed 428 suturing attempts with 1669 individual technical skill assessments made. Technical skill scores between substeps of the suturing process were found to be significantly associated. When needle positioning was ideal, needle entry angle was associated with a significantly greater chance of being ideal (risk ratio [RR] = 1.12, p = 0.05). In addition, ideal needle entry angle and needle driving technical skill scores were each significantly associated with ideal needle withdrawal technical skill scores (RR = 1.27, p = 0.03; RR = 1.3, p = 0.03, respectively). Our study determined that ideal technical skill was associated with increased accuracy and efficiency of select substeps. Conclusions: Our study found significant associations in the technical skill required for completing substeps of suturing, demonstrating inter-relationships within the suturing process. Together with the known association between technical skill and clinical outcomes, training surgeons should focus on mastering not just the overall suturing process, but also each substep involved. Future machine learning efforts can better evaluate suturing, knowing that these inter-relationships exist.

Published
2022

13. PD58-07 TRANSFER OF SUTURING TECHNICAL SKILL ASSESSMENT SCORES BETWEEN VIRTUAL REALITY SURGICAL SIMULATION AND LIVE SURGERY

Author

Daniel I. Sanford, Andrew J. Hung, Runzhuo Ma, Alireza Ghoreifi, and Taseen F. Haque

Subjects
medicine.medical_specialty, business.industry, Urology, education, medicine, Surgical technical, Medical physics, Technical skills, Virtual reality, Surgical simulation, business
Abstract

INTRODUCTION AND OBJECTIVE:Surgical technical skill has been linked to post-operative clinical outcomes. Virtual reality (VR) simulators provide opportunities for training surgeons to learn fundame...

Published
2021

14. Reply by Authors

Author

Taseen F. Haque, Alvin Hui, Jonathan You, Runzhuo Ma, Jessica H. Nguyen, Xiaomeng Lei, Steven Cen, Monish Aron, Justin W. Collins, Hooman Djaladat, Ahmed Ghazi, Kenneth A. Yates, Andre L. Abreu, Siamak Daneshmand, Mihir M. Desai, Alvin C. Goh, Jim C. Hu, Amir H. Lebastchi, Thomas S. Lendvay, James Porter, Anne K. Schuckman, Rene Sotelo, Chandru P. Sundaram, Inderbir S. Gill, and Andrew J. Hung

Subjects
Urology
Published
2022

Catalog

Books, media, physical & digital resources
See catalog results