Tracking and evaluating motion skills in laparoscopy with inertial sensors

Context The Internet of Things (IoT) has emerged as a promising technology with the potential to transform medical professional training and education. IoT refers to a network of physical items that are embedded with sensors, software, and connections that exchange data via the Internet. IoT provides the possibility of merging electronic health records, medical devices, and wearable technologies to create an interactive learning environment in medical education. Objectives The current study's goal was to identify and map current IoT advancements in medicine by conducting a systematic mapping review of the existing research on IoT in medical education. It intends to provide answers to major research question, such as trends and activities in IoT development in medical education. Methods Following PRISMA-ScR guidelines, a systematic mapping review was conducted in major online scientific databases such as Web of Science, Scopus, PubMed, and IEEE Xplore up to end of 2022 to identify empirical studies related to IoT and medical education. A total of 199 papers were found, from which 24 were ultimately selected based on particular inclusion/exclusion criteria. Results While the majority of medical IoT research are conducted across a network of twelve different countries, the United States has emerged as the leader in developing IoT systems for medical education. The dynamic potential of IoT devices and sensors in medical education included areas such as activity monitoring, physiological monitoring, data collecting, and simulation. In medical education, IoT applications include surgical training, non-surgical teaching, and resident monitoring. Conclusions The study findings highlight the importance of further research efforts aimed at addressing challenges and unlocking the full array of benefits IoT has to offer in medical education. It is expected that these discoveries will catalyze interest among medical education leaders and policymakers, encouraging them to explore the promising horizons of wearable technology and IoT applications in medical education, ultimately leading to enhanced educational outcomes and practices.

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Enhanced 2D Hand Pose Estimation for Gloved Medical Applications: A Preliminary Model

Kiefer,

Willoughby,

MacPherson

et al. 2024

Sensors

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(1) Background: As digital health technology evolves, the role of accurate medical-gloved hand tracking is becoming more important for the assessment and training of practitioners to reduce procedural errors in clinical settings. (2) Method: This study utilized computer vision for hand pose estimation to model skeletal hand movements during in situ aseptic drug compounding procedures. High-definition video cameras recorded hand movements while practitioners wore medical gloves of different colors. Hand poses were manually annotated, and machine learning models were developed and trained using the DeepLabCut interface via an 80/20 training/testing split. (3) Results: The developed model achieved an average root mean square error (RMSE) of 5.89 pixels across the training data set and 10.06 pixels across the test set. When excluding keypoints with a confidence value below 60%, the test set RMSE improved to 7.48 pixels, reflecting high accuracy in hand pose tracking. (4) Conclusions: The developed hand pose estimation model effectively tracks hand movements across both controlled and in situ drug compounding contexts, offering a first-of-its-kind medical glove hand tracking method. This model holds potential for enhancing clinical training and ensuring procedural safety, particularly in tasks requiring high precision such as drug compounding.

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Tracking and evaluating motion skills in laparoscopy with inertial sensors

Cited by 3 publications

References 23 publications

A Low-Cost, Moderately Fast System for Online Motion Tracking in Laparoscopic Surgery Training

A Low-Cost, Moderately Fast System for Online Motion Tracking in Laparoscopic Surgery Training

Internet of Things in Medical Education: A Systematic Mapping Review

Enhanced 2D Hand Pose Estimation for Gloved Medical Applications: A Preliminary Model

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