Application of Transformer Architectures in Generative Video Modeling for Neurosurgical Education

Overview

Journal Int J Comput Assist Radiol Surg

Publisher Springer

Specialties General Surgery
Radiology

Date 2024 Sep 13

PMID 39271572

Authors

Aaron Lawson McLean

Felipe Gutierrez Pineda

Affiliations

Soon will be listed here.

Abstract

Purpose: This article explores the potential impact of OpenAI's Sora, a generative video modeling technology, on neurosurgical training. It evaluates how such technology could revolutionize the field by providing realistic surgical simulations, thereby enhancing the learning experience and proficiency in complex procedures for neurosurgical trainees.

Methods: The study examines the incorporation of this technology into neurosurgical education by leveraging transformer architecture and processing of video and image data. It involves compiling a neurosurgical procedure dataset for model training, aiming to create accurate, high-fidelity simulations.

Results: Our findings indicate significant potential applications in neurosurgical training, including immersive simulations for skill development and exposure to diverse surgical scenarios. The technology also promises to transform assessment and feedback, introducing a standardized, objective way to measure and improve trainee competencies.

Conclusion: Integrating generative video modeling technology into neurosurgical education marks a progressive step toward enhancing training methodologies. Despite challenges in technical, ethical, and practical domains, continuous development and evaluation could lead to substantial advancements in surgical education, preparing neurosurgeons more effectively for their demanding roles.

Citing Articles

Generative artificial intelligence in graduate medical education.

Janumpally R, Nanua S, Ngo A, Youens K Front Med (Lausanne). 2025; 11:1525604.

PMID: 39867924 PMC: 11758457. DOI: 10.3389/fmed.2024.1525604.

OpenAI's Sora and Google's Veo 2 in Action: A Narrative Review of Artificial Intelligence-driven Video Generation Models Transforming Healthcare.

Temsah M, Nazer R, Altamimi I, Aldekhyyel R, Jamal A, Almansour M Cureus. 2025; 17(1):e77593.

PMID: 39831180 PMC: 11741145. DOI: 10.7759/cureus.77593.

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