"Disruptive Technology" in Spine Surgery and Education: Virtual and Augmented Reality

Overview

Journal Oper Neurosurg (Hagerstown)

Specialty Neurosurgery

Date 2021 Jun 15

PMID 34128065

Citations 12

Authors

Jakub Godzik

S Harrison Farber

Timur Urakov

Jeremy Steinberger

Liza J Knipscher

Ryan B Ehredt

Luis M Tumialan

Juan S Uribe

Affiliations

Soon will be listed here.

Abstract

Background: Technological advancements are the drivers of modern-day spine care. With the growing pressure to deliver faster and better care, surgical-assist technology is needed to harness computing power and enable the surgeon to improve outcomes. Virtual reality (VR) and augmented reality (AR) represent the pinnacle of emerging technology, not only to deliver higher quality education through simulated care, but also to provide valuable intraoperative information to assist in more efficient and more precise surgeries.

Objective: To describe how the disruptive technologies of VR and AR interface in spine surgery and education.

Methods: We review the relevance of VR and AR technologies in spine care, and describe the feasibility and limitations of the technologies.

Results: We discuss potential future applications, and provide a case study demonstrating the feasibility of a VR program for neurosurgical spine education.

Conclusion: Initial experiences with VR and AR technologies demonstrate their applicability and ease of implementation. However, further prospective studies through multi-institutional and industry-academic partnerships are necessary to solidify the future of VR and AR in spine surgery education and clinical practice.

Citing Articles

Ergonomic strategies for Digital Occupational Health: Preparing for the oncoming wave of technological innovation.

Tani N, Yamaguchi C, Tsunemi M, Fujihara H, Ishii K, Kamakura Y Environ Occup Health Pract. 2025; 6(1).

PMID: 40061365 PMC: 11841802. DOI: 10.1539/eohp.2023-0028-CT.

Framework for Adoption of Enabling Technologies for Improved Outcomes in Spine Surgery.

Muthu S, Ramasubramanian S, Jeyaraman M, Hartl R, Tavakoli J, Cho S Global Spine J. 2025; :21925682251323277.

PMID: 39977347 PMC: 11843566. DOI: 10.1177/21925682251323277.

Augmented Reality Navigation System Enhances the Accuracy of Spinal Surgery Pedicle Screw Placement: A Randomized, Multicenter, Parallel-Controlled Clinical Trial.

Ma Y, Wu J, Dong Y, Tang H, Ma X Orthop Surg. 2025; 17(2):631-643.

PMID: 39815419 PMC: 11787979. DOI: 10.1111/os.14295.

Exploration of the application of augmented reality technology for teaching spinal tumor's anatomy and surgical techniques.

Liu S, Yang J, Jin H, Liang A, Zhang Q, Xing J Front Med (Lausanne). 2024; 11:1403423.

PMID: 39050543 PMC: 11266009. DOI: 10.3389/fmed.2024.1403423.

Evolution of the meta-neurosurgeon: A systematic review of the current technical capabilities, limitations, and applications of augmented reality in neurosurgery.

Sharma N, Mallela A, Khan T, Canton S, Kass N, Steuer F Surg Neurol Int. 2024; 15:146.

PMID: 38742013 PMC: 11090549. DOI: 10.25259/SNI_167_2024.