Advancing Spine Surgery: Innovations for Spatial Computing Integration

Abstract

Spine surgery is experiencing a paradigm shift based on a drive toward integration of spatial computing, artificial intelligence (AI), and advanced imaging technologies. This review provides an overview of the necessary innovations across the clinical spine surgery workflow to facilitate a successful technological ecosystem for spatial computing in spine surgery. The authors conducted a literature review of recent advancements in spine surgery from 2013 to 2024, focusing on studies that highlight the infrastructural development needed to implement spatial computing in spine surgery. Significant innovations were identified in several key areas: (1) advanced diagnostic tools, including AI-enhanced physical examinations and automated radiological interpretation; (2) improved imaging protocols optimized for 3D reconstructions; (3) enhanced preoperative planning utilizing virtual reality and patient-specific simulations; (4) pathology-specific applications of spatial computing and AI; (5) intraoperative assistance through augmented reality navigation and AI-powered tissue differentiation; (6) optimized postoperative care and rehabilitation using continuous monitoring systems and personalized AI-driven programs; and (7) improved long-term outcome tracking with smart wearables and predictive modeling. Overall, the integration of spatial computing, AI, and advanced imaging techniques offers unprecedented opportunities to enhance precision, personalization, and outcomes in spine surgery. However, challenges remain, particularly with respect to clinical validation, cost-effectiveness, and ethical considerations. As these technologies continue to evolve, ongoing research and interdisciplinary collaboration will be crucial to realizing their full potential in improving patient care.

Keywords: Artificial intelligence; Augmented reality; Digital twin; Personalized medicine; Spatial computing; Spine surgery; Virtual reality.