Revolutionizing Orthopedic Care: The Impact of AI in Predictive Analysis, Surgical Precision, and Personalized Rehabilitation

• Amit Lakhani*

Abstract

Artificial intelligence (AI) is transforming the field of orthopedics, significantly impacting predictive analysis, surgical management, and rehabilitation programs. This review explores the multifaceted role of AI in enhancing orthopedic care, focusing on its application in personalized treatment plans, surgical precision, and remote rehabilitation. Predictive analytics in orthopedics, powered by AI, have revolutionized preoperative planning by forecasting surgical outcomes and potential complications, enabling clinicians to tailor surgical strategies to individual patient needs. AI's integration into surgical procedures, particularly in robotics-assisted and minimally invasive surgeries, has enhanced precision, reduced operative times, and improved patient safety, resulting in faster recovery and better outcomes. AI-driven rehabilitation programs offer personalized exercise regimens, real-time feedback, and remote monitoring, making high-quality rehabilitation accessible to patients regardless of location. These applications adapt to individual patient progress, providing customized exercise plans that optimize recovery while minimizing the risk of reinjury. Additionally, AI-powered rehabilitation tools enhance patient engagement through gamification and interactive features, leading to higher adherence to rehabilitation protocols. The review highlights key studies demonstrating the efficacy of AI in these areas, underscoring its potential to revolutionize orthopedic care. By leveraging AI's capabilities, clinicians can provide more accurate diagnoses, implement effective surgical interventions, and offer personalized rehabilitation solutions, ultimately improving patient outcomes and quality of life. As AI technology continues to advance, its role in orthopedics is expected to expand, offering increasingly innovative and effective solutions for both surgical and non-surgical patient care.

Keywords

Artificial Intelligence (AI); Orthopedics; Predictive Analytics; Surgical Management; Robotics-Assisted Surgery ; Telemedicine Patient Outcomes Remote Monitoring