MAI Motion: Establishing its Use in Clinical Practice

Date Created: 06/03/2024
MAI Motion: Establishing its Use in Clinical Practice

At MSK Doctors, we are dedicated to advancing the field of musculoskeletal health through innovative technologies. One of our most groundbreaking tools is MAI Motion, an AI-driven motion analysis system. This article will guide clinicians on how MAI Motion can be integrated into clinical practice, highlighting its importance and benefits for patient assessment, injury management, and progress monitoring.

What is MAI Motion?

MAI Motion is a comprehensive system that uses AI to analyse human movement. By creating a digital twin of a patient's body, it allows clinicians to track and understand movement patterns with unprecedented accuracy. This technology is essential for providing a baseline set of results, which serves as a reference point for future assessments.

Why Establishing a Baseline is Crucial

Establishing a baseline in motion analysis is fundamental for several reasons:

  • Detecting Abnormalities: A baseline provides a reference for normal movement, making it easier to detect deviations that may indicate musculoskeletal issues.
  • Informed Treatment Decisions: By comparing current data to baseline measurements, clinicians can make informed decisions about the most effective treatment strategies.
  • Personalised Care: Understanding a patient’s unique movement patterns allows for personalised treatment plans that are tailored to their specific needs.

How MAI Motion Enhances Clinical Practice

Clinical Assessment: MAI Motion provides objective data on movement quality, helping clinicians to evaluate the biomechanics of patients accurately. This data is invaluable for diagnosing conditions, planning interventions, and tracking progress over time.

Management of Musculoskeletal Injuries: For patients with injuries, MAI Motion can identify abnormal movement patterns that might indicate compensatory behaviours or potential areas of concern. For example, in cases of concussion-related lower extremity injuries, motion analysis can reveal abnormal gait patterns that need to be addressed to prevent further injury.

Optimising Rehabilitation Protocols: Motion analysis data is crucial for designing and adjusting rehabilitation protocols. It helps in monitoring the effectiveness of treatments like kinesiology taping for pain management, ensuring that interventions are working as intended.

Benefits for Patients

Using MAI Motion in clinical practice offers numerous benefits for patients:

  • Objective Feedback: Patients receive clear, objective feedback on their progress. Visualising improvements in movement patterns can build confidence and motivation.
  • Enhanced Recovery: By tracking movement over time, clinicians can detect early signs of regression and adjust treatment plans accordingly, ensuring a smoother and more effective recovery process.
  • Reassurance: Seeing quantifiable improvements in their biomechanics can reassure patients that their treatment is working, fostering a collaborative relationship between them and their healthcare providers.

Real-World Applications

MAI Motion is not just theoretical; it has practical applications across various medical fields:

  • Orthopaedic Surgery: In surgeries such as ankle arthroplasty, motion analysis helps in pre-surgical planning and post-surgical monitoring. It provides insights into how well the surgery has preserved or improved movement.
  • Sports Medicine: Athletes benefit from detailed motion analysis, which helps in optimising performance and preventing injuries. By understanding their movement patterns, athletes can make adjustments to enhance their biomechanical efficiency.
  • Neuromuscular Disorders: For conditions like Parkinson’s or muscular dystrophy, MAI Motion helps monitor disease progression and the effectiveness of interventions, providing a clearer picture of how the disease impacts movement.


MAI Motion represents a significant advancement in the field of motion analysis, offering clinicians a powerful tool for assessing, managing, and monitoring musculoskeletal health. By establishing a baseline, tracking motion over time, and leveraging AI-driven insights, healthcare providers can enhance patient care, improve outcomes, and offer reassurance throughout the recovery journey.

Frequently Asked Questions

  1. What is MAI Motion? MAI Motion is an AI-driven system that creates a digital twin of a patient's movements, allowing for detailed analysis and monitoring of their biomechanics.
  2. Why is establishing a baseline important in motion analysis? A baseline provides a reference point for normal movement, helping to detect abnormalities, inform treatment decisions, and personalise care.
  3. How does MAI Motion improve clinical assessment? MAI Motion offers objective data on movement quality, aiding in accurate diagnosis, treatment planning, and progress tracking.
  4. What are the benefits of motion analysis in injury management? Motion analysis identifies abnormal movement patterns, informs rehabilitation protocols, and ensures treatments are effective, enhancing overall injury management.
  5. How does MAI Motion benefit patients? Patients receive objective feedback, enhanced recovery through monitored progress, and reassurance from seeing quantifiable improvements in their movement patterns.
  6. In what medical fields can MAI Motion be applied? MAI Motion is used in orthopaedic surgery, sports medicine, and for managing neuromuscular disorders, providing detailed insights into movement and aiding in effective treatment.

By integrating MAI Motion into clinical practice, MSK Doctors are leading the way in musculoskeletal health, providing clinicians with the tools they need to deliver precise, personalised, and effective care. For more information on how MAI Motion can benefit your practice, visit

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