Table of contents
- Market overview
- Computer vision adding value to traditional physical therapy
- Exploring telerehabilitation: Concept, techniques, and prospects
- Facilitating telerehabilitation by introducing computer technology
- Digital rehabilitation to improve patient experience & engagement
- Digital physiotherapy — what about regulatory compliance?
- How we can help
This post is a quick overview of an Abto Software’s blog article.
Physical therapy and rehabilitation are the critical components of value-added musculoskeletal treatment. These help purposefully approach lingering conditions (muscle strain, ligament strain, arthritis, tendinitis), sports injuries, and other related problems.
Posture assessment and analysis might guide individuals that undergo long-term musculoskeletal treatment. This has been done traditionally manually utilizing additional specialized equipment, targeted examinations, paper-based instructions, passive videos, and regular in-person appointments.
Not anymore — artificial intelligence is revolutionizing physical therapy and rehabilitation!
Modern technology, computer vision in particular, is transforming healthcare delivery by providing:
Accurate assessment
Personalized guidance and feedback
Data digitization and processing
Data sharing and storing
Market overview
During the COVID-19 pandemic, telehealth utilization has grown and shown to empower healthcare providers. Many professionals have claimed that innovation enabled personnel to deliver accurate and consistent services to patients while maintaining COVID-related restrictions.
In 2021, as shown by studies, telehealth adoption has stabilized at levels 38X higher than before the outbursts. Some changes that supported such transformation — for example, the expansion of reimbursement for such — have been made permanent, opening promising, future-proof opportunities.
Computer vision adding value to traditional physical therapy
Chronic conditions burden millions, and implementing movement recognition might show improved outcomes. Gold-standard approaches, including exhausting physical therapy, behavioral changes, in-person examinations, and others, are mostly quite inconvenient and inefficient.
Embracing innovation, healthcare professionals now incorporate motion assessment and analysis to eliminate bulky equipment and facilitate greater accuracy, among others.
Key benefits for mature healthcare providers
1,5–3X ROI
Saving up to 40% therapists’ hours per week
Up to 1,6X more patient admission by saving employee hours spent on in-person appointments
27% faster patient recovery, which facilitates brand reputation and drives patient reach
Which accelerate:
Business productivity
Risk management
Patient care and recovery
Customer satisfaction and loyalty
Key benefits for patients
More independence, easy review and tracking
Accurate assessment, appropriate diagnosing and treatment
Simple use, enhanced engagement and motivation
Ensured security
Which streamline:
Physical rehabilitation
Functional mobility
Injury prevention
Pain management
Exploring telerehabilitation: Concept, techniques, and prospects
By using sophisticated techniques, for example, feature extraction, posture estimation, activity assessment, pose detection can help to recognize and analyze human bodies in space without utilizing physical equipment. The technology can have major impact on how physical therapy is delivered.
Empowered through computer vision, which enables accurate assessment, real-time feedback, and guidance, pose estimation and analysis can eliminate excessive hardware and benefit both professionals and individuals. In brief, physical therapy and rehabilitation can be conveniently underdone at home.
Talking about markerless body pose detection, the concept is typically the following:
Data extraction — real-time or pre-recorded input is taken as the information source
Feature extraction — feature analysis and extraction
Motion detection — posture analysis through mapping or using other techniques
Movement analysis — pattern analysis through angle/velocity/acceleration/trajectory change tracking
Markerless body pose assessment and analysis might encompass different techniques:
Machine learning
Deep learning
Convolutional Neural Networks (CNN)
Temporal Convolutional Networks (TCN)
Graph Convolutional Networks (GCN)
Recurrent Neural Networks (RNN)
Single-person pose estimation
Multi-person pose estimation
Heatmap-based pose estimation
Skeleton-based pose estimation
Facilitating telerehabilitation by introducing computer technology
The benefits of telerehabilitation:
No intrusiveness — by introducing remote rehabilitation, clinicians eliminate specialized equipment, making sessions more comfortable
Optimized time and cost — by adopting virtual rehabilitation, providers optimize resource allocation, simplifying implementation and maintenance
Improved mobility — the patient can perform prescribed exercises without being physically restricted
Enhanced accessibility — the patient can access prescribed programs with no geographical barriers, meaning anytime and everywhere
The pitfalls to mention:
Limited accuracy — the technology may have some limitations when capturing complex moves
Environmental dependency — the technology is dependent on appropriate smartphone positioning, lighting conditions, background clutter, clothing variations, and other environmental factors
Digital rehabilitation to improve patient experience & engagement
Real-time feedback
Real-time feedback provides patients with informative visual and audio instructions, which supports:
Better understanding of the to-be-performed exercise
Immediate improvement to prevent potential injuries
Great encouragement and motivation
More satisfaction and adherence to the prescribed program
Greater accessibility
Greater accessibility associated with appointment availability, time, cost, and rescheduling can enable:
Convenient scheduling
Improved continuity
Reduced barriers and skipping
Increased adherence and outcomes
Virtual coaching and gamification
Virtual coaching and gamification provide guidance and support replacing human physiotherapy professionals. Interactive elements, including tracking, challenges, rewards, and feedback, might transform boring activities into interesting, enjoyable experiences.
Customizable programs
Customizable programs give patients the opportunity to take more control over their rehabilitation journey. These provide goal setting, performance monitoring, progress tracking, and other attractive features, facilitating engagement.
Digital physiotherapy — what about regulatory compliance?
Healthcare organizations must consider various requirements (HIPAA, GDPR) to ensure regulatory compliance. Healthcare companies are examined to ensure they’re taking appropriate measures to ensure patient safety, high-quality services, and anti-fraud.
Before providing technology-assisted services, business leaders must address:
Data privacy
Data security
Patient consent
Ethical considerations
How we can help
Abto Software delivers custom-designed, regulatory compliant healthcare products facilitating productivity. Our experts cover everything from consulting to deployment, as well as ongoing post-deployment maintenance to ensure business efficiency.
Discover promising business opportunities by implementing computer vision and boost your revenue!
Our projects:
AI supported jump recognition and analysis to improve MSK health at schools
CV empowered self-diagnosis application to enhance MSK therapy at home
Our services: