TECHAB-TKR is a web-based clinical decision support system that seamlessly integrates patient performance data, patient-reported outcomes, and clinician insights into sophisticated algorithms designed for exercise prescription and progression during post-total knee replacement rehabilitation. The technology generates customized dosage recommendations based on recovery stages and care settings while monitoring metrics such as compliance, range of motion, and pain levels. It further includes an alert component to promptly identify any deviations from prescribed practices and automatically creates progress reports for coordinated communication among care managers, surgeons, physical therapists, patients, and payers.
Description
What differentiates this platform is its comprehensive, evidence-based approach that spans the entire care continuum—from pre-surgery to the 90-day post-surgery period. Unlike traditional rehabilitation applications that mainly focus on exercise tracking, this system integrates multi-source clinical data with advanced decision-making algorithms to dynamically adjust care protocols. Its sophisticated risk assessment and real-time communication capabilities ensure targeted interventions and improved patient outcomes while addressing gaps in coordination and compliance that have long challenged standard rehabilitation processes.
Applications
- TKR rehabilitation management
- Clinical decision support
- Risk stratification alerts
- Multi-stakeholder coordination
- Performance metric monitoring
Advantages
- Tailored, evidence-based exercise prescriptions that adapt to the patient’s recovery stage and care setting.
- Seamless integration of patient performance data, patient-reported outcomes, and clinical assessments.
- Real-time risk identification with targeted interventions for high-risk patients.
- Continuous quality control through monitoring of compliance, range of motion, and pain levels.
- Automated, multi-stakeholder communication and progress reporting to enhance care coordination.
- Optimized rehabilitation outcomes that can potentially reduce overall healthcare costs.
IP Status
Software
