A Singapore-based medical healthcare company specializing in R&D for physioneuro software solutions, focusing on stroke rehabilitation via mind-body paradigms. The client operates therapy centers across major Indian cities and
sought to leverage real-time attention-muscle coordination technology to enhance neuroplasticity outcomes.
The client faced three core challenges in translating their research into
clinical application:
• Required real-time processing of analog EEG/EMG signals (≤70mV) from
8 head/arm sensors into digital data.
• Needed advanced DSP expertise for time-domain filtering and sampling.
• No unified platform for therapists to prescribe exercises or track progress using neuroscience principles.
•Patients lacked guided rehabilitation tools.
• Decentralized patient records hindered progress analysis.
•No secure synchronization for therapy data across clinics.
MicroGenesis helped to develop a precision scientific application combining
hardware integration, real-time analytics, and clinical workflow management:
8 sensors attached to the patient's head/arm captured EEG/EMG signals during therapy sessions.
Analog signals → Sampled via a circuit → Time-domain filtered → Stored in SQLite (lightweight DB).
Rendered millions of data points into high-accuracy real-time graphs for therapist analysis.
• Session Planning Module: Prescribe personalized exercises.
• Reporting: Track patient progress via real-time dashboards.
• Play Module: Guided rehabilitation exercises with real-time
biofeedback.
• Learn to Play Module: Training for home-based therapy.
Secure cloud integration for patient records, subscriptions, and therapy history.
WPF (C#/XAML) for high-performance desktop deployment.
• Simulators for device-free testing.
• Cross-platform portability (clinics or home laptops).
MicroGenesis helped with transformative outcomes in stroke rehabilitation:
End-to-end solution for consultation, prescription, progress tracking, and reporting-reducing manual oversight.
Secure, scalable repositories for users across clinics, enabling unified treatment planning.
Patients could train remotely via a portable Windows application, increasing adherence.