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We are committed to translating brain and muscle science into brain+muscle training that leads to independence

Occupational Therapy



 Our SynPhNe Learning Model 


Our SynPhNe™ Learning Model is adapted from the scientific principles of developmental biology and modern neuroscience. It leverages the training principles of mainstream therapy, postural alignment and energy management, including some based on techniques of yoga and martial arts.

Our technology works with the most fundamental and measurable signals that our brain and muscles give out (EEG & SEMG signals). This allows us to see what underlying neurological and physiological issues driving our symptoms, behaviors and experience are in real-time, thus enabling us to effectively and efficiently tackle them head-on. Because SynPhNe can track “micro-changes” in brain and muscle activities, SynPhNe can help break out of “plateaus”. 


Our SynPhNe™ wearable technology increases the chances of recovery by mimicking how a human baby learns in the first few months after birth, when neuroplasticity is at its most efficient.

Click here to learn more about our four SynPhNe™ flagship programs that are specially designed for Neurological Disabilities, Learning Difficulties, Effects of Ageing and Chronic Stress & Pain. 

2019 - 2016

 Our Publications 


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Open Notebook

Restoring Independent Living after Disability Using a Wearable Device: A Synergistic Physio-Neuro Approach to Leverage Neuroplasticity. In Assistive and Rehabilitation Engineering. 

Banerji, S., Heng, J., Chew, E., Wee Keong Kuah, C., Zhao, L., Yan Ming, S., Menezes, D., Ponnusamy, P. (2019)

Assistive and Rehabilitation Engineering, IntechOpen


Rebooting Infant Learning Using the Synphne Device: A Solution for Children with Reading and Comprehension Challenges

Banerji, S., Heng, J., Gerken, S., Wi, D., Horn, J., Robertson, V., Ducasse, L., Menezes, D., Sundar, N., Ponnusamy, P. (2019)

Rehab Week 2019, Canada


Real-Time Simultaneous Agonist and Antagonist EMG Feedback in Upper Limb Rehabilitation of Chronic Stroke Patients.

Banerji, S., Heng, J., Kuah, C., Yan Ming, S., Menezes, D., Ponnusamy, P. (2018)

10th World Congress for Neurorehabilitation, India


Real-Time, Simultaneous Agonist and Antagonist Electromyography (EMG) Feedback in Upper Limb Rehabilitation of Chronic Stroke Patients

Menezes, D., Banerji, S., Heng, J., Kuah, C., Ponvignesh, P. (2018)

World Conference of Neurorehabilitation


Self-Regulating Brain and Muscle Activity Simultaneously to Minimize Non-Obvious, Compensatory Tendencies During Stroke Rehabilitation: A Randomized Clinical Study

Menezes, D., Banerji, S., Heng, J., Banerjee, A., Ponvignesh, P. (2018)

World Conference of Neurorehabilitation

 Trailblazing Research 

We support trailblazing brain and muscle research that are aligned with our mission and vision.

Are you a researcher interested in collaborating with us?

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