WALK for Parkinson’s Care WALK is a sensor-based wearable device which improves mobility for people living with Parkinson’s Disease. WALK an Indian, clinically validated wearable medical device helps people with Parkinson’s disease walk more safely and confidently. Using sensors, external movement cues, and a digital health platform for remote monitoring, the solution reduces walking interruptions, lowers fall risk, and enables continuous, personalised neurological care. . Solution Design and Implementation WALK was conceptualised as a non-invasive wearable that provides external sensory cues to interrupt freezing episodes and reinitiate gait. The device is worn on the lower legs and integrates accelerometers, gyroscopes, and inertial measurement units to continuously analyse walking patterns in real time. When gait irregularities associated with freezing—such as hesitation or disrupted step rhythm - are detected, the device delivers gentle rhythmic vibrations and mild electrical stimulation to the legs. These cues act as external triggers, helping the user resume coordinated movement. The wearable is supported by a smartphone application that allows patients to personalise therapy settings, monitor walking performance, and access guided physiotherapy exercises tailored for Parkinson’s disease. Complementing this is the Pathfinder cloud platform, which securely stores gait data and enables clinicians to remotely monitor patient progress, review patterns, and refine treatment protocols. This three-layer architecture - device, app, and cloud - supports continuous, personalised care beyond clinical settings. Clinical Validation and Regulatory Pathway The development of WALK followed a structured medical device lifecycle. Initial research began in 2018, with prototype development completed in 2021. The solution underwent iterative refinement through patient feedback and neurologist oversight. A critical milestone was achieving ISO 13485 certification, establishing compliance with international quality management standards for medical device manufacturing. Subsequently, Lifespark obtained a test licence from the Central Drugs Standard Control Organisation (CDSCO), enabling safety and efficacy testing. Devices were evaluated for biocompatibility, electrical safety, electromagnetic interference and compatibility, and compliance with IEC 60601 standards for medical electrical equipment. Following successful validation, the company received a full manufacturing licence for scaled production. Clinical trials were conducted at the National Institute of Mental Health and Neurosciences (NIMHANS), Bengaluru, under the guidance of neurology experts. In trials involving 20 Parkinson’s patients with freezing of gait, WALK demonstrated nearly a 50% reduction in freezing episodes within a single session, compared to no significant improvement with a sham device. These findings highlighted the device’s role as a complementary intervention alongside medication and physiotherapy. Impact and Outcomes To date, nearly 300 families across India have used WALK. Users have reported improved walking confidence, reduced fear of falls, greater independence in daily activities, and enhanced quality of life. Clinicians have noted improved balance, mobility, and patient engagement with therapy. Importantly, the device enables remote monitoring, reducing the need for frequent hospital visits and supporting continuity of care in resource-constrained settings. Strategic Relevance for India’s Healthcare System Wearable, sensor-driven assistive technologies like WALK demonstrate how indigenous innovation can address chronic disease management at scale. Parkinson’s disease is expected to rise with India’s ageing population, placing sustained pressure on neurological care services. Solutions that enable home-based rehabilitation, real-time monitoring, and clinician oversight can significantly reduce hospital load, improve patient safety, and enhance long-term outcomes. More broadly, WALK illustrates the potential of combining engineering, clinical science, and digital health platforms to strengthen India’s healthcare ecosystem. Such models can be extended to other movement disorders, post-stroke rehabilitation, and geriatric care. By supporting mobility, dignity, and independence, wearable medical technologies can play a critical role in advancing preventive, patient-centred, and technology-enabled healthcare across India. Source: WALK for Parkinson’s Care