We use additive manufacturing to rapidly prototype, test and iterate medical-grade components — reducing waste, accelerating design, and customizing devices for real patient needs.
Explore the building blocks behind Somanity’s unique approach to medical device innovation.
Each solution is designed to serve real patients, clinicians and care environments.
Hours in R&D
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Modular technology bricks
We design all our devices using interchangeable modules that can be adapted, upgraded, or recombined to suit various rehab contexts. From passive systems to powered gait assistance — all follow a shared platform logic.
3D Printing for fast iteration
We use in-house additive manufacturing to accelerate our R&D cycle, reduce waste and personalize every part — from joint braces to structural elements.
Frugal design & repairability
No over-engineering. We believe in accessible tech, with off-the-shelf components, mechanical simplicity, and easy maintenance — to ensure scale.
Low-carbon engineering
Our systems are lightweight, energy-efficient, and designed with recyclability in mind — a response to the growing environmental cost of healthcare.
Biomechanical intelligence
We use real joint behavior and movement capture data to match muscle engagement with assistive dynamics. Each support system respects the natural motion and therapy rhythm of the user.
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At Somanity, we don’t innovate in isolation.
Each technological choice is backed by biomechanics, neuro-rehab research, and real-world feedback from clinicians and patients. From university labs to rural rehab centers, we test, learn and adapt continuously.
Whether it’s validating elastic force levels, testing AI gait recognition, or tuning passive assistance to match muscle fatigue — our work is grounded in the real.
functional prototypes
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academic partners: neuroscience & rehab labs
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Science
- Standardized mechanical interfaces for shared compatibility
- Rapid development of new configurations (mono-joint, full-body, gait assist)
- Plug & play modules adaptable to patient needs
- CAD-ready components for 3D-printed refinement
- Internal prototyping powered by additive manufacturing
- Field validation with therapists & patients
- Upgrade-ready designs (elastic to active support)
- In-house testing of usability, durability and safety
- Workshops with clinicians for iterative improvement