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Finger Prostheses
More Digits for Less Digits
Dextera
For the index, middle, and ring fingers, this product is designed for individuals with an amputation at the proximal phalange level.
The prosthesis is completely body-powered, as the mechanism is driven by the flexion of the proximal phalange, creating an artificial PIP and DIP joint.
This device allows users to regain dexterity and grip strength, and enables them to achieve better control during everyday tasks like grasping, holding, or manipulating objects. Additionally, the product restores length and protects the residual limb.
Dextera Mini
For the little finger, this product is designed for individuals with an amputation at the proximal phalange level.
The prosthesis is completely body-powered, as the mechanism is driven by the flexion of the proximal phalange, creating only an artificial DIP joint.
This device allows users to regain dexterity and grip strength, and enables them to achieve better control during everyday tasks like grasping, holding, or manipulating objects. Additionally, the product restores length proportionately, and protects the residual limb.
Upcoming Products
Dextera Primus
This product is designed for individuals with an amputation at the proximal phalange level of the thumb. The mechanism is driven by the flexion of the proximal phalange to create an artificial DIP joint of the thumb. Additionally, the product restores length, and enhances the fine dexterity and grip strength of the overall hand.
Dextera Twin
This product is designed for individuals with an amputation at the metacarpal level, where there is no residual proximal phalange remaining to actuate the mechanism. The mechanism is driven by the flexion and extension of an adjacent intact finger. The prosthetic finger moves in unison, and restores the full length from the MCP joint.
Intermediate Phalange Driven
This product is designed for individuals with an amputation at the intermediate phalange level.
The mechanism is driven by the flexion of the middle phalange, creating an artificial DIP joint. Additionally, the product restores length, and provides protection to the residual limb.
Proximal Phalange Driven
This product is designed for individuals with an amputation at the proximal phalange level.
The mechanism is driven by the flexion of the proximal phalange, creating an artificial PIP & DIP joint. Additionally, the product restores length, and provides protection to the residual limb.
Thumb Proximal Phalange Driven
This product is designed for individuals with an amputation at the proximal phalange level of the thumb. The mechanism is driven by the flexion of the proximal phalange to create an artificial DIP joint of the thumb. Additionally, the product restores length, and enhances the fine dexterity and grip strength of the overall hand.
Adjacent Phalange Driven
This product is designed for individuals with an amputation at the metacarpal level, where there is no residual proximal phalange remaining to actuate the mechanism. The mechanism is driven by the flexion and extension of an adjacent intact finger. The prosthetic finger moves in unison, and restores the full length from the MCP joint.
Transradial Prosthesis
Split Hook Terminal Device
Designed to achieve intuitive body-powered control, this terminal device is intended to be used with a Figure-8 harness for individuals with trans-radial amputations. The device features polymer-coated grip surfaces to enhance dexterity. Grip force is regulated by controlling the number of supplied rubber bands installed onto the device.
Adjustable Transradial Socket
Enabling unprecedented levels of design standardization in the prosthetics sector, this prosthetic socket can be customized independently by the end user to provide the most comfortable fit, without the need for clinical visits for casting. The product is designed to be flexible, and is infused with photosensitive epoxy resin, which is cured under exposure to light to harden the polymer, creating a permanent socket.
We aim to utilize the latest technologies, such as additive manufacturing, from the rapid prototyping stage through to the finished product, enabling us to offer increasingly accessible price points.
Novel processes enable us to quickly refine and test various ideas and iterations. They additionally enable us to provide custom solutions with faster turnaround times.