SOFT ECoG™: A Brain Interface for Sub-chronic Use
This device can be used to read and write into the human brain, and can be used as a tool to explore brain functions.
SOFT ECoG™ is a family of subdural electrodes intended to be used for brain signal recording or stimulation intra-operatively or for up to 30 days. SOFT ECoG™ is built on our soft brain interface technology platform, providing unique mechanical properties like enhanced flexibility, conformability and stretchability to optimize the interface with the brain.
Leveraging our manufacturing processes borrowed from the semiconductor industry, we can provide a wide range of designs and dimensions, while also reducing the size and pitch of electrode arrays.
SOFT ECoG™ can be used for a wide range of sub-chronic applications such as the precise identification of epileptogenic brain tissue in drug-resistant epilepsy patients, or for mapping and monitoring of the brain surface during brain resection surgeries.
MINDZ™: Minimally Invasive Neuro Device
MINDZ™ is a Brain Interface that can be implanted on the brain surface using a minimally invasive deployment system. The system leverages the soft mechanical properties of Neurosoft’s technology that can be folded and unfolded in extreme form factors without damage to the device.
The first application of MINDZ™ will be to support the localization of epileptic foci for patients with drug resistant epilepsy. A minimally invasive system that can be inserted through a burr hole instead of a large craniotomy will reduce surgery time, recovery time and infection risk.
SOFT TINNIT™: The first Brain Interface to Treat Severe Tinnitus
We are leveraging our brain Interface technology to develop the first brain implantable system to treat severe tinnitus - a debilitating disorder significantly affecting the well-being and health of 120 million people worldwide.
SOFT TINNIT™ is a fully implantable closed-loop system that uniquely targets and neuromodulates specific areas of the brain with the aim of completely suppressing or significantly reducing the perceived ringing in patients.
Synapsuit: Translating Arm and Hand Movement Intentions into Action
The goal of Synapsuit is to assist people living with severe upper-limb motor disabilities. Leveraging our soft brain interface technology, we are building a BCI with an AI algorithm to decode brain signals to control a lightweight soft wearable exosuit to support arms and hands movements in real time for the control of upper limb. This is an ongoing project in collaboration with the Wyss Center, the Korea Electronics Technology Institute and Jang EUN FnC.