Shanghai StairMed Technology Co., Ltd.

Enclosure

Titanium alloy, zirconia ceramics and other commonly used materials for surgical implants have excellent biocompatibility. The high vacuum of the shell is guaranteed.

Power supply and data transmission

Using wireless power supply, internal battery-free design, integrated design of power supply and communication coil, the tthe thickness of the implant is greatly compressed and the amount of bone grinding is minimized.

Electronics

Paired with ultra-flexible electrodes, it can achieve neural activity recording with single-cell resolution, ultra-low background noise, high signal-to-noise ratio, as well as high- accuracy, low-latency data analysis and transmission.

Enclosure

Titanium alloy, zirconia ceramics and other commonly used materials for surgical implants have excellent biocompatibility. At the same time, the process is used to ensure the high vacuum of the shell .

Ultra-flexible micro-nano electrode

The thickness of the electrode is only 1 μm, the cross-sectional area is equivalent to 1/300 of a human hair, and the mechanical properties are similar to those of the brain. The implantation process and postoperative damage to the brain tissue is minimal, and long-term stable neural activity recording can be realized.

Seal layer

Brain Control Software

In order to realize the replacement of motor ability and the improvement of quality of life in patients with movement disorders, we designed an efficient and easy-to-use brain control training experimental protocol.

Clinical Application Scenarios

Motion control

Paralysis
Fine limb control
Aphasia

Lesion monitoring and regulation of neurological diseases

DBSParkinson 's disease, primary tremor, dystonia, obsessive-compulsive disorder
MentalDepression, anxiety disorder, schizophrenia

Sensory perception repair

Blindness
Deafness

HNE Electrode

Product Introduction
HNE ultra-flexible micro-nano electrode features ultra-flexibility, ultra-fineness, high throughput, excellent biocompatibility, and low tissue damage. HNE can meet various experimental needs, enabling high-precision, high-quality, and long-term stable recording of neural activity.
Main Materials
Polyimide.
Key Applications
HNE is mainly used for in vivo electrophysiology in scientific research and clinical settings. It is implanted into the brains of rodents, non-human primates, and human patients for acute or chronic neural activity recording.

Research Product

StairMed Advantages

Leading the technical route

Invasive brain-computer interface

High signal quality

Excellent spatial and temporal resolution

Leading technology solutions

Deeply cultivating foundational technology

Highly integrated system of with China's independent intellectual property rights

Minimally invasive implantation scheme

Leading the industrial process

Clear product positioning

High-efficient

Leading clinical progress

Neuroscience understanding of the brain
Upper limit / ceiling
Medical clinical breakthrough
Application bottlenecks / accelerators
Whole system development
The only way to application
Neurological interface
Primary bottleneck

Top brain science research foundation and resources in the same field in China
The first BCI-related IIT research was conducted globally.
The only flexible brain-controlled implant product in China
The world 's leading Brain-Machine Interface neural interface (electrode) technology.

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