Make neuroimaging more accessible with Artinis Trade-In Program

At Artinis Medical Systems, we believe that a healthy body and mind are the most valuable assets. Our mission is to make imaging easy, ensuring that bright-minded researchers worldwide can access cutting-edge, portable neuroimaging technology with (f)NIRS, EEG, and HD-EMG.

To support this vision, we’ve launched the Artinis Trade-In Program, designed to:

  • Improve accessibility for neuroscience research, particularly in regions where funding is limited.

  • Promote sustainability by responsibly repurposing older systems.

  • Encourage upgrades to the latest technology by offering discounts in exchange for legacy devices.

Who can apply

For refurbished systems

Professors, Principal Investigators (PIs), and Assistant Professors using (f)NIRS/EEG/HD-EMG for Bachelor’s or Master’s education programs, or

Researchers in developing countries facing limited funding access due to geographical constraints.

For upgrade

Current Artinis and/or TMSi device owners looking to upgrade their legacy (f)NIRS/EEG/HD-EMG systems.

(Note: This program is strictly for research and educational purposes. Personal use applications will not be considered.)

How it works

  1. Fill out our Contact Form on this page with the subject line: "Artinis Trade-In Program".

  2. Include a brief description of how you plan to use the system in your research or education.

  3. Our team will review the applications case-by-case and respond with further details.

Do you have more questions? Reach out to us—we’re happy to help!

Spread the word!

Help us make portable neuroimaging technology more accessible. Share this program with researchers and educators who could benefit!

(f)NIRS legacy devices

The pioneer of wearable near-infrared spectroscopy devices to monitor brain and muscle tissue oxygenation. For more than 25 years, we have been providing user-friendly and high-tech solutions for measuring brain and muscle tissue oxygenation changes using (f)NIRS technology. Every day, we strive to develop our products and expertise to help neuroscience researchers reach a new limit.

PortaMon MKI & MKII

The PortaMon MKI and PortaMon MKII are the gold-standard research devices for monitoring muscle oxygenation. They measure oxy-, deoxy-, and total hemoglobin, as well as tissue saturation index (TSI) in local muscle tissue.

The product has passed its baton to a more advanced and user-friendly device, the PortaMon MKIII.

PortaLite MKI & MKI mini

The PortaLite MKI is a portable cerebral oxygenation monitoring device that measures local tissue saturation (TSI), as well as oxy-, deoxy-, and total hemoglobin.

The PortaLite MKII is the more advanced descendant of the PortaLite, e.g. with its dual-sensor configuration and built-in short separation channels (SSC).

OxyMon MKI & MKII

The OxyMon is our most advanced and versatile fNIRS system. It is proficient at measuring oxy-, deoxy-, and total hemoglobin concentration changes in brain and muscle tissue and is also compatible with fMRI.

OxyMon MKIII is the advanced system version with improved features.

EEG / HD-EMG legacy devices

Mobita

Porti

OctaMon, OctaMon mini, OctaMon+

OctaMon is a portable and compact 8-channel NIRS system that measures oxy-, deoxy-, and total hemoglobin in a truly portable way. The Brite Lite Frontal is the more advanced successor of the OctaMon, which is derived from the Brite. Hence, it provides improved features, e.g., power level gain control to improve signal quality and up to 10 measurement channels.

We also have the Brite Lite, a successor of the OctaMon+, which can measure through a hair-covered scalp.

REFA

Brite23 & Brite24

The Brite23 was a 23-channel fNIRS device to measure relative changes in oxy-, deoxy-, and total hemoglobin concentration in the prefrontal cortex. The Brite Frontal is a newer system to monitor prefrontal brain activity with 24 channels and incorporates more advanced features than the Brite23.

The Brite, successor of the Brite24, is the torch-bearer of Artinis wearable fNIRS device, made for brain oxygenation measurements from any cortical brain region with up to 27 channels.