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Artinis Medical Systems

Name: Artinis Medical Systems
Address: Einsteinweg 17, Elst, 6662PW, NL
Telephone: +31481350980

Startpagina
Nederland
Elst
Artinis Medical Systems

The pioneer of wearable near-infrared spectroscopy devices to monitor local oxygenation.

03/06/2026

One team. One mission. 🧠✨ Artinis and NIRx are now one organisation — uniting two decades-plus of fNIRS pioneering into a single team dedicated to you, the researcher.

More tools. More support. One roadmap shaped by your needs. From wearable brain measurements in the real world to high-fidelity systems in the lab — it's all in one place now.

Same people you know and trust. We're just getting started.

Discover Artinis & NIRx at https://www.artinis-nirx.com/introducing-artinis-nirx

02/06/2026

Combining fNIRS and EEG offers researchers a powerful way to study brain function by capturing both hemodynamic and electrophysiological activity simultaneously. But integrating these techniques also comes with practical challenges, especially when it comes to maintaining high EEG signal quality.

In this blogpost, we discuss important considerations for integrated fNIRS-EEG measurements, including electrode placement, interference prevention, motion artifacts, and setup optimization for reliable data collection. The authors also share practical recommendations to help improve EEG recordings in combined fNIRS-EEG experiments.

A useful read for researchers working with multimodal neuroimaging setups, or planning to combine wearable EEG and fNIRS in future studies.

🔗 https://zurl.co/aVFPU

26/05/2026

Rehabilitation is becoming smarter and more data-driven.
In their recent study, Wang et al. (2025) explored how parallel cognitive-motor tasks during robot-assisted rehabilitation affect cortical hemodynamic responses. Using the wearable Brite fNIRS device, the authors monitored prefrontal brain activation and highlight how combining cognitive and motor training may help optimize neurorehabilitation strategies and better understand patient workload during therapy.

🟡 The findings suggest that dual-task training significantly influences prefrontal activation, highlighting the importance of balancing cognitive load during rehabilitation.
🔵 These insights could help optimize therapy intensity and better tailor rehabilitation programs to individual patients.

As rehabilitation technologies continue to evolve, combining robotics, BCI approaches, and wearable neuroimaging may help pave the way toward more personalized and effective therapy strategies.

🔗 Read the full article here: https://zurl.co/Z7LEf

20/05/2026

Can psychotherapy change the way two brains interact? 🧠🧠
In a recent proof-of-concept study, Haran Sened and colleagues explored inter-brain plasticity during psychotherapy for test anxiety.
Using the Brite for fNIRS hyperscanning, the researchers measured therapist and patient brain activity across 18 therapy sessions in participants undergoing a 6-session test anxiety treatment. Their results showed that inter-brain synchrony gradually increased over treatment and was associated with reduced symptoms, improved wellbeing and perceived session quality.

🟡 This highlights hyperscanning as a promising tool to study therapist-patient dynamics in real time.
🔵 It offers an exciting first step toward understanding inter-brain plasticity as a possible mechanism of change in psychotherapy.
🟡 It also shows how wearable fNIRS can support naturalistic research in clinical and rehabilitation settings.

🔗 Read the full article here: https://zurl.co/capgc

14/05/2026

A promising role for fNIRS in poststroke rehabilitation 🧠
In a recent systematic review, Gong et al. (2024) explored how fNIRS is being used to monitor brain function, predict recovery outcomes, and evaluate responses to rehabilitation interventions in poststroke patients with upper limb hemiplegia. The review included 52 studies and highlights how fNIRS can provide valuable insights into cortical activation patterns during paretic upper limb movement. Changes in hemispheric laterality, measured through oxygenated hemoglobin concentration changes, were found to be linked to motor recovery after stroke.
Interestingly, several rehabilitation approaches, including exercise-based, stimulation-based, and neurofeedback techniques, were associated with increased activation in ipsilesional sensorimotor and secondary motor areas.

The authors used the OxyMon in this review, further showing how fNIRS can support clinical and rehabilitation research by offering a non-invasive way to better understand brain function during recovery.

🔗 Read the full article here: https://zurl.co/EuW5Y

12/05/2026

Wilroth et al. (2026) recently used the Brite Ultra to simultaneously record 8 participants listening to a podcast, showing that Temporal Response Functions , a speech-tracking analysis previously limited to and , can be meaningfully applied to data.
💡 Their approach outperformed conventional methods, providing a compelling proof-of-concept for continuous speech research with fNIRS✨

We are thrilled that the Brite Ultra is already making waves in the field 🌊

Read the preprint: https://www.biorxiv.org/content/10.64898/2026.03.20.713212v1.full
Discover the Brite Ultra: https://artinis.com/brite-ultra

06/05/2026

What happens inside the brain when a student learns under pressure? And how does a teacher’s presence shape that process?
In their recent study, Li et al. (2025) use fNIRS-based hyperscanning to explore how teacher–student interaction affects language learning under anxiety. By measuring both brains at the same time, they show that learning is not just individual; it’s fundamentally shared.

🟡 When anxiety is high, synchronized brain activity between teacher and student becomes a key factor in successful learning outcomes.
🔵 Teacher interaction can actively buffer the negative effects of anxiety and improve language acquisition.
🟡 Hyperscanning opens a new window into real-time educational dynamics; beyond what behavior alone can show.

This work highlights the importance of connection in education - especially in challenging learning environments - and shows how neuroscience can guide more effective, human-centered teaching strategies.

🔗 https://zurl.co/8bWBJ

28/04/2026

Interdisciplinary collaboration isn’t just a buzzword, it is measurable.
Using fNIRS hyperscanning, Li et al. (2025) show that when individuals from different backgrounds engage in real-world problem solving, inter-brain synchronization (IBS) increases in the dorsolateral prefrontal cortex (DLPFC), a region linked to executive function. Interestingly, this effect emerges in real-world tasks but not in simplified or adapted conditions.

This suggests that:
🟡 Genuine complexity matters
🔵 Real collaboration activates shared neural dynamics
🟡 “Being on the same wavelength” has a biological basis

Stronger IBS is also associated with better cooperation, reinforcing that effective teamwork can be observed at the neural level.
Together, these findings offer a valuable lens on cross-functional teams, innovation processes, and how we design collaborative environments. They highlight that realistic, meaningful contexts are key to achieving true alignment.

🔗 Read more: https://zurl.co/52Bex

21/04/2026

Curious to learn how to study real interactions in large groups but missed our Hyperscanning Summer School? Good news: our Brite Ultra hyperscanning demo is now available on YouTube!

In this session, David Zijderveld walks us through:
🟡 What makes Brite Ultra the hyperscanning fNIRS device
🔵 How it enables seamless large-group measurements
🟡 What this means for the future of social neuroscience

🔗 Catch up anytime and see large-scale hyperscanning in action:

https://zurl.co/FGlKY

08/04/2026

Understanding how young children connect and collaborate with others is key to unlocking early development.

In their recent article, St. Clair et al. (2025) use fNIRS hyperscanning to examine neural coherence between children aged 4 to 6 and their mothers during joint tasks, offering a clear view of how brain activity aligns in real time during social interaction. One of the strengths of this paper is the care taken in handling the data. By refining the analysis approach for developmental hyperscanning, the authors help ensure that the observed synchrony reflects real interaction effects rather than noise.
The study also points to something important: factors like maternal stress can influence this neural alignment, highlighting how both interaction and environment shape early development. Altogether, it brings us closer to understanding how collaboration, learning, and social bonding are reflected at the neural level.

🔗 Read more: https://zurl.co/TkoPK

Adres

Einsteinweg 17
Elst
6662PW

Openingstijden

Maandag	08:15 - 17:30
Dinsdag	08:15 - 17:30
Woensdag	08:15 - 17:30
Donderdag	08:15 - 17:30
Vrijdag	08:15 - 17:30

Telefoon

+31481350980

Website

https://www.artinis.com/

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