MedelOpt fNIRS Infinity Systems

MedelOpt ® Infinity systems provide high-density NIRS with EEG for very high-density whole-brain mapping and custom advanced variable-depth montages.

  • High-density fNIRS/EEG bimodality
  • Advanced wearable-designed technology
  • Design enabling direct scalp access
  • Customizable headset configuration
  • Long-duration recording capability

MedelOpt fNIRS Infinity Systems – A New Dimension of Neuroimaging

The MedelOpt fNIRS Infinity systems are modern, flexible solutions for non-invasive imaging of brain activity using functional near-infrared spectroscopy (fNIRS). Thanks to innovative technology and high temporal resolution, the Infinity series offers precise measurements of hemodynamic changes in the brain in real time – both in laboratory conditions and in natural environments.

Available models:

The unique design, created by scientists with researchers’ needs in mind, combines bimodality and flexible modularity.

  • INFIN 16-32-EEG – an advanced system integrating 16 fNIRS sources and 32 detectors with an 8-channel EEG extension, providing a full mapping of the correlation between hemodynamic signals and the electrical activity of the brain.
  • INFIN 16-16-EEG – a compact and mobile fNIRS system with 16 sources and 16 detectors, enriched with EEG integration for a more complete analysis of brain signals.
  • INFIN 16-16 – the basic version of the fNIRS system (without EEG), ideal for functional and cognitive research across diverse populations.

Key features:

  • High-density fNIRS/EEG bimodality – Hemodynamic (with 512 channels) and electrical signal acquisition; Medelopt® provides accurate measurements for functional 2D/3D in-vivo brain mapping. LED: 16 emitting diodes / Electropods: 32 receptors / 8 EEG electrodes.
  • Advanced wearable-designed technology – Medelopt® miniaturization enables data acquisition from participants in motion.
  • Design enabling direct scalp access – Thanks to its unique design, Medelopt® solves the limitation caused by hair, which is the main problem when using fNIRS in research. The LED diodes and electropods are in direct contact with the scalp.
  • Customizable headset configuration – Thanks to the headset design, the placement of the sensors (NIRS emitters/receptors and EEG electrodes) can be adjusted to record the entire head, from the cognitive area to the visual area.
  • Long-duration recording capability – The pressure zones are distributed evenly around the head, allowing long-duration recordings to be made.

Applications:

Cognitive and neuropsychological research focuses on understanding mental processes such as perception, memory, thinking, problem solving and emotions. Within this research, brain functioning is analyzed in the context of various neurological and mental disorders, which allows a better understanding of the mental mechanisms and behavior of humans.

Human-computer interaction (HCI) and brain-computer interfaces (BCI) are fields that study the way people interact with technology. Within this research, new technologies are developed that enable direct communication between the brain and a computer, which has applications in medicine, rehabilitation and the development of modern devices supporting everyday life.

Developmental psychology studies the changes occurring in human behavior, emotions and abilities across different phases of life. Neuroeducation combines knowledge from neurobiology and psychology to develop effective teaching methods that take into account brain development and its plasticity. The goal is to create educational strategies that support effective learning at different stages of life.

Neuromarketing is an interdisciplinary field of research that combines neurobiology, psychology and marketing to understand how a consumer makes purchasing decisions. This research makes it possible to identify the factors that influence consumers’ preferences and choices, as well as to create effective marketing strategies based on an understanding of brain processes.

Neurological rehabilitation encompasses methods of treating and supporting people with damage to the brain or nervous system resulting from conditions such as strokes, brain injuries or neurodegenerative diseases. Neurofeedback is a technique that involves monitoring brain waves and regulating them in order to improve the patient’s cognitive, emotional and motor functions.

The MedelOpt fNIRS Infinity systems are the ideal solution for modern neurobiology laboratories, research institutes and translational projects where flexibility, precision and mobility are of key importance.

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