Optical detection spectroscopy system LABNIRS

Overview
The LABNIRS is a functional near-infrared spectroscopy (fNIRS) system for research, developed by Shimadzu to support next-generation optical brain-function imaging. The system combines multi-channel, high-density measurement architecture with 3-wavelength optics and photomultiplier tube (PMT) detection for sensitive in vivo brain-function recording.

Key note
For Research Use Only. Not for use in diagnostic procedures.

Features

• High performance: Multi-channel, high-density measurements; 3-wavelength optical configuration with PMT detection for enhanced sensitivity; high-speed sampling for temporal resolution.
• Easy operation: Intuitive software user interface enabling measurement and analysis via simple button clicks, designed for research workflows.
• Scalability: Modular channel architecture and comprehensive options allow increasing channel count and adapting measurement configuration to experimental aims.

Applications
The LABNIRS is suitable for a range of brain-function research applications including in vivo functional imaging, combined fNIRS-EEG studies, sensory and cognitive evaluations, and product evaluation feasibility studies. Details and example setups are available in the product documentation.

Downloads

• Shimadzu Analytical and Measuring Instruments [PDF / 11.13MB]
• Objective Evaluation of Hedonic Tone of Food and Drink Using fNIRS [PDF / 328.38KB]
• Feasibility study of product evaluation using fNIRS [PDF / 457.53KB]
• Feasibility study of ability assessment using fNIRS [PDF / 380.53KB]
• Functional Brain Analysis with Near-Infrared Spectroscopy [PDF / 5.63MB]
• Measurement of brain function during acting [PDF / 315.88KB]
• LABNIRS - functional Near-Infrared Spectroscopy System for Research [PDF / 3.36MB]

Technical specifications

• Product name: LABNIRS
• System type: Functional near-infrared spectroscopy (fNIRS) system for research
• Intended use: Research use only; not for diagnostic procedures
• Optical configuration: 3 wavelengths; photomultiplier tube (PMT) detection
• Acquisition: High-speed sampling
• Channel architecture: Multi-channel, high-density; scalable with optional additional channels
• User interface: Intuitive software for measurement and analysis
• Applications: In vivo brain-function imaging, combined fNIRS-EEG studies, sensory and cognitive research