Since fNIRS can measure not only Deoxy-Hb, but also changes in Oxy-Hb and blood flow, it is especially well suited to imaging brain function in patients where brain oxygen metabolite activity and hemodynamics are not normal. Currently, BOLD-fMRI is the primary method used to image brain function, but using it in conjunction with fNIRS allows accurately imaging brain function when the patient is sick.

A: Measurement by fMRI
Clearly shows activity in motor cortex for opposite side due to exercise (grasping). The lower BOLD* signal shows an increase during the task (blue).

B: Measurement by fNIRS
Displays results from 2D mapping (overlaid on MRI image) of Deoxy-Hb and Oxy-Hb during exercise. The lower graph shows the change in Oxy-Hb and Deoxy-Hb in the motor cortex (marked with circles). It shows how Oxy-Hb and Total-Hb increase and Deoxy-Hb decreases during the task (40 sec).

Comparison of BOLD-fMRI (A) and fNIRS (B) for Normal Healthy Adult

Comparison of BOLD-fMRI (A) and fNIRS (B) for Normal Healthy Adult

*BOLD: Blood Oxygen Level Dependent

Since fNIRS is not affected by electrical noise or magnetic fields and has few limitations on patient posture during measurements, it can be used to measure brain function in cases where BOLD-fMRI cannot be used, such as on patients being treated with deep brain stimulation (DBS) using a metal electrode.

Note: The data shown was acquired using a FOIRE/OMM series model.

 

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