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Journal of Biomedical Optics

Adaptive filtering for global interference cancellation and real-time recovery of evoked brain activity: a Monte Carlo simulation study
Author(s): Quan Zhang; Emery N. Brown; Gary E. Strangman
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Paper Abstract

The sensitivity of near-infrared spectroscopy (NIRS) to evoked brain activity is reduced by physiological interference in at least two locations: 1. the superficial scalp and skull layers, and 2. in brain tissue itself. These interferences are generally termed as "global interferences" or "systemic interferences," and arise from cardiac activity, respiration, and other homeostatic processes. We present a novel method for global interference reduction and real-time recovery of evoked brain activity, based on the combination of a multiseparation probe configuration and adaptive filtering. Monte Carlo simulations demonstrate that this method can be effective in reducing the global interference and recovering otherwise obscured evoked brain activity. We also demonstrate that the physiological interference in the superficial layers is the major component of global interference. Thus, a measurement of superficial layer hemodynamics (e.g., using a short source-detector separation) makes a good reference in adaptive interference cancellation. The adaptive-filtering-based algorithm is shown to be resistant to errors in source-detector position information as well as to errors in the differential pathlength factor (DPF). The technique can be performed in real time, an important feature required for applications such as brain activity localization, biofeedback, and potential neuroprosthetic devices.

Paper Details

Date Published: 1 July 2007
PDF: 12 pages
J. Biomed. Opt. 12(4) 044014 doi: 10.1117/1.2754714
Published in: Journal of Biomedical Optics Volume 12, Issue 4
Show Author Affiliations
Quan Zhang, Massachusetts General Hospital (United States)
Emery N. Brown, Massachusetts General Hospital (United States)
Gary E. Strangman, Harvard Medical School (United States)

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