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Assessment of fNIRS Signal Processing Pipelines: Towards Clinical Applications

Augusto Bonilauri, Francesca Sangiuliano Intra, Giuseppe Baselli, Francesca Baglio

2021Applied Sciences34 citationsDOIOpen Access PDF

Abstract

Functional Near-Infrared Spectroscopy (fNIRS) captures activations and inhibitions of cortical areas and implements a viable approach to neuromonitoring in clinical research. Compared to more advanced methods, continuous wave fNIRS (CW-fNIRS) is currently used in clinics for its simplicity in mapping the whole sub-cranial cortex. Conversely, it often lacks hardware reduction of confounding factors, stressing the importance of a correct signal processing. The proposed pipeline includes movement artifact reduction (MAR), bandpass filtering (BPF), and principal component analysis (PCA). Eight MAR algorithms were compared among 23 young adult volunteers under motor-grasping task. Single-subject examples are shown followed by the percentage in energy reduction (ERD%) statistics by single steps and cumulative values. The block average of the hemodynamic response function was compared with generalized linear model fitting. Maps of significant activation/inhibition were illustrated. The mean ERD% of pre-processed signals concerning the initial raw signal energy reached 4%. A tested multichannel MAR variant showed overcorrection on 4-fold more expansive windows. All of the MAR algorithms found similar activations in the contralateral motor area. In conclusion, single channel MAR algorithms are suggested followed by BPF and PCA. The importance of whole cortex mapping for fNIRS integration in clinical applications was also confirmed by our results.

Topics & Concepts

Functional near-infrared spectroscopyComputer scienceSignal processingArtifact (error)Artificial intelligencePrincipal component analysisPattern recognition (psychology)SIGNAL (programming language)PsychologyCognitionNeuroscienceDigital signal processingComputer hardwareProgramming languagePrefrontal cortexOptical Imaging and Spectroscopy TechniquesNon-Invasive Vital Sign MonitoringFunctional Brain Connectivity Studies