Nicola Moccaldi scite author profile

A method for EEG-based distraction detection during motor-rehabilitation tasks is proposed. A wireless cap guarantees very high wearability with dry electrodes and a low number of channels. Experimental validation is performed on a dataset from 17 volunteers. Different feature extractions from spatial, temporal, and frequency domain and classification strategies were evaluated. The performances of five supervised classifiers in discriminating between attention on pure movement and with distractors were compared. A k-Nearest Neighbors classifier achieved an accuracy of 92.8 ± 1.6%. In this last case, the feature extraction is based on a custom 12 pass-band Filter-Bank (FB) and the Common Spatial Pattern (CSP) algorithm. In particular, the mean Recall of classification (percentage of true positive in distraction detection) is higher than 92% and allows the therapist or an automated system to know when to stimulate the patient’s attention for enhancing the therapy effectiveness.

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Noninvasive measurement of transdermal drug delivery by impedance spectroscopy

Arpaïa

Cesaro

Moccaldi³

2017

Sci Rep

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The effectiveness in transdermal delivery of skin permeation strategies (e.g., chemical enhancers, vesicular carrier systems, sonophoresis, iontophoresis, and electroporation) is poorly investigated outside of laboratory. In therapeutic application, the lack of recognized techniques for measuring the actually-released drug affects the scientific concept itself of dosage for topically- and transdermally-delivered drugs. Here we prove the suitability of impedance measurement for assessing the amount of drug penetrated into the skin after transdermal delivery. In particular, the measured amount of drug depends linearly on the impedance magnitude variation normalized to the pre-treated value. Three experimental campaigns, based on the electrical analysis of the biological tissue behavior due to the drug delivery, are reported: (i) laboratory emulation on eggplants, (ii) ex-vivo tests on pig ears, and finally (iii) in-vivo tests on human volunteers. Results point out that the amount of delivered drug can be assessed by reasonable metrological performance through a unique measurement of the impedance magnitude at one single frequency. In particular, in-vivo results point out sensitivity of 23 ml−1, repeatability of 0.3%, non-linearity of 3.3%, and accuracy of 5.7%. Finally, the measurement resolution of 0.20 ml is compatible with clinical administration standards.

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A Wearable EEG Instrument for Real-Time Frontal Asymmetry Monitoring in Worker Stress Analysis

Arpaïa

Moccaldi

Prevete

et al. 2020

IEEE Trans. Instrum. Meas.

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Nicola Moccaldi

Wearable Brain–Computer Interface Instrumentation for Robot-Based Rehabilitation by Augmented Reality

A Wearable Brain–Computer Interface Instrument for Augmented Reality-Based Inspection in Industry 4.0

High-wearable EEG-based distraction detection in motor rehabilitation

Noninvasive measurement of transdermal drug delivery by impedance spectroscopy

A Wearable EEG Instrument for Real-Time Frontal Asymmetry Monitoring in Worker Stress Analysis

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