Brain Temporal-Spectral Functional Variability Reveals Neural Improvements of DBS Treatment for Disorders of Consciousness

Lu, Jiewei; Wu, Jingchao; Shu, Zhilin; Zhang, Xinyuan; Li, Haitao; Liang, Siquan; Han, Jianda; Yu, Ningbo

doi:10.1109/tnsre.2024.3368434

IEEE Trans. Neural Syst. Rehabil. Eng.

2024

DOI: 10.1109/tnsre.2024.3368434

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Brain Temporal-Spectral Functional Variability Reveals Neural Improvements of DBS Treatment for Disorders of Consciousness

Jiewei Lu,

Jingchao Wu,

Zhilin Shu

et al.

Abstract: Deep brain stimulation (DBS) is establishing itself as a promising treatment for disorders of consciousness (DOC). Measuring consciousness changes is crucial in the optimization of DBS therapy for DOC patients. However, conventional measures use subjective metrics that limit the investigations of treatmentinduced neural improvements. The focus of this study is to analyze the regulatory effects of DBS and explain the regulatory mechanism at the brain functional level for DOC patients. Specifically, this paper p… Show more

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Assessment of residual awareness in patients with disorders of consciousness using functional near-infrared spectroscopy–based connectivity: a pilot study

He,

Wang,

Liu

et al. 2024

Neurophoton.

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. Significance The accurate assessment and classification of residual consciousness are crucial for optimizing therapeutic interventions in patients with disorders of consciousness (DOCs). However, there remains an absence of effective and definitive diagnostic methods for DOC in clinical practice. Aim The primary objective was to investigate the feasibility of utilizing resting state functional near-infrared spectroscopy (rs-fNIRS) for evaluating residual consciousness. The secondary objective was to explore the distinguishing characteristics that are more effective in differentiating between the unresponsive wakefulness syndrome (UWS) and the minimally conscious state (MCS) and to identify the machine learning model that offers superior classification accuracy. Approach We utilized rs-fNIRS to evaluate the residual consciousness in patients with DOC. Specifically, rs-fNIRS was used to construct functional brain networks, and graph theory analysis was conducted to quantify the topological differences within these brain networks between MCS and UWS. After that, two classifiers were used to distinguish MCS from UWS. Results The graph theory results showed that the MCS group ( ) exhibited significantly higher global efficiency ( ) and smaller characteristic path length ( ) than the UWS group ( ). The functional connectivity results showed that the correlation within the left occipital cortex (L_OC) was significantly lower in the MCS group than in the UWS group. By using the indicators with significant differences as features for further classification, the accuracy for -nearest neighbors and linear discriminant analysis classifiers was improved by 0.89 and 0.83, respectively. Conclusions The resting state functional connectivity and graph theory analysis based on fNIRS has the potential to enhance the classification accuracy, providing valuable insights into the diagnosis of patients with DOC.

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Assessment of residual awareness in patients with disorders of consciousness using functional near-infrared spectroscopy–based connectivity: a pilot study

He,

Wang,

Liu

et al. 2024

Neurophoton.

View full text Add to dashboard Cite

show abstract

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Brain Temporal-Spectral Functional Variability Reveals Neural Improvements of DBS Treatment for Disorders of Consciousness

Cited by 1 publication

References 63 publications

Assessment of residual awareness in patients with disorders of consciousness using functional near-infrared spectroscopy–based connectivity: a pilot study

Assessment of residual awareness in patients with disorders of consciousness using functional near-infrared spectroscopy–based connectivity: a pilot study

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