Accurate Parkinson’s Detection via Emotional Brain Responses – Neuroscience News

by thinkia.org.in
0 comment


Summary: A new study has achieved near-perfect accuracy in detecting Parkinson’s disease by analyzing brain responses to emotional stimuli using EEG and AI. Researchers found that Parkinson’s patients process emotions differently, struggling with recognizing fear, disgust, and surprise and focusing more on emotional intensity than valence.

EEG data from 20 patients and 20 healthy controls was analyzed using machine learning, achieving an F1 score of 0.97 for diagnostic accuracy. This breakthrough offers a non-invasive, objective diagnostic method, potentially revolutionizing early detection and treatment for Parkinson’s disease.

Key Facts

  • Diagnostic Accuracy: EEG-based emotional analysis achieved a 0.97 F1 score in identifying Parkinson’s.
  • Emotion Patterns: Parkinson’s patients recognize emotional arousal better than valence, often confusing opposing emotions.
  • AI Integration: Machine learning frameworks processed EEG data to differentiate patients from controls with high precision.

Source: Intelligent Computing

A joint research team from the University of Canberra and Kuwait College of Science and Technology has achieved groundbreaking detection of Parkinson’s disease with near-perfect accuracy, simply by analyzing brain responses to emotional situations like watching video clips or images.

The findings offer an objective way to diagnose the debilitating movement disorder, instead of relying on clinical expertise and patient self-assessments, potentially enhancing treatment options and overall well-being for those affected by Parkinson’s disease.

he patients were also found to struggle most with recognizing fear, disgust and surprise, or to confuse emotions of opposite valences, such as mistaking sadness for happiness. Credit: Neuroscience News

The study was published Oct. 17 in Intelligent Computing, a Science Partner Journal, in an article titled “Exploring Electroencephalography-Based Affective Analysis and Detection of Parkinson’s Disease.”

Their emotional brain analysis focuses on the difference in implicit emotional reactions between Parkinson’s patients, who are generally believed to suffer from impairments in recognizing emotions, and healthy individuals.

The team demonstrated they can identify patients and healthy individuals with an F1 score of 0.97 or higher, based solely on brain scan readings of emotional responses.

This diagnostic performance edges very close to 100% accuracy from brainwave data alone. The F1 score is a metric that combines precision and recall, where 1 is the best possible value.

The results show that Parkinson’s patients displayed specific emotional perception patterns, comprehending emotional arousal better than emotional valence, which means they are more attuned to the intensity of emotions rather than the pleasantness or unpleasantness of those emotions.

The patients were also found to struggle most with recognizing fear, disgust and surprise, or to confuse emotions of opposite valences, such as mistaking sadness for happiness.

The researchers recorded electroencephalography — or EEG — data, measuring electrical brain activity in 20 Parkinson’s patients and 20 healthy controls.

Participants watched video clips and images designed to trigger emotional responses.

After the recording of EEG data, multiple EEG descriptors were processed to extract key features and these were transformed into visual representations, which were then analyzed using machine learning frameworks such as convolutional neural networks, for automatic detection of distinct patterns in how the patients processed emotions compared to the healthy group.

This processing enabled the highly accurate differentiation between patients and healthy controls.

Key EEG descriptors used include spectral power vectors and common spatial patterns. Spectral power vectors capture the power distribution across various frequency bands, which are known to correlate with emotional states.

Common spatial patterns enhance interclass discriminability by maximizing variance for one class while minimizing it for another, allowing for better classification of EEG signals.

As the researchers continue refining EEG-based techniques, emotional brain monitoring has the potential to become a widespread clinical tool for Parkinson’s diagnosis.

The study demonstrates the promise of combining neurotechnology, AI and affective computing to provide objective neurological health assessments.

About this Parkinson’s disease, emotion, and AI research news

Author: Xuwen Liu
Source: Intelligent Computing
Contact: Xuwen Liu – Intelligent Computing
Image: The image is credited to Neuroscience News

Original Research: Open access.
Exploring Electroencephalography-Based Affective Analysis and Detection of Parkinson’s Disease” by Ramanathan Subramanian et al. Intelligent Computing


Abstract

Exploring Electroencephalography-Based Affective Analysis and Detection of Parkinson’s Disease

While Parkinson’s disease (PD) is typically characterized by motor disorder, there is also evidence of diminished emotion perception in PD patients.

This study examines the utility of electroencephalography (EEG) signals to understand emotional differences between PD and healthy controls (HCs), and for automated PD detection.

Employing traditional machine learning and deep learning methods on multiple EEG descriptors, we explore (a) dimensional and categorical emotion recognition and (b) PD versus HC classification from multiple descriptors characterizing emotional EEG signals.

Our results reveal that PD patients comprehend arousal better than valence and, among emotion categories, fear, disgust, and surprise less accurately, and sadness most accurately.

Mislabeling analyses confirm confounds among opposite-valence emotions for PD data. Emotional EEG responses also achieve near-perfect PD versus HC recognition.

Cumulatively, our study demonstrates that (a) examining implicit responses alone enables (i) discovery of valence-related impairments in PD patients and (ii) differentiation of PD from HC and that (b) emotional EEG analysis is an ecologically valid, effective, practical, and sustainable tool for PD diagnosis vis-à-vis self-reports, expert assessments, and resting-state analysis.

You may also like

Thinkia is a professional platform where we provide informative content like current world news, all types of educational content, health awareness, food awareness, travel awareness, ideas and tips. We hope you like all the content provided by us.

Editors' Picks

Latest Posts

Copyright © 2024 | Thinkia | All Right Reserved