Insights into Parkinson’s Disease-Related Freezing of Gait Detection and Prediction Approaches: A Meta Analysis

Author:

Elbatanouny Hagar1ORCID,Kleanthous Natasa2,Dahrouj Hayssam1,Alusi Sundus3ORCID,Almajali Eqab1,Mahmoud Soliman14ORCID,Hussain Abir1

Affiliation:

1. Department of Electrical Engineering, University of Sharjah, Sharjah 27272, United Arab Emirates

2. O&P Electronics & Robotics Ltd., Limassol 3100, Cyprus

3. The Walton Centre NHS Foundation Trust, Liverpool L9 7LJ, UK

4. University of Khorfakkan, Khorfakkan, Sharjah 18119, United Arab Emirates

Abstract

Parkinson’s Disease (PD) is a complex neurodegenerative disorder characterized by a spectrum of motor and non-motor symptoms, prominently featuring the freezing of gait (FOG), which significantly impairs patients’ quality of life. Despite extensive research, the precise mechanisms underlying FOG remain elusive, posing challenges for effective management and treatment. This paper presents a comprehensive meta-analysis of FOG prediction and detection methodologies, with a focus on the integration of wearable sensor technology and machine learning (ML) approaches. Through an exhaustive review of the literature, this study identifies key trends, datasets, preprocessing techniques, feature extraction methods, evaluation metrics, and comparative analyses between ML and non-ML approaches. The analysis also explores the utilization of cueing devices. The limited adoption of explainable AI (XAI) approaches in FOG prediction research represents a significant gap. Improving user acceptance and comprehension requires an understanding of the logic underlying algorithm predictions. Current FOG detection and prediction research has a number of limitations, which are identified in the discussion. These include issues with cueing devices, dataset constraints, ethical and privacy concerns, financial and accessibility restrictions, and the requirement for multidisciplinary collaboration. Future research avenues center on refining explainability, expanding and diversifying datasets, adhering to user requirements, and increasing detection and prediction accuracy. The findings contribute to advancing the understanding of FOG and offer valuable guidance for the development of more effective detection and prediction methodologies, ultimately benefiting individuals affected by PD.

Publisher

MDPI AG

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