NDDNet: a deep learning model for predicting neurodegenerative diseases from gait pattern

Md Ahasan Atick Faisal; Muhammad E.H. Chowdhury; Zaid Bin Mahbub; Shona Pedersen; Mosabber Uddin Ahmed; Amith Khandakar; Mohammed Alhatou; Mohammad Nabil; Iffat Ara; Enamul Haque Bhuiyan; Sakib Mahmud; Mohammed AbdulMoniem

doi:10.1007/s10489-023-04557-w

NDDNet: a deep learning model for predicting neurodegenerative diseases from gait pattern

Md Ahasan Atick Faisal, Muhammad E.H. Chowdhury, Zaid Bin Mahbub, Shona Pedersen, Mosabber Uddin Ahmed, Amith Khandakar, Mohammed Alhatou, Mohammad Nabil, Iffat Ara, Enamul Haque Bhuiyan, Sakib Mahmud, Mohammed AbdulMoniem

Research output: Contribution to journal › Article › peer-review

19 Scopus citations

Abstract

Neurodegenerative diseases damage neuromuscular tissues and deteriorate motor neurons which affects the motor capacity of the patient. Particularly the walking gait is greatly influenced by the deterioration process. Early detection of anomalous gait patterns caused by neurodegenerative diseases can help the patient to prevent associated risks. Previous studies in this domain relied on either features extracted from gait parameters or the Ground Reaction Force (GRF) signal. In this work, we aim to combine both GRF signals and extracted features to provide a better analysis of walking gait patterns. For this, we designed NDDNet, a novel neural network architecture to process both of these data simultaneously to detect 3 different Neurodegenerative Diseases (NDDs). We have done several experiments on the data collected from 64 participants and got 96.75% accuracy on average in detecting 3 types of NDDs. The proposed method might provide a way to get the most out of the data in hand while working with GRF signals and help diagnose patients with an anomalous gait more effectively.

Original language	English
Pages (from-to)	20034-20046
Number of pages	13
Journal	Applied Intelligence
Volume	53
Issue number	17
DOIs	https://doi.org/10.1007/s10489-023-04557-w
State	Published - Sep 2023
Externally published	Yes

Keywords

Deep learning
Feature extraction
Gait analysis
Ground reaction force
Neurodegenerative diseases

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title = "NDDNet: a deep learning model for predicting neurodegenerative diseases from gait pattern",

abstract = "Neurodegenerative diseases damage neuromuscular tissues and deteriorate motor neurons which affects the motor capacity of the patient. Particularly the walking gait is greatly influenced by the deterioration process. Early detection of anomalous gait patterns caused by neurodegenerative diseases can help the patient to prevent associated risks. Previous studies in this domain relied on either features extracted from gait parameters or the Ground Reaction Force (GRF) signal. In this work, we aim to combine both GRF signals and extracted features to provide a better analysis of walking gait patterns. For this, we designed NDDNet, a novel neural network architecture to process both of these data simultaneously to detect 3 different Neurodegenerative Diseases (NDDs). We have done several experiments on the data collected from 64 participants and got 96.75% accuracy on average in detecting 3 types of NDDs. The proposed method might provide a way to get the most out of the data in hand while working with GRF signals and help diagnose patients with an anomalous gait more effectively.",

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author = "Faisal, {Md Ahasan Atick} and Chowdhury, {Muhammad E.H.} and Mahbub, {Zaid Bin} and Shona Pedersen and Ahmed, {Mosabber Uddin} and Amith Khandakar and Mohammed Alhatou and Mohammad Nabil and Iffat Ara and Bhuiyan, {Enamul Haque} and Sakib Mahmud and Mohammed AbdulMoniem",

note = "Publisher Copyright: {\textcopyright} 2023, The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.",

year = "2023",

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doi = "10.1007/s10489-023-04557-w",

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AU - Faisal, Md Ahasan Atick

AU - Chowdhury, Muhammad E.H.

AU - Mahbub, Zaid Bin

AU - Pedersen, Shona

AU - Ahmed, Mosabber Uddin

AU - Khandakar, Amith

AU - Alhatou, Mohammed

AU - Nabil, Mohammad

AU - Ara, Iffat

AU - Bhuiyan, Enamul Haque

AU - Mahmud, Sakib

AU - AbdulMoniem, Mohammed

PY - 2023/9

Y1 - 2023/9

N2 - Neurodegenerative diseases damage neuromuscular tissues and deteriorate motor neurons which affects the motor capacity of the patient. Particularly the walking gait is greatly influenced by the deterioration process. Early detection of anomalous gait patterns caused by neurodegenerative diseases can help the patient to prevent associated risks. Previous studies in this domain relied on either features extracted from gait parameters or the Ground Reaction Force (GRF) signal. In this work, we aim to combine both GRF signals and extracted features to provide a better analysis of walking gait patterns. For this, we designed NDDNet, a novel neural network architecture to process both of these data simultaneously to detect 3 different Neurodegenerative Diseases (NDDs). We have done several experiments on the data collected from 64 participants and got 96.75% accuracy on average in detecting 3 types of NDDs. The proposed method might provide a way to get the most out of the data in hand while working with GRF signals and help diagnose patients with an anomalous gait more effectively.

AB - Neurodegenerative diseases damage neuromuscular tissues and deteriorate motor neurons which affects the motor capacity of the patient. Particularly the walking gait is greatly influenced by the deterioration process. Early detection of anomalous gait patterns caused by neurodegenerative diseases can help the patient to prevent associated risks. Previous studies in this domain relied on either features extracted from gait parameters or the Ground Reaction Force (GRF) signal. In this work, we aim to combine both GRF signals and extracted features to provide a better analysis of walking gait patterns. For this, we designed NDDNet, a novel neural network architecture to process both of these data simultaneously to detect 3 different Neurodegenerative Diseases (NDDs). We have done several experiments on the data collected from 64 participants and got 96.75% accuracy on average in detecting 3 types of NDDs. The proposed method might provide a way to get the most out of the data in hand while working with GRF signals and help diagnose patients with an anomalous gait more effectively.

KW - Deep learning

KW - Feature extraction

KW - Gait analysis

KW - Ground reaction force

KW - Neurodegenerative diseases

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NDDNet: a deep learning model for predicting neurodegenerative diseases from gait pattern

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Keywords

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