Detection of Health-Related Events and Behaviours from Wearable Sensor Lifestyle Data Using Symbolic Intelligence: A Proof-of-Concept Application in the Care of Multiple Sclerosis

Overview

Journal Sensors (Basel)

Publisher MDPI

Specialty Biotechnology

Date 2021 Sep 28

PMID 34577437

Citations 4

Authors

Thanos G Stavropoulos

Georgios Meditskos

Ioulietta Lazarou

Lampros Mpaltadoros

Sotirios Papagiannopoulos

Magda Tsolaki

Ioannis Kompatsiaris

Affiliations

Soon will be listed here.

Abstract

In this paper, we demonstrate the potential of a knowledge-driven framework to improve the efficiency and effectiveness of care through remote and intelligent assessment. More specifically, we present a rule-based approach to detect health related problems from wearable lifestyle sensor data that add clinical value to take informed decisions on follow-up and intervention. We use OWL 2 ontologies as the underlying knowledge representation formalism for modelling contextual information and high-level concepts and relations among them. The conceptual model of our framework is defined on top of existing modelling standards, such as SOSA and WADM, promoting the creation of interoperable knowledge graphs. On top of the symbolic knowledge graphs, we define a rule-based framework for infusing expert knowledge in the form of SHACL constraints and rules to recognise patterns, anomalies and situations of interest based on the predefined and stored rules and conditions. A dashboard visualizes both sensor data and detected events to facilitate clinical supervision and decision making. Preliminary results on the performance and scalability are presented, while a focus group of clinicians involved in an exploratory research study revealed their preferences and perspectives to shape future clinical research using the framework.

Citing Articles

A Semantic Framework to Detect Problems in Activities of Daily Living Monitored through Smart Home Sensors.

Giannios G, Mpaltadoros L, Alepopoulos V, Grammatikopoulou M, Stavropoulos T, Nikolopoulos S Sensors (Basel). 2024; 24(4).

PMID: 38400265 PMC: 10892043. DOI: 10.3390/s24041107.

Artificial Intelligence and Multiple Sclerosis: Up-to-Date Review.

Naji Y, Mahdaoui M, Klevor R, Kissani N Cureus. 2023; 15(9):e45412.

PMID: 37854769 PMC: 10581506. DOI: 10.7759/cureus.45412.

Multi-Sensors for Human Activity Recognition.

Tsanousa A, Meditskos G, Vrochidis S, Kompatsiaris I Sensors (Basel). 2023; 23(10).

PMID: 37430530 PMC: 10223491. DOI: 10.3390/s23104617.

Context-Aware Edge-Based AI Models for Wireless Sensor Networks-An Overview.

Al-Saedi A, Boeva V, Casalicchio E, Exner P Sensors (Basel). 2022; 22(15).

PMID: 35898044 PMC: 9371178. DOI: 10.3390/s22155544.

References

Marrie R, Leung S, Tyry T, Cutter G, Fox R, Salter A . Use of eHealth and mHealth technology by persons with multiple sclerosis. Mult Scler Relat Disord. 2018; 27:13-19. DOI: 10.1016/j.msard.2018.09.036. View

Haase R, Schultheiss T, Kempcke R, Thomas K, Ziemssen T . Use and acceptance of electronic communication by patients with multiple sclerosis: a multicenter questionnaire study. J Med Internet Res. 2012; 14(5):e135. PMC: 3510727. DOI: 10.2196/jmir.2133. View

Banaee H, Ahmed M, Loutfi A . Data mining for wearable sensors in health monitoring systems: a review of recent trends and challenges. Sensors (Basel). 2013; 13(12):17472-500. PMC: 3892855. DOI: 10.3390/s131217472. View

Doshi A, Chataway J . Multiple sclerosis, a treatable disease . Clin Med (Lond). 2017; 17(6):530-536. PMC: 6297710. DOI: 10.7861/clinmedicine.17-6-530. View

Kane R, Bever C, Ehrmantraut M, Forte A, Culpepper W, Wallin M . Teleneurology in patients with multiple sclerosis: EDSS ratings derived remotely and from hands-on examination. J Telemed Telecare. 2008; 14(4):190-4. DOI: 10.1258/jtt.2008.070904. View

Christopoulou S, Kotsilieris T, Anagnostopoulos I, Anagnostopoulos C, Mylonas P . vhMentor: An Ontology Supported Mobile Agent System for Pervasive Health Care Monitoring. Adv Exp Med Biol. 2017; 989:57-65. DOI: 10.1007/978-3-319-57348-9_5. View

Huijgen B, Vollenbroek-Hutten M, Zampolini M, Opisso E, Bernabeu M, Van Nieuwenhoven J . Feasibility of a home-based telerehabilitation system compared to usual care: arm/hand function in patients with stroke, traumatic brain injury and multiple sclerosis. J Telemed Telecare. 2008; 14(5):249-56. DOI: 10.1258/jtt.2008.080104. View

Ji S, Pan S, Cambria E, Marttinen P, Yu P . A Survey on Knowledge Graphs: Representation, Acquisition, and Applications. IEEE Trans Neural Netw Learn Syst. 2021; 33(2):494-514. DOI: 10.1109/TNNLS.2021.3070843. View

Liguori M, Marrosu M, Pugliatti M, Giuliani F, De Robertis F, Cocco E . Age at onset in multiple sclerosis. Neurol Sci. 2001; 21(4 Suppl 2):S825-9. DOI: 10.1007/s100720070020. View

10.

El-Sappagh S, Ali F, Hendawi A, Jang J, Kwak K . A mobile health monitoring-and-treatment system based on integration of the SSN sensor ontology and the HL7 FHIR standard. BMC Med Inform Decis Mak. 2019; 19(1):97. PMC: 6511155. DOI: 10.1186/s12911-019-0806-z. View

11.

Haghayegh S, Khoshnevis S, Smolensky M, Diller K, Castriotta R . Accuracy of Wristband Fitbit Models in Assessing Sleep: Systematic Review and Meta-Analysis. J Med Internet Res. 2019; 21(11):e16273. PMC: 6908975. DOI: 10.2196/16273. View

12.

Baig M, GholamHosseini H, Moqeem A, Mirza F, Linden M . A Systematic Review of Wearable Patient Monitoring Systems - Current Challenges and Opportunities for Clinical Adoption. J Med Syst. 2017; 41(7):115. DOI: 10.1007/s10916-017-0760-1. View

13.

Wang J, Spicher N, Warnecke J, Haghi M, Schwartze J, Deserno T . Unobtrusive Health Monitoring in Private Spaces: The Smart Home. Sensors (Basel). 2021; 21(3). PMC: 7866106. DOI: 10.3390/s21030864. View

14.

Giebel C, Sutcliffe C, Stolt M, Karlsson S, Renom-Guiteras A, Soto M . Deterioration of basic activities of daily living and their impact on quality of life across different cognitive stages of dementia: a European study. Int Psychogeriatr. 2014; 26(8):1283-93. DOI: 10.1017/S1041610214000775. View

15.

Riboni D, Bettini C, Civitarese G, Janjua Z, Helaoui R . SmartFABER: Recognizing fine-grained abnormal behaviors for early detection of mild cognitive impairment. Artif Intell Med. 2016; 67:57-74. DOI: 10.1016/j.artmed.2015.12.001. View

16.

Majumder S, Aghayi E, Noferesti M, Memarzadeh-Tehran H, Mondal T, Pang Z . Smart Homes for Elderly Healthcare-Recent Advances and Research Challenges. Sensors (Basel). 2017; 17(11). PMC: 5712846. DOI: 10.3390/s17112496. View

17.

Borelli E, Paolini G, Antoniazzi F, Barbiroli M, Benassi F, Chesani F . HABITAT: An IoT Solution for Independent Elderly. Sensors (Basel). 2019; 19(5). PMC: 6427271. DOI: 10.3390/s19051258. View