Research Trends on Metabolic Syndrome in Digital Health Care Using Topic Modeling: Systematic Search of Abstracts.

Publication date: Dec 12, 2024

Metabolic syndrome (MetS) is a prevalent health condition that affects 20%-40% of the global population. Lifestyle modification is essential for the prevention and management of MetS. Digital health care, which incorporates technologies like wearable devices, mobile apps, and telemedicine, is increasingly becoming integral to health care systems. By analyzing existing research trends in the application of digital health care for MetS management, this study identifies gaps in current knowledge and suggests avenues for future research. This study aimed to identify core keywords, topics, and research trends concerning the use of digital health care in the management of MetS. A systematic search of abstracts from peer-reviewed papers was conducted across 6 academic databases. Following eligibility screening, 162 abstracts were selected for further analysis. The methodological approach included text preprocessing, text network analysis, and topic modeling using the BERTopic algorithm. Analysis of the 162 selected abstracts yielded a keyword network comprising 1047 nodes and 34,377 edges. The top 5 core keywords were identified as “MetS,” “use,” “patient,” “health,” and “intervention. ” We identified 12 unique topics, with topic 1 focusing on the use of telehealth for self-management of diabetes. The diversity of the 12 topics reflected various aspects of digital health care, including telehealth for diabetes management, electronic health records for MetS complications, and wearable devices for monitoring metabolic status. Research trends showed an expanding field of precision medicine driven by the demand for tailored interventions and the significant impact of the COVID-19 pandemic. By analyzing past research trends and extracting data from scholarly databases, this study has provided valuable insights that can guide future investigations in the field of digital health care and MetS management.

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Concepts Keywords
Apps applications
Diabetes apps
Future cardiovascular disease
Mets COVID-19
Scholarly devices
Digital Health
digital health care
Humans
management
Metabolic Syndrome
metabolic syndrome
methodological
Mobile Applications
prevention
research trends
Telemedicine
telemedicine
text network analysis
topic modeling
wearable
Wearable Electronic Devices

Semantics

Type Source Name
disease MESH Metabolic Syndrome
disease MESH Lifestyle
disease IDO algorithm
disease IDO intervention
disease MESH complications
disease MESH COVID-19 pandemic
disease MESH cardiovascular disease

Original Article

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