Abstract
Increasingly available open medical and health datasets encourage data-driven research with a promise of improving patient care through knowledge discovery and algorithm development. Among efficient approaches to such high-dimensional problems are a number of machine learning methods, which are applied in this paper to pressure ulcer prediction in modular critical care data. An inherent property of many health-related datasets is a high number of irregularly sampled time-variant and scarcely populated features, often exceeding the number of observations. Although machine learning methods are known to work well under such circumstances, many choices regarding model and data processing exist. In particular, this paper address both theoretical and practical aspects related to the application of six classification models to pressure ulcers, while utilizing one of the largest available Medical Information Mart for Intensive Care (MIMIC-IV) databases. Random forest, with an accuracy of 96%, is the best-performing approach among the considered machine learning algorithms.
Reference54 articles.
1. Human skin wounds: A major and snowballing threat to public health and the economy
2. Prevention and Treatment of Pressure Ulcers/Injuries: Clinical Practice Guidelinehttps://www.internationalguideline.com/
3. Assessment and documentation of non-healing, chronic wounds in inpatient health care facilities in the Czech Republic: an evaluation study
4. Implementing a Pressure Ulcer Prevention Program and Enhancing the Role of the CWOCN: Impact on Outcomes;Hiser;Ostomy. Wound Manag.,2006
5. A Sore Spot in Pediatrics: Risk Factors for Pressure Ulcers;Samaniego;Pediatr. Nurs.,2003
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