Abstract
Background: The exponential growth in computing power and the increasing digitization of information have substantially advanced the machine learning (ML) research field. However, ML algorithms are often considered "black boxes,"and this fosters distrust. In medical domains, in which mistakes can result in fatal outcomes, practitioners may be especially reluctant to trust ML algorithms. Objective: The aim of this study is to explore the effect of user-interface design features on intensivists' trust in an ML-based clinical decision support system. Methods: A total of 47 physicians from critical care specialties were presented with 3 patient cases of bacteremia in the setting of an ML-based simulation system. Three conditions of the simulation were tested according to combinations of information relevancy and interactivity. Participants' trust in the system was assessed by their agreement with the system's prediction and a postexperiment questionnaire. Linear regression models were applied to measure the effects. Results: Participants' agreement with the system's prediction did not differ according to the experimental conditions. However, in the postexperiment questionnaire, higher information relevancy ratings and interactivity ratings were associated with higher perceived trust in the system (P<.001 for both). The explicit visual presentation of the features of the ML algorithm on the user interface resulted in lower trust among the participants (P=.05). Conclusions: Information relevancy and interactivity features should be considered in the design of the user interface of ML-based clinical decision support systems to enhance intensivists' trust. This study sheds light on the connection between information relevancy, interactivity, and trust in human-ML interaction, specifically in the intensive care unit environment.
Original language | English |
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Article number | e56924 |
Journal | JMIR Research Protocols |
Volume | 11 |
DOIs | |
State | Published - 1 Jan 2024 |
Keywords
- AI
- ML
- artificial intelligence
- automation
- clinical decision support
- decision making
- decision support
- decision support system
- decision support systems
- digitization
- digitization of information
- human-ML
- human-ML interaction
- human-ML interactions
- human-automation interaction
- human-automation interactions
- human-computer interaction
- human-computer interactions
- machine learning
- machine learning algorithm
- machine learning algorithms
- trust in automation
- user interface
- user-interface design
- user-interface designs
ASJC Scopus subject areas
- General Medicine