Diet-ODIN: A Novel Framework for Opioid Misuse Detection with Interpretable Dietary Patterns
- URL: http://arxiv.org/abs/2403.08820v1
- Date: Wed, 21 Feb 2024 19:36:24 GMT
- Title: Diet-ODIN: A Novel Framework for Opioid Misuse Detection with Interpretable Dietary Patterns
- Authors: Zheyuan Zhang, Zehong Wang, Shifu Hou, Evan Hall, Landon Bachman, Vincent Galassi, Jasmine White, Nitesh V. Chawla, Chuxu Zhang, Yanfang Ye,
- Abstract summary: Research on the alarming connections between dietary patterns and opioid misuse remain under-explored.
We first establish a large-scale multifaceted dietary benchmark dataset related to opioid users.
We then develop a novel framework for the identification of users with opioid misuse and the interpretation of their associated dietary patterns.
- Score: 42.27955735352411
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: The opioid crisis has been one of the most critical society concerns in the United States. Although the medication assisted treatment (MAT) is recognized as the most effective treatment for opioid misuse and addiction, the various side effects can trigger opioid relapse. In addition to MAT, the dietary nutrition intervention has been demonstrated its importance in opioid misuse prevention and recovery. However, research on the alarming connections between dietary patterns and opioid misuse remain under-explored. In response to this gap, in this paper, we first establish a large-scale multifaceted dietary benchmark dataset related to opioid users at the first attempt and then develop a novel framework - i.e., namely Opioid Misuse Detection with Interpretable Dietary Patterns (Diet-ODIN) - to bridge heterogeneous graph (HG) and large language model (LLM) for the identification of users with opioid misuse and the interpretation of their associated dietary patterns. Specifically, in Diet-ODIN, we first construct an HG to comprehensively incorporate both dietary and health-related information, and then we devise a holistic graph learning framework with noise reduction to fully capitalize both users' individual dietary habits and shared dietary patterns for the detection of users with opioid misuse. To further delve into the intricate correlations between dietary patterns and opioid misuse, we exploit an LLM by utilizing the knowledge obtained from the graph learning model for interpretation. The extensive experimental results based on our established benchmark with quantitative and qualitative measures demonstrate the outstanding performance of Diet-ODIN in exploring the complex interplay between opioid misuse and dietary patterns, by comparison with state-of-the-art baseline methods.
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