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ODD: A Benchmark Dataset for ORAB Detection in EHR Notes


Основные понятия
ORAB detection models show promise but require further improvement, especially in uncommon categories.
Аннотация

The content introduces the ODD dataset for detecting ORABs from EHR notes. It explores two NLP models, fine-tuning and prompt-based tuning, showing better performance with the latter. The paper discusses the opioid crisis impact, factors contributing to it, and countermeasures like PDMPs. Data extraction reveals key metrics supporting model performance. Quotations highlight the importance of ORAB detection in preventing opioid misuse. Further questions address ethical considerations, error analysis, socio-demographic impacts, and future work.

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Статистика
Experimental results show that prompt-tuning models outperformed fine-tuning models. The best model achieved 88.17% on macro average area under precision-recall curve. Among uncommon categories, performance improvements were substantial. ODD consists of a large-size expert-annotated dataset for ORAB detection tasks.
Цитаты
"ODD is an expert-annotated dataset designed to identify ORABs from patients’ EHR notes." "Experimental results show that prompt-tuning models outperformed the fine-tuning models."

Ключевые выводы из

by Sunjae Kwon,... в arxiv.org 03-26-2024

https://arxiv.org/pdf/2307.02591.pdf
ODD

Дополнительные вопросы

How can ORAB detection impact patient autonomy and healthcare provider decision-making?

ORAB detection can have a significant impact on patient autonomy and healthcare provider decision-making. By identifying aberrant behaviors related to opioid use, these systems can provide valuable insights into a patient's risk of opioid addiction or misuse. This information may lead to interventions aimed at preventing serious consequences such as opioid overdose. However, the use of ORAB detection systems raises concerns about patient privacy and autonomy. Patients may feel that their behavior is being monitored without their consent, potentially leading to feelings of mistrust towards healthcare providers. From a healthcare provider perspective, ORAB detection systems can assist in making more informed decisions regarding opioid prescriptions and treatment plans. By flagging potential signs of abuse or dependency, providers can take proactive measures to address these issues with patients. However, there is also the risk of over-reliance on technology for decision-making, which could undermine the clinician-patient relationship and reduce the personalized care provided.

What are the potential negative social impacts of using ORAB detection systems?

While ORAB detection systems offer benefits in terms of early intervention and improved patient outcomes, they also pose several potential negative social impacts. One concern is the stigma associated with being labeled as having aberrant behaviors related to opioids. Patients may feel judged or discriminated against based on this classification, leading to psychological distress and reluctance to seek help for legitimate pain management needs. Another issue is the erosion of patient privacy rights. The monitoring and surveillance required for effective ORAB detection raise questions about data security and confidentiality. Patients may be concerned about who has access to their sensitive health information and how it will be used beyond clinical purposes. Additionally, there is a risk of medical paternalism where healthcare providers rely too heavily on technology-driven assessments without considering individual patient contexts or preferences. This could result in decisions that prioritize algorithmic outputs over shared decision-making between patients and providers.

How can data augmentation with generative LLMs improve performance in uncommon categories?

Data augmentation with generative Large Language Models (LLMs) offers a promising approach to improving performance in uncommon categories within ORAB detection tasks. By leveraging LLMs for paraphrasing sentences or generating additional training examples from existing data sets, the model gains exposure to diverse linguistic patterns present in rare categories like Suggested Aberrant Behaviors, Confirmed Aberrant Behaviors, Diagnosed Opioid Dependency, and Medication Change. This augmented data helps enhance model generalization by providing more varied instances for learning subtle nuances within these less frequent classes. As demonstrated through experiments utilizing LLM-based paraphrasing techniques, the augmented data contributes positively towards boosting performance metrics like AUPRC and F1 scores specifically targeting underrepresented categories within the dataset. In summary, data augmentation with generative LLMs serves as an effective strategy to address imbalances in class distribution and improve overall model accuracy across all categories within an ORAB detection framework
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