Abstract
Clinical Practice Guidelines (CPGs) aim to optimize patient care by assisting physicians during the decision-making process. However, guideline adherence is highly affected by its unstructured format and aggregation of background information with disease-specific information. The objective of our study is to extract disease-specific information from CPG for enhancing its adherence ratio. In this research, we propose a semi-automatic mechanism for extracting disease-specific information from CPGs using pattern-matching techniques. We apply supervised and unsupervised machine-learning algorithms on CPG to extract a list of salient terms contributing to distinguishing recommendation sentences (RS) from non-recommendation sentences (NRS). Simultaneously, a group of experts also analyzes the same CPG and extract the initial patterns “Heuristic Patterns” using a group decision-making method, nominal group technique (NGT). We provide the list of salient terms to the experts and ask them to refine their extracted patterns. The experts refine patterns considering the provided salient terms. The extracted heuristic patterns depend on specific terms and suffer from the specialization problem due to synonymy and polysemy. Therefore, we generalize the heuristic patterns to part-of-speech (POS) patterns and unified medical language system (UMLS) patterns, which make the proposed method generalize for all types of CPGs. We evaluated the initial extracted patterns on asthma, rhinosinusitis, and hypertension guidelines with the accuracy of 76.92%, 84.63%, and 89.16%, respectively. The accuracy increased to 78.89%, 85.32%, and 92.07% with refined machine-learning assistive patterns, respectively. Our system assists physicians by locating disease-specific information in the CPGs, which enhances the physicians’ performance and reduces CPG processing time. Additionally, it is beneficial in CPGs content annotation.
Highlights
Technological advancements have generated a great boom for the healthcare industry, by enhancing its reach to a wider population pool and augmenting the clinical practices with state-of-the-art research
We proposed a machine-learning assistive pattern-based approach, which consists of heuristic patterns, part-of-speech (POS) patterns, and unified medical language system (UMLS) patterns for Clinical Practice Guidelines (CPGs) sentence classification to recommendation sentences (RS) and non-recommendation sentences (NRS)
We considered CA, CC, and A tagged as recommendation sentences while NA tagged sentences as NRS
Summary
Technological advancements have generated a great boom for the healthcare industry, by enhancing its reach to a wider population pool and augmenting the clinical practices with state-of-the-art research. Clinical Practice Guidelines (CPGs) represent a formalization of the medical intricacies, which would otherwise, greatly hinder the delivery of high quality, healthcare services [1]. CPGs play a pivotal role in standardization and dissemination of medical knowledge, prevention of ad-hoc non-standard practice variations, and providing evidence-based treatments [2,3]. The adherence rate of CPGs, is highly dependent on their nature, and the applicable clinical scenario, which leads to an effective usage rate between 20%. Some of the common reasons for non-adherence to these guidelines, include, a lack of awareness for the healthcare practitioners, and the difficulty in understanding the large textual content of the CPGs in a limited time, during the clinical practice [6,7,8]
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